X                 124 src/brusselator_algo.cpp     Grid::Vec_FEfun_set X {fef.surface, grid};
X                 131 src/brusselator_algo.cpp     X.app = fef.surface.fun;
X                 132 src/brusselator_algo.cpp     X_solver.brusselator_rhs(X.app, X.rhs_les); 
X                 135 src/brusselator_algo.cpp     X_solver.solve(X.rhs_les, X.fun);
X                 140 src/brusselator_algo.cpp     fef.surface.fun = X.fun; // swap would be more efficient
X                 151 src/brusselator_algo_impl.cpp   X {fef.surface, grid},
X                 166 src/brusselator_algo_impl.cpp   vs.brusselator_rhs(X.fun, X.rhs_les);	
X                 169 src/brusselator_algo_impl.cpp   v_rhs.assemble_and_addScaled_to(X.rhs_les);
X                 172 src/brusselator_algo_impl.cpp   vs.solve(X.rhs_les, X.fun);
X                 173 src/brusselator_algo_impl.cpp   fef.surface.fun = X.fun;
X                 212 src/brusselator_algo_impl.h     Grid::Vec_tiny_FEfun_set X;
X                 203 src/secOrd_op_solutionDriven_impl.h       MCF_op::Range<MCF_op::Vector_fef> X;
X                 204 src/secOrd_op_solutionDriven_impl.h       cf.evaluate(q[pt], X);
X                 205 src/secOrd_op_solutionDriven_impl.h       return X;