double KellyTypeAdapt::eval_solution_norm(Adapt::MatrixFormVolError* form, RefMap *rm, MeshFunction* sln) { // determine the integration order int inc = (sln->get_num_components() == 2) ? 1 : 0; Func<Ord>* ou = init_fn_ord(sln->get_fn_order() + inc); double fake_wt = 1.0; Geom<Ord>* fake_e = init_geom_ord(); Ord o = form->ord(1, &fake_wt, NULL, ou, ou, fake_e, NULL); int order = rm->get_inv_ref_order(); order += o.get_order(); Solution *sol = static_cast<Solution *>(sln); if(sol && sol->get_type() == HERMES_EXACT) { limit_order_nowarn(order); } else { limit_order(order); } ou->free_ord(); delete ou; delete fake_e; // eval the form Quad2D* quad = sln->get_quad_2d(); double3* pt = quad->get_points(order); int np = quad->get_num_points(order); // init geometry and jacobian*weights Geom<double>* e = init_geom_vol(rm, order); double* jac = rm->get_jacobian(order); double* jwt = new double[np]; for(int i = 0; i < np; i++) jwt[i] = pt[i][2] * jac[i]; // function values Func<scalar>* u = init_fn(sln, order); scalar res = form->value(np, jwt, NULL, u, u, e, NULL); e->free(); delete e; delete [] jwt; u->free_fn(); delete u; return std::abs(res); }