d                 159 include/grid.h       Scal_FEfun& operator+=(const double d);
d                 160 include/grid.h       Scal_FEfun& operator*=(const double d);
d                 182 include/io_dgf.h 	  for(const auto d : vertex){
d                 183 include/io_dgf.h 	    *o_it = d;
d                  45 src/grid_GridAndTime.cpp   Deformation d;
d                  59 src/grid_GridAndTime.cpp    d {p.grid()}, hg_ptr {p.grid()},
d                  60 src/grid_GridAndTime.cpp    g {loadBalance_and_deref(hg_ptr), d},
d                  63 src/grid_GridAndTime.cpp   d.set_timeProvider(tp);
d                  70 src/grid_GridAndTime.cpp   :d {}, hg_ptr {dgf_file}, g {loadBalance_and_deref(hg_ptr), d},
d                  72 src/grid_GridAndTime.cpp   d.set_timeProvider(tp);
d                 116 src/grid_GridAndTime.cpp   d_ptr->d = rhs;
d                  22 src/grid_evolution.cpp DeformationCoordFunction(const Parameter::PDE_data& d)
d                  36 src/grid_evolution.cpp Grid_evolution::deformation(const Parameter::PDE_data& d){
d                  35 src/grid_fef.cpp Scal_FEfun& Scal_FEfun::operator+=(const double d){
d                  36 src/grid_fef.cpp   for(auto it = fun.dbegin(); it != fun.dend(); ++it) *it += d;
d                  39 src/grid_fef.cpp Scal_FEfun& Scal_FEfun::operator*=(const double d){
d                  40 src/grid_fef.cpp   for(auto it = fun.dbegin(); it != fun.dend(); ++it) *it *= d;
d                  67 src/grid_fef.cpp Vec_FEfun& Vec_FEfun::operator+=(const double d){
d                  68 src/grid_fef.cpp   for(auto it = fun.dbegin(); it != fun.dend(); ++it) *it += d;
d                  71 src/grid_fef.cpp Vec_FEfun& Vec_FEfun::operator*=(const double d){
d                  72 src/grid_fef.cpp   for(auto it = fun.dbegin(); it != fun.dend(); ++it) *it *= d;
d                  40 src/io_errorStream.cpp Esfem::Io::Error_stream::Error_stream(const Parameter& d)
d                  41 src/io_errorStream.cpp   :Error_stream {d.error_log()}
d                  43 src/io_errorStream.cpp Esfem::Io::Error_stream::Error_stream(const std::string& suffix, const Parameter& d)
d                  44 src/io_errorStream.cpp   :Error_stream {d.error_log() + suffix}
d                  79 src/io_l2h1Calculator.cpp   constexpr auto d = Grid::world_dim();
d                  80 src/io_l2h1Calculator.cpp   v.reserve(d);
d                  81 src/io_l2h1Calculator.cpp   for(int it = 0; it < d; ++it){
d                  88 src/io_l2h1Calculator.cpp   constexpr auto d = Grid::world_dim();
d                  89 src/io_l2h1Calculator.cpp   size_t no_nodes = v.size() / d; // assuming the post condition
d                  90 src/io_l2h1Calculator.cpp   Assert::dynamic(v.size() == no_nodes * d, 
d                  92 src/io_l2h1Calculator.cpp   for(int jt = 0; jt < d; ++jt){
d                  96 src/io_l2h1Calculator.cpp     for(size_t it = 0; it < no_nodes; ++it, vfef_ptr += d, ++fef_ptr)
d                 243 src/io_parameter.cpp std::ostream& Esfem::Io::operator<<(std::ostream& os, const Parameter& d){
d                 245 src/io_parameter.cpp   const auto& p = d.d_ptr;
d                  42 src/secOrd_op_identity_impl.h       void evaluate(const Domain& d, Range& r) const { 
d                  43 src/secOrd_op_identity_impl.h 	for(int i = 0; i < Domain::dimension; ++i) r[i] = d[i];
d                  71 src/secOrd_op_initData_impl.cpp static inline void eoc_velocity(const double t, const Vec_domain& d, Vec_range& r){
d                  75 src/secOrd_op_initData_impl.cpp   r[0] = d[0] * factor;
d                  76 src/secOrd_op_initData_impl.cpp   r[1] = d[1] * factor;
d                  77 src/secOrd_op_initData_impl.cpp   r[2] = d[2] * factor;
d                  91 src/secOrd_op_initData_impl.cpp       [&tp = tp](const Domain& d, Range& r){
d                  92 src/secOrd_op_initData_impl.cpp       const double x = d[0];
d                  93 src/secOrd_op_initData_impl.cpp       const double y = d[1];
d                  99 src/secOrd_op_initData_impl.cpp     fun_impl = [&tp = tp](const Domain& d, Range& r){
d                 100 src/secOrd_op_initData_impl.cpp       const double y = d[1];
d                 101 src/secOrd_op_initData_impl.cpp       const double z = d[2];
d                 244 src/secOrd_op_initData_impl.cpp void Analytic_velocity::evaluate(const Domain& d, Range& r) const{
d                 246 src/secOrd_op_initData_impl.cpp   eoc_velocity(t, d, r);
d                 400 src/secOrd_op_initData_impl.h evaluate(const Domain& d, Range& r) const{
d                 401 src/secOrd_op_initData_impl.h   fun_impl(d,r);
d                  84 src/secOrd_op_initData_u.cpp void Initial_data_u::evaluate(const Domain& d, Range& r) const{
d                  87 src/secOrd_op_initData_u.cpp   const double x = d[0];
d                  88 src/secOrd_op_initData_u.cpp   const double y = d[1];
d                  84 src/secOrd_op_initData_w.cpp void Initial_data_w::evaluate(const Domain& d, Range& r) const{
d                  87 src/secOrd_op_initData_w.cpp   const double y = d[1];
d                  88 src/secOrd_op_initData_w.cpp   const double z = d[2];
d                  71 src/secOrd_op_rhs_impl.cpp       (const Domain& d, Range& r){
d                  72 src/secOrd_op_rhs_impl.cpp       const double x = d[0];
d                  73 src/secOrd_op_rhs_impl.cpp       const double y = d[1];
d                  74 src/secOrd_op_rhs_impl.cpp       const double z = d[2];
d                  81 src/secOrd_op_rhs_impl.cpp       (const Domain& d, Range& r){
d                  82 src/secOrd_op_rhs_impl.cpp       const double x = d[0];
d                  83 src/secOrd_op_rhs_impl.cpp       const double y = d[1];
d                  84 src/secOrd_op_rhs_impl.cpp       const double z = d[2];
d                 128 src/secOrd_op_rhs_impl.cpp void Vec_rhs_fun::evaluate(const Domain& d, Range& r) const{
d                 148 src/secOrd_op_rhs_impl.cpp Vec_rhs_fun::Range Vec_rhs_fun::operator()(const Domain& d) const{
d                 150 src/secOrd_op_rhs_impl.cpp   evaluate(d,r);
d                 164 src/secOrd_op_rhs_impl.cpp auto sls_rhs::operator()(const dom& d) const -> ran{
d                 169 src/secOrd_op_rhs_impl.cpp     norm = sqrt(inner_product(&d[0], &d[0]+ dom::dimension, &d[0], 0.)),
d                 172 src/secOrd_op_rhs_impl.cpp     factor = a_til + ((a * a_til + e ) * mc - delta *u_fun(d[0], d[1]) )/ norm;
d                 173 src/secOrd_op_rhs_impl.cpp   ran r = d;
d                 189 src/secOrd_op_rhs_impl.cpp auto sd_rhs::operator()(const dom& d) const -> ran{
d                 191 src/secOrd_op_rhs_impl.cpp   ran r {d};
d                 208 src/secOrd_op_rhs_impl.cpp auto sdp_u_rhs::operator()(const dom& d) const -> ran{
d                 209 src/secOrd_op_rhs_impl.cpp   const auto x = d[0], y = d[1], z = d[2], t = tp.time();
d                 339 src/secOrd_op_rhs_impl.h inline void Esfem::Impl::Rhs_fun::evaluate(const Domain& d, Range& r) const{
d                 340 src/secOrd_op_rhs_impl.h   fun_impl(d,r);
d                 343 src/secOrd_op_rhs_impl.h Esfem::Impl::Rhs_fun::operator()(const Domain& d) const{
d                 345 src/secOrd_op_rhs_impl.h   evaluate(d,r);
d                 111 src/secOrd_op_rhs_u.cpp void RHS_data_u::evaluate(const Domain& d, Range& r) const{
d                 114 src/secOrd_op_rhs_u.cpp   const double x = d[0];
d                 115 src/secOrd_op_rhs_u.cpp   const double y = d[1];
d                 116 src/secOrd_op_rhs_u.cpp   const double z = d[2];
d                 131 src/secOrd_op_rhs_u.cpp RHS_data_u::Range RHS_data_u::operator()(const Domain& d) const{
d                 133 src/secOrd_op_rhs_u.cpp   evaluate(d,r);
d                  51 src/secOrd_op_rhs_w.cpp   const double d;
d                 108 src/secOrd_op_rhs_w.cpp   : tp {tpb}, d {p.tg_Dc()}, b {p.tg_b()}, gamma {p.tg_gamma()}
d                 124 src/secOrd_op_rhs_w.cpp RHS_data_w::Range RHS_data_w::operator()(const Domain& d) const{
d                 126 src/secOrd_op_rhs_w.cpp   evaluate(d,r);