7 #include "MEDMEM_Exception.hxx"
8 #include "MEDMEM_Mesh.hxx"
9 #include "MEDMEM_Family.hxx"
10 #include "MEDMEM_Group.hxx"
12 #include "MEDMEM_MedMeshDriver.hxx"
13 #include "MEDMEM_MedFieldDriver.hxx"
14 #include "MEDMEM_Support.hxx"
15 #include "MEDMEM_Field.hxx"
16 #include "MEDMEM_define.hxx"
17 using namespace MEDMEM;
20 void affiche_support(const SUPPORT * mySupport)
22 cout << " - Name : "<<mySupport->getName().c_str()<<endl ;
23 cout << " - Description : "<<mySupport->getDescription().c_str()<<endl ;
24 cout << " - Entity : "<<mySupport->getEntity()<<endl ;
25 cout << " - Entities list : "<<endl ;
26 if (!(mySupport->isOnAllElements())) {
27 int NumberOfTypes = mySupport->getNumberOfTypes() ;
28 cout<<" - NumberOfTypes : "<<NumberOfTypes<<endl;
29 const medGeometryElement * Types = mySupport->getTypes() ;
30 for (int j=0;j<NumberOfTypes;j++) {
31 cout<<" * Type "<<Types[j]<<" : ";
32 int NumberOfElements = mySupport->getNumberOfElements(Types[j]) ;
33 const int * Number = mySupport->getNumber(Types[j]) ;
34 for (int k=0; k<NumberOfElements;k++)
35 cout << Number[k] << " ";
39 cout << " Is on all entities !"<< endl;
43 void affiche_famille(MESH *myMesh,medEntityMesh Entity)
45 int NumberOfFamilies = myMesh->getNumberOfFamilies(Entity) ;
46 cout << "NumberOfFamilies : "<<NumberOfFamilies<<endl;
47 for (int i=1; i<NumberOfFamilies+1;i++) {
48 const FAMILY* myFamily = myMesh->getFamily(Entity,i);
49 affiche_support(myFamily);
50 cout << " - Identifier : "<<myFamily->getIdentifier()<<endl ;
51 int NumberOfAttributes = myFamily->getNumberOfAttributes() ;
52 cout << " - Attributes ("<<NumberOfAttributes<<") :"<<endl;
53 for (int j=1;j<NumberOfAttributes+1;j++)
54 cout << " * "<<myFamily->getAttributeIdentifier(j)<<" : "<<myFamily->getAttributeValue(j)<<", "<<myFamily->getAttributeDescription(j).c_str()<<endl ;
55 int NumberOfGroups = myFamily->getNumberOfGroups() ;
56 cout << " - Groups ("<<NumberOfGroups<<") :"<<endl;
57 for (int j=1;j<NumberOfGroups+1;j++)
58 cout << " * "<<myFamily->getGroupName(j).c_str()<<endl ;
62 void affiche_groupe(MESH *myMesh,medEntityMesh Entity)
64 int NumberOfGroups = myMesh->getNumberOfGroups(Entity) ;
65 cout << "NumberOfGroups : "<<NumberOfGroups<<endl;
66 for (int i=1; i<NumberOfGroups+1;i++) {
67 const GROUP* myGroup = myMesh->getGroup(Entity,i);
68 affiche_support(myGroup);
69 int NumberOfFamillies = myGroup->getNumberOfFamilies() ;
70 cout << " - Families ("<<NumberOfFamillies<<") :"<<endl;
71 for (int j=1;j<NumberOfFamillies+1;j++)
72 cout << " * "<<myGroup->getFamily(j)->getName().c_str()<<endl ;
76 int main (int argc, char ** argv) {
80 if (argc <3) { // after 3, ignored !
81 cerr << "Usage : " << argv[0]
82 << " filename meshname" << endl << endl;
86 string filename = argv[1] ;
87 string meshname = argv[2] ;
89 MESH * myMesh= new MESH() ;
90 myMesh->setName(meshname);
91 MED_MESH_RDONLY_DRIVER myMeshDriver(filename,myMesh) ;
92 myMeshDriver.setMeshName(meshname);
95 myMeshDriver.close() ;
97 //Construction d'un support total
98 SUPPORT * mySupport = new SUPPORT(myMesh,"Support on CELLs",MED_CELL);
100 cout << "Show Support on all :"<<endl ;
101 affiche_support(mySupport);
102 SUPPORT * mySupport2 = new SUPPORT(* mySupport);
104 affiche_support(mySupport2);
107 //Construction d'un support partiel
108 mySupport = new SUPPORT(myMesh,"Support on CELLs",MED_CELL);
109 mySupport->setAll(false);
111 // int NumberOfGeometricType = 1;
112 int NumberOfGeometricType = 0;
113 // int TotalNumberOfEntity = 2;
114 // medGeometryElement * GeometricTypePartial = new medGeometryElement[NumberOfGeometricType];
115 // GeometricTypePartial[0] = MED_HEXA8;
116 int TotalNumberOfElements = 0;
117 int * NumberOfElements = new int[myMesh->getNumberOfTypes(MED_CELL)];
118 // NumberOfEntity[0] = 2;
119 // int * NumberValue = new int[TotalNumberOfEntity];
120 int * NumberValue = new int[myMesh->getGlobalNumberingIndex(MED_CELL)[myMesh->getNumberOfTypes(MED_CELL)]-1];
121 // NumberValue[0] = 14;
122 // NumberValue[1] = 15;
124 medGeometryElement * GeometricTypePartial = new medGeometryElement[myMesh->getNumberOfTypes(MED_CELL)];
125 const medGeometryElement * GeometricType = myMesh->getTypes(MED_CELL);
126 for (int i=0;i<myMesh->getNumberOfTypes(MED_CELL);i=i+2)
128 NumberOfGeometricType=NumberOfGeometricType+1;
129 TotalNumberOfElements=TotalNumberOfElements+myMesh->getNumberOfElements(MED_CELL,GeometricType[i]);
130 NumberOfElements[i/2]=myMesh->getNumberOfElements(MED_CELL,GeometricType[i]);
131 for (int j=0;j<myMesh->getNumberOfElements(MED_CELL,GeometricType[i]);j++)
133 NumberValue[cmp]=myMesh->getGlobalNumberingIndex(MED_CELL)[i]+j;
136 GeometricTypePartial[i/2]=GeometricType[i];
139 mySupport->setpartial("Support partiel",NumberOfGeometricType,TotalNumberOfElements,GeometricTypePartial,NumberOfElements,NumberValue);
141 delete[] NumberOfElements ;
142 delete[] NumberValue ;
143 delete[] GeometricTypePartial ;
145 cout << "Show Partial Support :"<<endl ;
146 affiche_support(mySupport);
147 mySupport2 = new SUPPORT(* mySupport);
149 affiche_support(mySupport2);
153 cout << "Show Family :"<<endl ;
154 affiche_famille(myMesh,MED_NODE);
155 affiche_famille(myMesh,MED_CELL);
156 affiche_famille(myMesh,MED_FACE);
157 affiche_famille(myMesh,MED_EDGE);
159 cout << "Show Group :"<<endl ;
160 affiche_groupe(myMesh,MED_NODE);
161 affiche_groupe(myMesh,MED_CELL);
162 affiche_groupe(myMesh,MED_FACE);
163 affiche_groupe(myMesh,MED_EDGE);