eps                60 include/io_parameter.h       double eps() const noexcept;
eps               256 src/brusselator_algo.cpp   const long end_steps = pattern_timeSteps() + (data.last_step() > data.eps() ? 1 : 0 );
eps               415 src/brusselator_algo.cpp   const auto it_end = pattern_timeSteps() + (data.last_step() >data.eps() ? 1 : 0 );
eps                40 src/io_parameter.cpp   const double eps;
eps                71 src/io_parameter.cpp   eps {Dune::Fem::Parameter::getValue<double>("heat.solvereps", 1e-8)},
eps                98 src/io_parameter.cpp     (eps > 0, Assert::compose(__FILE__, __LINE__, "Non positive tolerance."));
eps               100 src/io_parameter.cpp     ( dT > eps, Assert::compose(__FILE__, __LINE__, "Time step too small."));
eps               195 src/io_parameter.cpp   return d_ptr -> eps;
eps               253 src/io_parameter.cpp      << "eps: " << p->eps << '\n'
eps               148 src/secOrd_op_brusselator.cpp    bruss_cg {bruss_op, p.eps(), p.eps()},
eps               149 src/secOrd_op_brusselator.cpp    bruss_gmres {bruss_matrix, p.eps(), p.eps()}
eps               159 src/secOrd_op_brusselator.cpp    bruss_cg {bruss_op, p.eps(), p.eps()},
eps               160 src/secOrd_op_brusselator.cpp    bruss_gmres {bruss_matrix, p.eps(), p.eps()}
eps                81 src/secOrd_op_linearHeat.cpp     : heat_op {p, gt}, heat_solver {heat_op, p.eps(), p.eps()}
eps                59 src/secOrd_op_solutionDriven.cpp    cg_solver {mcf_op, p.eps(), p.eps()}
eps                64 src/secOrd_op_solutionDriven_impl.cpp    eps {p.eps()},
eps               164 src/secOrd_op_solutionDriven_impl.cpp     (norm > eps,
eps               154 src/secOrd_op_solutionDriven_impl.h       const double eps; /*!< \brief Generic tolerance */