norm

norm               37 old_code/2015linfty/dune_bdf.hxx 		return v.norm();
norm               76 src/brusselator_algo.cpp   norm {fix_grid},  
norm              146 src/brusselator_algo.cpp 	       << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' '
norm              147 src/brusselator_algo.cpp 	       << norm.h1_err(fef.surface.fun, fef.surface.exact) 
norm              184 src/brusselator_algo.cpp 	       << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' '
norm              185 src/brusselator_algo.cpp 	       << norm.h1_err(fef.surface.fun, fef.surface.exact) 
norm              213 src/brusselator_algo.cpp 	       << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' '
norm              214 src/brusselator_algo.cpp 	       << norm.h1_err(fef.surface.fun, fef.surface.exact) 
norm              235 src/brusselator_algo.cpp 	       << norm.l2_err(fef.surface.fun, fef.surface.exact) << ' '
norm              236 src/brusselator_algo.cpp 	       << norm.h1_err(fef.surface.fun, fef.surface.exact) 
norm              374 src/brusselator_algo.cpp        << norm.l2_err(fef.u.exact, fef.u.fun) << '\t'
norm              375 src/brusselator_algo.cpp        << norm.h1_err(fef.u.exact, fef.u.fun) << std::endl;
norm              377 src/brusselator_algo.cpp        << norm.l2_err(fef.w.exact, fef.w.fun) << '\t'
norm              378 src/brusselator_algo.cpp        << norm.h1_err(fef.w.exact, fef.w.fun) << std::endl;
norm              381 src/brusselator_algo.cpp 	     << norm.l2_err(fef.surface.exact, fef.surface.app)
norm              383 src/brusselator_algo.cpp 	     << norm.h1_err(fef.surface.exact, fef.surface.app)
norm              387 src/brusselator_algo.cpp 	      << norm.l2_err(fef.velocity.fun, fef.velocity.exact)
norm              389 src/brusselator_algo.cpp 	      << norm.h1_err(fef.velocity.fun, fef.velocity.exact)
norm              395 src/brusselator_algo.h     Esfem::Io::L2H1_calculator norm;
norm              425 src/brusselator_algo.h 	 << norm.l2_err(fem.fun, fem.exact) << ' '
norm              426 src/brusselator_algo.h 	 << norm.h1_err(fem.fun, fem.exact) << std::endl;
norm              189 src/brusselator_algo_impl.cpp   norm {grid},
norm              247 src/brusselator_algo_impl.h     Io::L2H1_calculator norm; 
norm              177 src/secOrd_op_initData_impl.cpp   auto norm = 0.;
norm              178 src/secOrd_op_initData_impl.cpp   for(int i = 0; i < Domain::dimension; ++i) norm += x[i]*x[i];
norm              179 src/secOrd_op_initData_impl.cpp   norm = sqrt(norm);
norm              182 src/secOrd_op_initData_impl.cpp   y *= rt / norm;
norm              200 src/secOrd_op_initData_impl.cpp     norm = sqrt(inner_product(&x[0], &x[0]+Domain::dimension, &x[0], 0.)),
norm              204 src/secOrd_op_initData_impl.cpp   y *= lgf / norm;
norm              232 src/secOrd_op_initData_impl.cpp     norm = sqrt(inner_product(&x[0], &x[0]+Domain::dimension, &x[0], 0.)),
norm              233 src/secOrd_op_initData_impl.cpp     fac = exp(tp.time()) / norm;
norm              169 src/secOrd_op_rhs_impl.cpp     norm = sqrt(inner_product(&d[0], &d[0]+ dom::dimension, &d[0], 0.)),
norm              170 src/secOrd_op_rhs_impl.cpp     a_til = k * (1 - norm/rE),
norm              171 src/secOrd_op_rhs_impl.cpp     mc = dim / norm,
norm              172 src/secOrd_op_rhs_impl.cpp     factor = a_til + ((a * a_til + e ) * mc - delta *u_fun(d[0], d[1]) )/ norm;
norm              162 src/secOrd_op_solutionDriven_impl.cpp   const auto norm = euclidean_norm(normal);
norm              164 src/secOrd_op_solutionDriven_impl.cpp     (norm > eps,
norm              166 src/secOrd_op_solutionDriven_impl.cpp   normal /= norm;