extern med_geometry_type typmainoeud[1];
extern med_geometry_type typmai3[34];
-using namespace ParaMEDMEM;
+using namespace MEDCoupling;
const char MEDFileField1TSWithoutSDA::TYPE_STR[]="FLOAT64";
const char MEDFileIntField1TSWithoutSDA::TYPE_STR[]="INT32";
}
/// @cond INTERNAL
-namespace ParaMEDMEMImpl
+namespace MEDCouplingImpl
{
class LocFinder
{
int MEDFileFieldGlobs::getLocalizationId(const std::string& loc) const
{
- std::vector< MEDCouplingAutoRefCountObjectPtr<MEDFileFieldLoc> >::const_iterator it=std::find_if(_locs.begin(),_locs.end(),ParaMEDMEMImpl::LocFinder(loc));
+ std::vector< MEDCouplingAutoRefCountObjectPtr<MEDFileFieldLoc> >::const_iterator it=std::find_if(_locs.begin(),_locs.end(),MEDCouplingImpl::LocFinder(loc));
if(it==_locs.end())
{
std::ostringstream oss; oss << "MEDFileFieldGlobs::getLocalisationId : no such localisation name : \"" << loc << "\" Possible localizations are : ";
const DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName) const
{
std::string pflNameCpp(pflName);
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> >::const_iterator it=std::find_if(_pfls.begin(),_pfls.end(),ParaMEDMEMImpl::PflFinder(pflNameCpp));
+ std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> >::const_iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pflNameCpp));
if(it==_pfls.end())
{
std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfile: no such profile name : \"" << pflNameCpp << "\" Possible profiles are : ";
DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName)
{
std::string pflNameCpp(pflName);
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> >::iterator it=std::find_if(_pfls.begin(),_pfls.end(),ParaMEDMEMImpl::PflFinder(pflNameCpp));
+ std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> >::iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pflNameCpp));
if(it==_pfls.end())
{
std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfile: no such profile name : \"" << pflNameCpp << "\" Possible profiles are : ";
* Thus all sequences returned by this method are of the same length equal to number
* of different types of supporting entities.<br>
* A field part can include sub-parts with several different spatial discretizations,
- * \ref ParaMEDMEM::ON_CELLS "ON_CELLS" and \ref ParaMEDMEM::ON_GAUSS_PT "ON_GAUSS_PT"
+ * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
* for example. Hence, some of the returned sequences contains nested sequences, and an item
* of a nested sequence corresponds to a type of spatial discretization.<br>
* This method allows for iteration over MEDFile DataStructure without any overhead.
* maximal absolute dimension and values returned via the out parameter \a levs are
* dimensions relative to the maximal absolute dimension. <br>
* This method is designed for MEDFileField1TS instances that have a discretization
- * \ref ParaMEDMEM::ON_CELLS "ON_CELLS",
- * \ref ParaMEDMEM::ON_GAUSS_PT "ON_GAUSS_PT",
- * \ref ParaMEDMEM::ON_GAUSS_NE "ON_GAUSS_NE".
+ * \ref MEDCoupling::ON_CELLS "ON_CELLS",
+ * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT",
+ * \ref MEDCoupling::ON_GAUSS_NE "ON_GAUSS_NE".
* Only these 3 discretizations will be taken into account here. If \a this is
- * \ref ParaMEDMEM::ON_NODES "ON_NODES", -1 is returned and \a levs are empty.<br>
+ * \ref MEDCoupling::ON_NODES "ON_NODES", -1 is returned and \a levs are empty.<br>
* This method is useful to make the link between the dimension of the underlying mesh
* and the levels of \a this, because it is possible that the highest dimension of \a this
* field is not equal to the dimension of the underlying mesh.
* Thus all sequences returned by this method are of the same length equal to number
* of different types of supporting entities.<br>
* A field part can include sub-parts with several different spatial discretizations,
- * \ref ParaMEDMEM::ON_CELLS "ON_CELLS" and \ref ParaMEDMEM::ON_GAUSS_PT "ON_GAUSS_PT"
+ * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
* for example. Hence, some of the returned sequences contains nested sequences, and an item
* of a nested sequence corresponds to a type of spatial discretization.<br>
* This method allows for iteration over MEDFile DataStructure with a reduced overhead.
* a field part is returned.
* \param [in,out] typesF - a sequence of sequences of types of spatial discretizations.
* A field part can include sub-parts with several different spatial discretizations,
- * \ref ParaMEDMEM::ON_CELLS "ON_CELLS" and
- * \ref ParaMEDMEM::ON_GAUSS_PT "ON_GAUSS_PT" for example.
+ * \ref MEDCoupling::ON_CELLS "ON_CELLS" and
+ * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT" for example.
* This sequence is of the same length as \a types.
* \param [in,out] pfls - a sequence returning a profile name per each type of spatial
* discretization. A profile name can be empty.
