cf 49 src/secOrd_op_brusselator_impl.cpp const Local_function& cf){ cf 51 src/secOrd_op_brusselator_impl.cpp cf.evaluate(q[pt], u); cf 55 src/secOrd_op_brusselator_impl.cpp const Local_function& cf){ cf 57 src/secOrd_op_brusselator_impl.cpp cf.jacobian(q[pt], nabla_u); cf 61 src/secOrd_op_linearHeat.cpp const FE_function::LocalFunctionType& cf){ cf 63 src/secOrd_op_linearHeat.cpp cf.evaluate(q[pt], u); cf 68 src/secOrd_op_linearHeat.cpp const FE_function::LocalFunctionType& cf){ cf 70 src/secOrd_op_linearHeat.cpp cf.jacobian(q[pt], nabla_u); cf 167 src/secOrd_op_linearHeat.cpp const FE_function::LocalFunctionType& cf, cf 174 src/secOrd_op_linearHeat.cpp auto Mu = mass_matrix(pt, q, cf); cf 175 src/secOrd_op_linearHeat.cpp auto Au = stiffness_matrix(pt, q, cf); cf 187 src/secOrd_op_linearHeat.cpp const FE_function::LocalFunctionType& cf, cf 194 src/secOrd_op_linearHeat.cpp auto Mu = mass_matrix(pt, q, cf); cf 115 src/secOrd_op_solutionDriven_impl.cpp const Local_function<Vector_fef>& cf, cf 122 src/secOrd_op_solutionDriven_impl.cpp auto X_p = evaluate(pt, q, cf); cf 125 src/secOrd_op_solutionDriven_impl.cpp auto dX_p = jacobian(pt, q, cf); cf 133 src/secOrd_op_solutionDriven_impl.cpp const Local_function<Vector_fef>& cf, cf 146 src/secOrd_op_solutionDriven_impl.cpp auto X_p = evaluate(pt, q, cf); cf 150 src/secOrd_op_solutionDriven_impl.cpp auto dX_p = jacobian(pt, q, cf); cf 202 src/secOrd_op_solutionDriven_impl.h const MCF_op::Local_function<MCF_op::Vector_fef>& cf){ cf 204 src/secOrd_op_solutionDriven_impl.h cf.evaluate(q[pt], X); cf 211 src/secOrd_op_solutionDriven_impl.h const MCF_op::Local_function<MCF_op::Scalar_fef>& cf){ cf 213 src/secOrd_op_solutionDriven_impl.h cf.evaluate(q[pt], u); cf 220 src/secOrd_op_solutionDriven_impl.h const MCF_op::Local_function<MCF_op::Vector_fef>& cf){ cf 222 src/secOrd_op_solutionDriven_impl.h cf.jacobian(q[pt], nabla_X);