app               130 old_code/2015linfty/dune_heat_algorithm.hpp       std::ios_base::app};
app               129 old_code/tumor_growth/tumor_code.h       std::ios_base::app};
app               106 src/brusselator_algo.cpp     fef.u.app = fef.u.fun;    
app               108 src/brusselator_algo.cpp     fef.w.app = fef.w.fun;
app               127 src/brusselator_algo.cpp     SecOrd_op::Solution_driven X_solver {data, grid, u.app};
app               130 src/brusselator_algo.cpp     u_init.interpolate(u.app);
app               131 src/brusselator_algo.cpp     X.app = fef.surface.fun;
app               132 src/brusselator_algo.cpp     X_solver.brusselator_rhs(X.app, X.rhs_les); 
app               172 src/brusselator_algo.cpp   SecOrd_op::Solution_driven X_solver {data, fix_grid, fef.u.app};
app               197 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
app               199 src/brusselator_algo.cpp   u_ptr->interpolate(fef.u.app);
app               211 src/brusselator_algo.cpp     u_ptr->interpolate(fef.u.app);
app               224 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
app               251 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
app               253 src/brusselator_algo.cpp   u_ex->interpolate(fef.u.app);
app               255 src/brusselator_algo.cpp   fef.u.fun = fef.u.app;
app               262 src/brusselator_algo.cpp     fef.velocity.app = fef.surface.fun; // new surface for velocity 
app               264 src/brusselator_algo.cpp     calculate_velocity(fef.velocity.app.cbegin(), fef.velocity.app.cend(),
app               275 src/brusselator_algo.cpp     fef.u.app = fef.u.fun;
app               317 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
app               330 src/brusselator_algo.cpp     fef.u.app = fef.u.fun;
app               332 src/brusselator_algo.cpp     fef.w.app = fef.w.fun;
app               363 src/brusselator_algo.cpp   fef.surface.app = fef.surface.fun; 
app               381 src/brusselator_algo.cpp 	     << norm.l2_err(fef.surface.exact, fef.surface.app)
app               383 src/brusselator_algo.cpp 	     << norm.h1_err(fef.surface.exact, fef.surface.app)
app                54 src/brusselator_algo_impl.cpp   :u {p, g, Growth::promoting, u_set.app, w_set.app},
app                55 src/brusselator_algo_impl.cpp    w {p, g, Growth::inhibiting, u_set.app, u_set.app}
app               131 src/brusselator_algo_impl.cpp   u.app = u.fun;    
app               133 src/brusselator_algo_impl.cpp   w.app = w.fun;    
app               203 src/brusselator_algo_impl.cpp   u.app = u.fun;    
app               205 src/brusselator_algo_impl.cpp   w.app = w.fun;
app               226 src/brusselator_algo_impl.cpp   f.app = f.fun;
app                49 src/grid_FEfunSet.h       FEfun app; /*!< \brief BDF approximation to the numerical solution */
app               117 src/grid_FEfunSet.h       : fun {name, gt}, app {name + "_app", gt},
app               123 src/grid_FEfunSet.h       : fun {other.fun, gt}, app {other.app, gt}, 
app               132 src/grid_FEfunSet.h       h.write(compose_dgfName(app.name(), dir), app);
app               140 src/grid_FEfunSet.h       h.read(compose_dgfName(app.name(), dir), app);
app                33 src/io_errorStream.cpp   :ofs {fname, std::ios_base::app}
app                78 src/io_parameter_impl.cpp     ofstream fs {file_name, ios_base::app};