8 #include "MEDMEM_Group.hxx"
9 #include "MEDMEM_Family.hxx"
10 using namespace MEDMEM;
12 GROUP::GROUP():_numberOfFamilies(0),_family()
22 GROUP & GROUP::operator=(const GROUP &group)
24 MESSAGE("GROUP::operator=");
25 _numberOfFamilies = group._numberOfFamilies ;
26 _family = group._family ;
30 ostream & MEDMEM::operator<<(ostream &os, GROUP &myGroup)
32 os << (SUPPORT) myGroup;
34 int numberoffamilies = myGroup.getNumberOfFamilies();
35 os << " - Families ("<<numberoffamilies<<") :"<<endl;
36 for (int j=1;j<numberoffamilies+1;j++)
37 os << " * "<<myGroup.getFamily(j)->getName().c_str()<<endl ;
42 GROUP::GROUP(const string & name, const list<FAMILY*> & families) throw (MEDEXCEPTION)
44 const char * LOC = "GROUP( const string & , const list<FAMILY*> & ) : " ;
50 int numberOfFamilies = families.size();
52 _description = "GROUP";
53 // description : none !
54 // first FAMILY to set all !
55 FAMILY * myFamily = families.front() ;
56 _mesh = myFamily->getMesh() ;
57 _entity = myFamily->getEntity() ;
58 bool isOnAllElts = myFamily->isOnAllElements() ;
61 SCRUTE(numberOfFamilies);
64 if ((numberOfFamilies==1) || (isOnAllElts))
66 _numberOfFamilies = numberOfFamilies;
67 _isOnAllElts = isOnAllElts ;
68 _family.resize(_numberOfFamilies) ;
69 _family[0] = myFamily;
73 else if ((!(numberOfFamilies==1))&(isOnAllElts))
74 throw MEDEXCEPTION(LOCALIZED(STRING(LOC) << "building of a GROUP object from several FAMILY, and one of them is on all entities" )) ;
76 _numberOfGeometricType = myFamily->getNumberOfTypes() ;
77 _geometricType = new medGeometryElement[_numberOfGeometricType];
78 //_geometricTypeNumber = new int[_numberOfGeometricType] ;
79 _numberOfGaussPoint = new int[_numberOfGeometricType] ;
80 _numberOfElements = new int[_numberOfGeometricType] ;
81 const medGeometryElement * geometricType = myFamily->getTypes() ;
82 //int * geometricTypeNumber = myFamily->getGeometricTypeNumber() ;
83 const int * numberOfGaussPoint = myFamily->getNumberOfGaussPoint() ;
85 SCRUTE(_numberOfGeometricType);
87 for (int i=0 ; i<_numberOfGeometricType; i++) {
88 _geometricType[i]= geometricType[i] ;
89 // _geometricTypeNumber[i] = geometricTypeNumber[i] ;
90 _numberOfGaussPoint[i] = numberOfGaussPoint[i] ;
91 _numberOfElements[i]=myFamily->getNumberOfElements(geometricType[i]);
92 MESSAGE(LOC << " Type : " << _geometricType[i] << " number of element(s) " << _numberOfElements[i]);
94 _isOnAllElts = false ;
95 //_totalNumberOfEntities = myFamily->getNumberOfElements(MED_ALL_ELEMENTS) ;
98 MEDSKYLINEARRAY * famNumber = myFamily->getnumber();
100 const int * famNumberValue = myFamily->getNumber(MED_ALL_ELEMENTS);
102 const int * famNumberIndex = myFamily->getNumberIndex();
104 int famNumberCount = famNumber->getNumberOf();
105 int famNumberLength = famNumber->getLength();
108 SCRUTE(famNumberCount);
109 SCRUTE(famNumberLength);
110 SCRUTE(famNumberValue);
111 SCRUTE(famNumberIndex);
113 // _number = new MEDSKYLINEARRAY(*famNumber) ;
114 _number = new MEDSKYLINEARRAY(famNumberCount,famNumberLength,
115 famNumberIndex,famNumberValue) ;
119 _numberOfFamilies = families.size();
121 SCRUTE(numberOfFamilies);
123 //SCRUTE(_numberOfFamilies);
125 _family.resize(_numberOfFamilies) ;
126 list<FAMILY*>::const_iterator li ;
128 // MESSAGE(LOC<<"Printing of the object GROUP built right before the blending"<< (SUPPORT) *this);
132 for (li=families.begin();li!=families.end();li++) {
134 _family[it] = (*li) ;
138 //MESSAGE(LOC<<"Printing of the object GROUP built "<< (GROUP)*this);
143 GROUP::GROUP(const GROUP & m):SUPPORT(m)
145 _numberOfFamilies = m._numberOfFamilies;
149 // void GROUP::init(const list<FAMILY*> & families)
151 // const char * LOC = "GROUP::init( const list<FAMILY*> & ) : " ;
155 // FAMILY * myFamily = families.front() ;
156 // _mesh = myFamily->getMesh() ;
158 // _isOnAllElts = myFamily->isOnAllElements() ;
162 // SCRUTE(_isOnAllElts);
164 // _entity = myFamily->getEntity() ;
166 // SCRUTE(_mesh->getNumberOfTypes(_entity));
168 // _numberOfGeometricType = myFamily->getNumberOfTypes() ;
169 // _geometricType = new medGeometryElement[_numberOfGeometricType];
170 // //_geometricTypeNumber = new int[_numberOfGeometricType] ;
171 // _numberOfGaussPoint = new int[_numberOfGeometricType] ;
172 // _numberOfElements = new int[_numberOfGeometricType] ;
173 // medGeometryElement * geometricType = myFamily->getTypes() ;
174 // //int * geometricTypeNumber = myFamily->getGeometricTypeNumber() ;
175 // int * numberOfGaussPoint = myFamily->getNumberOfGaussPoint() ;
176 // for (int i=0 ; i<_numberOfGeometricType; i++) {
177 // _geometricType[i]= geometricType[i] ;
178 // // _geometricTypeNumber[i] = geometricTypeNumber[i] ;
179 // _numberOfGaussPoint[i] = numberOfGaussPoint[i] ;
180 // _numberOfElements[i]=myFamily->getNumberOfElements(geometricType[i]);
182 // _isOnAllElts = false ;
183 // _totalNumberOfEntities = myFamily->getNumberOfElements(MED_ALL_ELEMENTS) ;
184 // _number = new MEDSKYLINEARRAY(*myFamily->getnumber()) ;
186 // _numberOfFamilies = families.size();
187 // _family.resize(_numberOfFamilies) ;
188 // list<FAMILY*>::const_iterator liIni = families.begin() ;
189 // _family[0]=(*liIni);
191 // list<FAMILY*>::const_iterator li ;
193 // for (li=liIni;li!=families.end();li++) {
195 // _family[it] = (*li) ;