exact 78 src/brusselator_algo.cpp exact {fix_grid, data} // constructor for random initial data exact 110 src/brusselator_algo.cpp exact.u.interpolate(fef.u.exact); exact 111 src/brusselator_algo.cpp exact.w.interpolate(fef.w.exact); exact 144 src/brusselator_algo.cpp io.identity.interpolate(fef.surface.exact); exact 146 src/brusselator_algo.cpp << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' ' exact 147 src/brusselator_algo.cpp << norm.h1_err(fef.surface.fun, fef.surface.exact) exact 174 src/brusselator_algo.cpp fef.surface.exact = fef.surface.fun; exact 181 src/brusselator_algo.cpp fix_grid.new_nodes(fef.surface.exact); exact 182 src/brusselator_algo.cpp exact.X_ptr->interpolate(fef.surface.exact); exact 184 src/brusselator_algo.cpp << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' ' exact 185 src/brusselator_algo.cpp << norm.h1_err(fef.surface.fun, fef.surface.exact) exact 200 src/brusselator_algo.cpp fef.surface.exact = fef.surface.fun; exact 209 src/brusselator_algo.cpp fix_grid.new_nodes(fef.surface.exact); exact 210 src/brusselator_algo.cpp ex_ptr->interpolate(fef.surface.exact); exact 213 src/brusselator_algo.cpp << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' ' exact 214 src/brusselator_algo.cpp << norm.h1_err(fef.surface.fun, fef.surface.exact) exact 226 src/brusselator_algo.cpp fef.surface.exact = fef.surface.fun; exact 232 src/brusselator_algo.cpp fix_grid.new_nodes(fef.surface.exact); exact 233 src/brusselator_algo.cpp ex_ptr->interpolate(fef.surface.exact); exact 235 src/brusselator_algo.cpp << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' ' exact 236 src/brusselator_algo.cpp << norm.h1_err(fef.surface.fun, fef.surface.exact) exact 254 src/brusselator_algo.cpp fef.surface.exact = fef.surface.fun; exact 277 src/brusselator_algo.cpp X_ex->interpolate(fef.surface.exact); exact 278 src/brusselator_algo.cpp fix_grid.new_nodes(fef.surface.exact); exact 279 src/brusselator_algo.cpp u_ex->interpolate(fef.u.exact); exact 280 src/brusselator_algo.cpp V_ex->interpolate(fef.velocity.exact); exact 360 src/brusselator_algo.cpp io.identity.interpolate(fef.surface.exact); exact 366 src/brusselator_algo.cpp exact.u.interpolate(fef.u.exact); exact 367 src/brusselator_algo.cpp exact.w.interpolate(fef.w.exact); exact 374 src/brusselator_algo.cpp << norm.l2_err(fef.u.exact, fef.u.fun) << '\t' exact 375 src/brusselator_algo.cpp << norm.h1_err(fef.u.exact, fef.u.fun) << std::endl; exact 377 src/brusselator_algo.cpp << norm.l2_err(fef.w.exact, fef.w.fun) << '\t' exact 378 src/brusselator_algo.cpp << norm.h1_err(fef.w.exact, fef.w.fun) << std::endl; exact 381 src/brusselator_algo.cpp << norm.l2_err(fef.surface.exact, fef.surface.app) exact 383 src/brusselator_algo.cpp << norm.h1_err(fef.surface.exact, fef.surface.app) exact 387 src/brusselator_algo.cpp << norm.l2_err(fef.velocity.fun, fef.velocity.exact) exact 389 src/brusselator_algo.cpp << norm.h1_err(fef.velocity.fun, fef.velocity.exact) exact 397 src/brusselator_algo.cpp exact.X_ptr->interpolate(fef.surface.fun); exact 399 src/brusselator_algo.h Init_data exact; exact 425 src/brusselator_algo.h << norm.l2_err(fem.fun, fem.exact) << ' ' exact 426 src/brusselator_algo.h << norm.h1_err(fem.fun, fem.exact) << std::endl; exact 79 src/brusselator_algo_impl.cpp init_data {bs.exact}, exact 85 src/brusselator_algo_impl.cpp interpolate(bs.exact.u, bs.fef.u); exact 86 src/brusselator_algo_impl.cpp interpolate(bs.exact.w, bs.fef.w); exact 212 src/brusselator_algo_impl.cpp bs.exact.u.interpolate(u.exact); exact 213 src/brusselator_algo_impl.cpp bs.exact.w.interpolate(w.exact); exact 227 src/brusselator_algo_impl.cpp f.exact = f.fun; exact 50 src/grid_FEfunSet.h FEfun exact; /*!< \brief Reference solution */ exact 118 src/grid_FEfunSet.h exact {name + "_exact", gt}, rhs_les {name + "_rhs_les", gt} exact 124 src/grid_FEfunSet.h exact {other.exact, gt}, rhs_les {other.rhs_les, gt} exact 133 src/grid_FEfunSet.h h.write(compose_dgfName(exact.name(), dir), exact); exact 141 src/grid_FEfunSet.h h.read(compose_dgfName(exact.name(), dir), exact);