2 /* Programme de test du constructeur de copies de la classe COORDINATE de MEDMEM
10 #include "MEDMEM_Exception.hxx"
11 #include "MEDMEM_Mesh.hxx"
12 #include "MEDMEM_Family.hxx"
13 #include "MEDMEM_Group.hxx"
15 #include "MEDMEM_MedMeshDriver.hxx"
16 #include "MEDMEM_MedFieldDriver.hxx"
17 #include "MEDMEM_Support.hxx"
18 #include "MEDMEM_Field.hxx"
19 #include "MEDMEM_define.hxx"
20 using namespace MEDMEM;
23 void affiche_tableau(const double * myArray, int nb_lignes, int nb_colonnes)
25 cout << "Nombre de lignes : " << nb_lignes << endl;
26 cout << "Nombre de colonnes : " << nb_colonnes << endl;
27 cout << "Valeurs :" << endl;
29 for (int i=0; i<nb_lignes; i++) {
30 for (int j=0; j<nb_colonnes; j++)
31 cout << myArray[j*nb_lignes+i] << " ";
35 void affiche_coordinate(COORDINATE & myCoordinate, int _numberofNodes, int _spaceDimension)
37 cout << "- Système de coordonnées : " << myCoordinate.getCoordinatesSystem() << endl;
38 cout << "- Tableau des coordonnées : " << endl;
39 // affiche_medarray(* myCoordinate.getCoordinatePtr());
40 affiche_tableau(myCoordinate.getCoordinates(MED_NO_INTERLACE),_numberofNodes,_spaceDimension);
41 //on récupère les dimensions
42 // int _spaceDimension = (int) myCoordinate.getCoordinatePtr()->getLeadingValue();
43 //int _numberofNodes = (int) myCoordinate.getCoordinatePtr()->getLengthValue();
44 cout << "- Nom des coordonnées : " << endl;
45 for (int i=1; i<=_spaceDimension; i++)
46 cout << i << " " << myCoordinate.getCoordinateName(i) << endl;
47 // cout<<myCoordinate.getCoordinatesNames()<<endl;
48 cout << "- Unité des coordonnées : " << endl;
49 for (int i=1; i<=_spaceDimension; i++)
50 cout << i << " " << myCoordinate.getCoordinateUnit(i) << endl;
51 cout << "- Indices des noeuds : " << endl;
52 // cout<<myCoordinate.getNodesNumbers()<<endl;
53 for (int i=0; i<_numberofNodes; i++)
54 cout << i << " " << myCoordinate.getNodesNumbers()[i] << endl;
58 int main (int argc, char ** argv) {
61 if ((argc !=3) && (argc != 4)) {
62 cerr << "Usage : " << argv[0]
63 << " filename meshname fieldname" << endl << endl;
67 const med_int numberofNodes = 5;
68 const med_int spaceDimension = 3;
69 const medModeSwitch mode = MED_FULL_INTERLACE;
71 //construction tableau MEDARRAY des coordonnées
72 MEDARRAY<double> * myMedArray = new MEDARRAY<double>(spaceDimension,numberofNodes,mode);
73 for (med_int i=1; i<=myMedArray->getLengthValue(); i++) {
74 for (med_int j=1; j<=myMedArray->getLeadingValue(); j++)
75 myMedArray->setIJ(i,j,(double) random());
78 //construction noms des coordonnées
79 string * myCoordinatesNames = new string[spaceDimension];
80 if (spaceDimension >= 1) myCoordinatesNames[0] = "x";
81 if (spaceDimension >= 2) myCoordinatesNames[1] = "y";
82 if (spaceDimension >= 3) myCoordinatesNames[2] = "z";
84 //construction unités des coordonnées
85 string * myCoordinatesUnits = new string[spaceDimension];
86 if (spaceDimension >= 1) myCoordinatesUnits[0] = "m";
87 if (spaceDimension >= 2) myCoordinatesUnits[1] = "m";
88 if (spaceDimension >= 3) myCoordinatesUnits[2] = "m";
90 //construction des indices des noeuds
91 int * myNodeNumber = new int[numberofNodes];
92 for (int i=0; i<numberofNodes; i++)
93 myNodeNumber[i]=numberofNodes-i-1;
95 //construction de l'objet COORDINATE
96 COORDINATE * myCoordinate = new COORDINATE();
97 myCoordinate->setCoordinates(myMedArray);
98 myCoordinate->setCoordinatesNames(myCoordinatesNames);
99 myCoordinate->setCoordinatesUnits(myCoordinatesUnits);
100 myCoordinate->setNodesNumbers(myNodeNumber);
102 // myCoordinate->setCoordinatesNames((string *)NULL);
103 // myCoordinate->setNodesNumbers((int *) NULL);
106 delete[] myCoordinatesNames ;
107 delete[] myCoordinatesUnits ;
108 delete[] myNodeNumber ;
110 affiche_coordinate(* myCoordinate,numberofNodes,spaceDimension);
111 COORDINATE * myCoordinate2 = new COORDINATE(* myCoordinate);
112 delete myCoordinate ;
114 affiche_coordinate(* myCoordinate2,numberofNodes,spaceDimension);
115 delete myCoordinate2 ;