128 nn(map_i, *(map_i.get_mg()), fich) ,
129 beta(map_i, map_i.get_bvect_spher(), fich) ,
131 ener_euler(map_i, *(map_i.get_mg()), fich) ,
132 mom_euler(map_i, map_i.get_bvect_spher(), fich) ,
133 stress_euler(map_i, map_i.get_bvect_spher(), fich) ,
134 kk(map_i, COV, map_i.get_bvect_spher())
241 ost << endl <<
"Compact object (class Compobj) " << endl ;
242 ost <<
"Mapping : " <<
mp << endl ;
243 ost <<
"Central values of various fields : " << endl ;
244 ost <<
"-------------------------------- " << endl ;
246 ost <<
" metric components gamma_{ij} : " << endl
247 <<
" ( " <<
gamma.
cov()(1,1).val_grid_point(0,0,0,0) <<
" "
248 <<
gamma.
cov()(1,2).val_grid_point(0,0,0,0) <<
" "
249 <<
gamma.
cov()(1,3).val_grid_point(0,0,0,0) <<
" )" << endl
250 <<
" ( " <<
gamma.
cov()(2,1).val_grid_point(0,0,0,0) <<
" "
251 <<
gamma.
cov()(2,2).val_grid_point(0,0,0,0) <<
" "
252 <<
gamma.
cov()(2,3).val_grid_point(0,0,0,0) <<
" )" << endl
253 <<
" ( " <<
gamma.
cov()(3,1).val_grid_point(0,0,0,0) <<
" "
254 <<
gamma.
cov()(3,2).val_grid_point(0,0,0,0) <<
" "
255 <<
gamma.
cov()(3,3).val_grid_point(0,0,0,0) <<
" )" << endl ;
256 ost <<
" components of the extrinsic curvature K_{ij} : " << endl
257 <<
" ( " <<
kk(1,1).val_grid_point(0,0,0,0) <<
" "
258 <<
kk(1,2).val_grid_point(0,0,0,0) <<
" "
259 <<
kk(1,3).val_grid_point(0,0,0,0) <<
" )" << endl
260 <<
" ( " <<
kk(2,1).val_grid_point(0,0,0,0) <<
" "
261 <<
kk(2,2).val_grid_point(0,0,0,0) <<
" "
262 <<
kk(2,3).val_grid_point(0,0,0,0) <<
" )" << endl
263 <<
" ( " <<
kk(3,1).val_grid_point(0,0,0,0) <<
" "
264 <<
kk(3,2).val_grid_point(0,0,0,0) <<
" "
265 <<
kk(3,3).val_grid_point(0,0,0,0) <<
" )" << endl ;
267 ost <<
" components of the stress tensor S_{ij} / Eulerian observer : " << endl
268 <<
" ( " <<
stress_euler(1,1).val_grid_point(0,0,0,0) <<
" "
270 <<
stress_euler(1,3).val_grid_point(0,0,0,0) <<
" )" << endl
271 <<
" ( " <<
stress_euler(2,1).val_grid_point(0,0,0,0) <<
" "
273 <<
stress_euler(2,3).val_grid_point(0,0,0,0) <<
" )" << endl
274 <<
" ( " <<
stress_euler(3,1).val_grid_point(0,0,0,0) <<
" "
276 <<
stress_euler(3,3).val_grid_point(0,0,0,0) <<
" )" << endl ;