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The following is a class that I have done to divide a bounding box into smaller pieces.

class reticula
{   
    int _columnas;
    int _renglones;
    int _num_pixelotes;
    vector<vector<Point> > Pixelotes;

public:
reticula():
_columnas(0),
_renglones(0),
_num_pixelotes(0),
Pixelotes(){};
/// crear la reticula con los valores deseados 
reticula(vector<Point> verticesB, int renglon, int columna);

Size size(void);
vector<Point> en(int el_renglon, int la_columna);
~reticula(void);
};  

reticula::reticula(vector<Point> verticesB, int renglon, int columna ){
if(verticesB.size()!= 4){
    cout<< "El vector debe tener las 4 esquinas del rectangulo a dividir"
        << endl;    
    throw 400; // es para mandar la exepción. 
}
_columnas = columna;
_renglones = renglon;
_num_pixelotes = columna * renglon ;
Pixelotes.resize(_renglones * _columnas); 
double dis_mayor, dis_menor;//con respecto a los ejes 
Point dif_10;
Point dif_21;
Point dif_32;
Point dif_03;
double es_mayor, es_menor;


dif_10 = verticesB[1]-verticesB[0];
dif_21 = verticesB[2]-verticesB[1];
dif_32 = verticesB[3]-verticesB[2];
dif_03 = verticesB[0]-verticesB[3];

dis_mayor = norm(dif_10);
dis_menor = norm(dif_21);

es_mayor = dis_mayor/(double) _columnas;
es_menor = dis_menor/(double) _renglones;
Point aux;
Point aux2;
vector<Point> vertices_re((_columnas + 1)*(_renglones + 1));
for (int i = 0; i < _renglones; i++){
    for(int j= 0; j < _columnas; j++){
        for(int h=0; h < 4; h++ ){
            aux = verticesB[0] + ((((double)j*dis_mayor) * dif_10) + (((double)i * dis_menor)*dif_21));
            if(h=0){aux2= aux;}
            else if(h=1){aux2= aux + (dis_mayor * dif_10);}
            else if(h=2){aux2= aux + (dis_mayor * dif_10) + (dis_menor * dif_21);}
            else if(h=3){aux2= aux + (dis_menor * dif_21);}
            Pixelotes[i * _columnas + j].push_back(aux2);
        }
    }
}


}


Size reticula::size(void){
Size Total;
Total.width = _columnas;
Total.height = _renglones;
return Total;

}

vector<Point> reticula::en(int el_renglon, int la_columna){
if(el_renglon > _renglones|| la_columna> _columnas){
    cout << " el renglon y la columna se deben encontrar dentro de los parametros "
        <<endl;
    cout<< _renglones<<" , "<<_columnas<<endl;
    vector<Point> vacio;
    vacio.push_back(Point(0,0));
    return (vacio);
}
int busca;
busca = el_renglon * _columnas + la_columna;    
}

And I want to create a vector that contain this class but I don't know what I'm doing wrong

vector<reticula> SoloReti(contours.size());
for(int g=0; g< SoloReti.size(); g++){
    SoloReti[g].reticula(contours[g], 5,4);
}

The g++ compiler tells "invalid use of reticula::reticula" can someone tell me where the problem is ?

share|improve this question
    
On a side note, if your vector matrix is iterated over often then you're much better off allocating one vector in a single big chunk. With your current approach each element of the top level vector (a vector in and of itself) will perform a second heap allocation for storage, which pretty much kills locality of data. – Ed S. Oct 11 '12 at 22:12
    
Thanks for the answer, now I understand what wrong in the code. And maybe it will be better to put all point in just one vector, but I think it will be useful to keep points in this way for future reference. – user1649814 Oct 11 '12 at 23:14
up vote 1 down vote accepted

When you declare your vector<reticula> SoloReti(contours.size()), it initializes the vector with contours.size() reticula build with default constructor reticula().

When you do SoloReti[g].reticula, you are trying to call the constructor from an already constructed object. Solution: use assignment operator:

vector<reticula> SoloReti(contours.size());
for(int g=0; g< SoloReti.size(); g++){
    SoloReti[g] = reticula(contours[g], 5,4);
}
share|improve this answer
    
Technically SoloReti[g] hasn't been constructed yet, because it doesn't exist. The constructor that takes the size as parameter just allocates the space, but doesn't initialize it. – Geoff Montee Oct 11 '12 at 22:06
    
I disagree Geoff, the vector constructor does initialize the objects, and Soloreti[g] gives a perfectly valid instance. Furthermore SoloReti is constructed with contours.size(), so if contours.size() == 0, the loop does nothing. – remi Oct 12 '12 at 8:03
    
ideone.com/irQxZ – remi Oct 12 '12 at 8:14
    
This just goes to show that you should always double check your intuition against the documentation. RTFM as they say. I'm not sure why I thought this constructor behaved differently. I use C++ a lot, but I switch languages all the time, so maybe I had it confused with something else. My bad. – Geoff Montee Oct 12 '12 at 10:50

I think this is what you want:

vector<reticula> SoloReti;

for(int g = 0; g < countors.size(); g++)
{
    reticula tmp(contours[g], 5, 4); 
    SoloReti.push_back(tmp);
}
share|improve this answer
    
Nope. Soloreti is initialized with contours.size() elements. If you do push_back, SoloReti will be of size contours.size()*2 at the end of the loop. Try it out yourself! The answer would be valid if you had declared Soloreti as vector<reticula> SoloReti, with no size specified. – remi Oct 12 '12 at 8:06
    
ideone.com/irQxZ – remi Oct 12 '12 at 8:20

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