Le mardi 10 juillet 2007 10:32, vous avez écrit : > Dear Yves, > > Thank you very much. There is no memory leakage any more. > By the way, may be you want to know. I noticed that you can't compile some > of the /contrib files anymore with the latest getfem from SVN. For > instance, in xfem_contact you have the line > > 278: pfp1 = fem_precomp(pf1, &pai1->integration_points()); > > while fem_precomp has 3 arguments, so it gives an error. So, I editted it > like this > > pfp1 = fem_precomp(pf1, > &pai1->integration_points(),mim.int_method_of_element(cv1)); > > and it worked. > > After I continued running "make check", there were other compilation > errors, but I didn't go through them anymore.
Ok, I made the corrections. Thank you. > > Another question if I may. In getfem_interpolated_fem.cc it says that > extension of interpolated_fem to vectorial problems is straightforward and > there is a short explanation. Would you be so kind to give a bit more > elaborate explanation on what should there be done in order to do this. Do > you think that somebody from outside of Getfem development crew can do it? In fact, if you just want to use your interpolated fem on a vectorial problem, it should work as usual (I think, but I never tried) whenever your original fem is scalar. To make the things working for original vectorial elements, real_base_value and grad_base_values functions have to be adapted. But you have to take into account the fact that the original element can be a direct product of scalar element or an intrinsic vectorial element (like Raviart Thomas elements for instance). This is not completely obvious, in fact. Can you describe a little bit what you expect to do with a vectorial interpolated fem ? May be there is a better solution than using this fonctionality. Yves. ------------------------------------------------------------------------- Yves Renard ([EMAIL PROTECTED]) tel : (33) 04.72.43.80.11 Pole de Mathematiques, fax : (33) 04.72.43.85.29 Institut Camille Jordan - CNRS UMR 5208 INSA de Lyon, Universite de Lyon 20, rue Albert Einstein 69621 Villeurbanne Cedex, FRANCE http://math.univ-lyon1.fr/~renard ------------------------------------------------------------------------- _______________________________________________ Getfem-users mailing list [email protected] https://mail.gna.org/listinfo/getfem-users
