- "NoNature", the default value, does not allow the use of any interpolation tools
For intensive fields:
-- \ref TableNatureOfFieldExampleConservVol "ConservativeVolumic", for intensive field with the maximum principle favored over conservativity. Relevant for temperature, pressure fields.
+- \ref TableNatureOfFieldExampleConservVol "IntensiveMaximum", for intensive field with the maximum principle favored over conservativity. Relevant for temperature, pressure fields.
-- \ref TableNatureOfFieldExampleRevIntegral "RevIntegral", for intensive field with the conservativity favored over maximum principle. Relevant for power density fields.
+- \ref TableNatureOfFieldExampleRevIntegral "IntensiveConservation", for intensive field with the conservativity favored over maximum principle. Relevant for power density fields.
For extensive fields:
-- \ref TableNatureOfFieldExampleIntegral "Integral", for extensive field with the maximum principle favored over conservativity. Relevant for power fields.
+- \ref TableNatureOfFieldExampleIntegral "ExtensiveMaximum", for extensive field with the maximum principle favored over conservativity. Relevant for power fields.
-- \ref TableNatureOfFieldExampleIntegralGlobConstraint "IntegralGlobConstraint", for extensive fields with conservativity favored over the maximum principle. Relevant for power fields.
+- \ref TableNatureOfFieldExampleIntegralGlobConstraint "ExtensiveConservation", for extensive fields with conservativity favored over the maximum principle. Relevant for power fields.
\n
const char targetFileName[]="target.med";
MEDCouplingUMesh *med_target_mesh=MEDLoader::ReadUMeshFromFile(targetFileName,"Target_Mesh",0);
//
-sourceField->setNature(ConservativeVolumic);
+sourceField->setNature(IntensiveMaximum);
...
\endcode