Rheolef  7.2
an efficient C++ finite element environment
 
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geo_rep< T, distributed >

Detailed Description

template<class T>
class rheolef::geo_rep< T, distributed >

distributed mesh representation

Definition at line 929 of file geo.h.

+ Inheritance diagram for geo_rep< T, distributed >:

Public Types

typedef geo_base_rep< T, distributedbase
 
typedef base::size_type size_type
 
typedef base::node_type node_type
 
typedef base::variant_type variant_type
 
typedef base::node_map_type node_map_type
 
typedef base::reference reference
 
typedef base::const_reference const_reference
 
typedef base::iterator iterator
 
typedef base::const_iterator const_iterator
 
typedef base::iterator_by_variant iterator_by_variant
 
typedef base::const_iterator_by_variant const_iterator_by_variant
 
typedef base::coordinate_type coordinate_type
 
typedef base::geo_element_map_type geo_element_map_type
 
- Public Types inherited from geo_base_rep< T, distributed >
typedef geo_abstract_rep< T, distributedbase
 
typedef base::size_type size_type
 
typedef base::node_type node_type
 
typedef base::variant_type variant_type
 
typedef base::iterator iterator
 
typedef base::const_iterator const_iterator
 
typedef base::iterator_by_variant iterator_by_variant
 
typedef base::const_iterator_by_variant const_iterator_by_variant
 
typedef base::reference reference
 
typedef base::const_reference const_reference
 
typedef base::coordinate_type coordinate_type
 
typedef std::unordered_map< std::string, void * > loaded_map_t
 

Public Member Functions

 geo_rep ()
 
 geo_rep (const geo_rep< T, distributed > &)
 
geo_abstract_rep< T, distributed > * clone () const
 
void build_from_domain (const domain_indirect_rep< distributed > &indirect, const geo_abstract_rep< T, distributed > &omega, std::map< size_type, size_type > &bgd_ie2dom_ie, std::map< size_type, size_type > &dis_bgd_ie2dis_dom_ie)
 
 geo_rep (const geo_basic< T, distributed > &lambda, const disarray< point_basic< T >, distributed > &node_list, const std::array< disarray< geo_element_auto< heap_allocator< size_type > >, distributed >, reference_element::max_variant > &elt_list)
 
distributor geo_element_ios_ownership (size_type dim) const
 
size_type ige2ios_dis_ige (size_type dim, size_type ige) const
 
size_type dis_ige2ios_dis_ige (size_type dim, size_type dis_ige) const
 
size_type ios_ige2dis_ige (size_type dim, size_type ios_ige) const
 
const geo_sizeios_sizes () const
 
void locate (const disarray< point_basic< T >, distributed > &x, disarray< size_type, distributed > &dis_ie, bool do_check=false) const
 
void trace_ray_boundary (const disarray< point_basic< T >, distributed > &x, const disarray< point_basic< T >, distributed > &v, disarray< size_type, distributed > &dis_ie, disarray< point_basic< T >, distributed > &y, bool do_check=false) const
 
void trace_move (const disarray< point_basic< T >, distributed > &x, const disarray< point_basic< T >, distributed > &v, disarray< size_type, distributed > &dis_ie, disarray< point_basic< T >, distributed > &y) const
 
void nearest (const disarray< point_basic< T >, distributed > &x, disarray< point_basic< T >, distributed > &x_nearest, disarray< size_type, distributed > &dis_ie) const
 
size_type map_dimension () const
 
bool is_broken () const
 
size_type size (size_type dim) const
 
const distributorgeo_element_ownership (size_type dim) const
 
const_reference get_geo_element (size_type dim, size_type ige) const
 
reference get_geo_element (size_type dim, size_type ige)
 
const_iterator begin (size_type dim) const
 
const_iterator end (size_type dim) const
 
iterator begin (size_type dim)
 
iterator end (size_type dim)
 
const geo_element_map_typeget_external_geo_element_map (size_type variant) const
 
const domain_indirect_basic< distributed > & get_domain_indirect (size_type idom) const
 
const domain_indirect_basic< distributed > & get_domain_indirect (const std::string &name) const
 
size_type size () const
 
const distributorvertex_ownership () const
 
const_reference operator[] (size_type ie) const
 
void reset_order (size_type order)
 
void build_by_subdividing (const geo_basic< T, distributed > &omega, size_type k)
 
idiststreamget (idiststream &)
 
odiststreamput (odiststream &) const
 
void dump (std::string name) const
 
void load (std::string name, const communicator &comm)
 
bool check (bool verbose) const
 
void set_ios_permutation (disarray< size_type, distributed > &idof2ios_dis_idof) const
 
const std::array< disarray< size_type, distributed >, reference_element::max_variant > & get_igev2ios_dis_igev () const
 
- Public Member Functions inherited from geo_base_rep< T, distributed >
 geo_base_rep ()
 
 geo_base_rep (const geo_base_rep< T, distributed > &)
 
void build_from_list (const geo_basic< T, distributed > &lambda, const disarray< point_basic< T >, distributed > &node_list, const std::array< disarray< geo_element_auto< heap_allocator< size_type > >, distributed >, reference_element::max_variant > &elt_list)
 
 ~geo_base_rep ()
 
size_type variant () const
 
std::string familyname () const
 
std::string name () const
 
size_type serial_number () const
 
size_type dimension () const
 
size_type map_dimension () const
 
bool is_broken () const
 
coordinate_type coordinate_system () const
 
void set_coordinate_system (coordinate_type sys_coord)
 
void set_name (std::string name)
 
void set_dimension (size_type dim)
 
void set_serial_number (size_type i)
 
const basis_basic< T > & get_piola_basis () const
 
const node_typexmin () const
 
const node_typexmax () const
 
const Thmin () const
 
const Thmax () const
 
const geo_sizesizes () const
 
const geo_sizeios_sizes () const
 
const distributorgeo_element_ownership (size_type dim) const
 
const_reference get_geo_element (size_type dim, size_type ige) const
 
reference get_geo_element (size_type dim, size_type ige)
 
const_reference dis_get_geo_element (size_type dim, size_type dis_ige) const
 
const_iterator_by_variant begin_by_variant (variant_type variant) const
 
iterator_by_variant begin_by_variant (variant_type variant)
 
const_iterator_by_variant end_by_variant (variant_type variant) const
 
iterator_by_variant end_by_variant (variant_type variant)
 
const node_typenode (size_type inod) const
 
const node_typenode (const geo_element &K, size_type loc_inod) const
 
const node_typedis_node (size_type dis_inod) const
 
void dis_inod (const geo_element &K, std::vector< size_type > &dis_inod) const
 
const disarray< node_type, distributed > & get_nodes () const
 
void set_nodes (const disarray< node_type, distributed > &x)
 
size_type n_domain_indirect () const
 
bool have_domain_indirect (const std::string &name) const
 
const domain_indirect_basic< distributed > & get_domain_indirect (size_type i) const
 
const domain_indirect_basic< distributed > & get_domain_indirect (const std::string &name) const
 
void insert_domain_indirect (const domain_indirect_basic< distributed > &dom) const
 
size_type seq_locate (const point_basic< T > &x, size_type dis_ie_guest=std::numeric_limits< size_type >::max()) const
 
size_type dis_locate (const point_basic< T > &x, size_type dis_ie_guest=std::numeric_limits< size_type >::max()) const
 
size_type seq_trace_move (const point_basic< T > &x, const point_basic< T > &v, point_basic< T > &y) const
 
size_type dis_trace_move (const point_basic< T > &x, const point_basic< T > &v, point_basic< T > &y) const
 
size_type seq_nearest (const point_basic< T > &x, point_basic< T > &x_nearest) const
 
size_type dis_nearest (const point_basic< T > &x, point_basic< T > &x_nearest) const
 
size_type neighbour (size_type ie, size_type loc_isid) const
 
void neighbour_guard () const
 
iterator begin (size_type dim)
 iterator by dimension: wraps iterator by geo_element variant
 
const_iterator begin (size_type dim) const
 
const_iterator begin () const
 
iterator end (size_type dim)
 
const_iterator end (size_type dim) const
 
const_iterator end () const
 
size_type size (size_type dim) const
 
size_type size () const
 
size_type dis_size (size_type dim) const
 
size_type dis_size () const
 
const distributorownership () const
 
const distributorvertex_ownership () const
 
const communicatorcomm () const
 
size_type order () const
 
size_type n_node () const
 
size_type dis_n_node () const
 
size_type n_vertex () const
 
size_type dis_n_vertex () const
 
size_type dis_n_edge () const
 
size_type dis_n_face () const
 
size_type dis_inod2dis_iv (size_type dis_inod) const
 
size_type dis_iv2dis_inod (size_type dis_iv) const
 
const_reference operator[] (size_type ie) const
 
reference operator[] (size_type ie)
 
const_iterator begin_edge () const
 
const_iterator end_edge () const
 
const_iterator begin_face () const
 
const_iterator end_face () const
 

Protected Member Functions

void build_external_entities ()
 
void set_element_side_index (size_type side_dim)
 
void domain_set_side_part1 (const domain_indirect_rep< distributed > &indirect, const geo_abstract_rep< T, distributed > &bgd_omega, size_type sid_dim, disarray< size_type > &bgd_isid2dom_dis_isid, disarray< size_type > &dom_isid2bgd_isid, disarray< size_type > &dom_isid2dom_ios_dis_isid, size_type size_by_variant[reference_element::max_variant])
 
void domain_set_side_part2 (const domain_indirect_rep< distributed > &indirect, const geo_abstract_rep< T, distributed > &bgd_omega, disarray< size_type > &bgd_iv2dom_dis_iv, size_type sid_dim, disarray< size_type > &bgd_isid2dom_dis_isid, disarray< size_type > &dom_isid2bgd_isid, disarray< size_type > &dom_isid2dom_ios_dis_isid, size_type size_by_variant[reference_element::max_variant])
 
void node_renumbering (const distributor &ios_node_ownership)
 
- Protected Member Functions inherited from geo_base_rep< T, distributed >
void compute_bbox ()
 
void init_neighbour () const
 

Protected Attributes

disarray< size_type_inod2ios_dis_inod
 
disarray< size_type_ios_inod2dis_inod
 
std::array< disarray< size_type >, 4 > _ios_ige2dis_ige
 
geo_size _ios_gs
 
std::array< disarray< size_type, distributed >, reference_element::max_variant_igev2ios_dis_igev
 
std::array< disarray< size_type, distributed >, reference_element::max_variant_ios_igev2dis_igev
 
- Protected Attributes inherited from geo_base_rep< T, distributed >
std::string _name
 
size_type _version
 
size_type _serial_number
 
std::array< hack_array< geo_element_hack, distributed >, reference_element::max_variant > _geo_element
 
geo_size _gs
 
std::vector< domain_indirect_basic< distributed > > _domains
 
bool _have_connectivity
 
bool _have_neighbour
 
disarray< node_type, distributed_node
 
size_type _dimension
 
coordinate_type _sys_coord
 
node_type _xmin
 
node_type _xmax
 
T _hmin
 
T _hmax
 
basis_basic< T_piola_basis
 
geo_locate< T, distributed_locator
 
geo_trace_ray_boundary< T, distributed_tracer_ray_boundary
 
geo_nearest< T, distributed_nearestor
 

Additional Inherited Members

- Static Public Member Functions inherited from geo_base_rep< T, distributed >
static loaded_map_tloaded_map ()
 
- Static Protected Attributes inherited from geo_base_rep< T, distributed >
static loaded_map_t _loaded_map
 

Member Typedef Documentation

◆ base

template<class T >
typedef geo_base_rep<T,distributed> base

Definition at line 933 of file geo.h.

◆ size_type

template<class T >
typedef base::size_type size_type

Definition at line 934 of file geo.h.

◆ node_type

template<class T >
typedef base::node_type node_type

Definition at line 935 of file geo.h.

◆ variant_type

template<class T >
typedef base::variant_type variant_type

Definition at line 936 of file geo.h.

◆ node_map_type

template<class T >
typedef base::node_map_type node_map_type

Definition at line 937 of file geo.h.

◆ reference

template<class T >
typedef base::reference reference

Definition at line 938 of file geo.h.

◆ const_reference

template<class T >
typedef base::const_reference const_reference

Definition at line 939 of file geo.h.

◆ iterator

template<class T >
typedef base::iterator iterator

Definition at line 940 of file geo.h.

◆ const_iterator

template<class T >
typedef base::const_iterator const_iterator

Definition at line 941 of file geo.h.

◆ iterator_by_variant

Definition at line 942 of file geo.h.

◆ const_iterator_by_variant

Definition at line 943 of file geo.h.

◆ coordinate_type

template<class T >
typedef base::coordinate_type coordinate_type

Definition at line 944 of file geo.h.

◆ geo_element_map_type

template<class T >
typedef base::geo_element_map_type geo_element_map_type

Definition at line 945 of file geo.h.

Constructor & Destructor Documentation

◆ geo_rep() [1/3]

template<class T >
geo_rep ( )

Definition at line 112 of file geo.cc.

◆ geo_rep() [2/3]

template<class T >
geo_rep ( const geo_rep< T, distributed > &  o)

Definition at line 123 of file geo.cc.

◆ geo_rep() [3/3]

template<class T >
geo_rep ( const geo_basic< T, distributed > &  lambda,
const disarray< point_basic< T >, distributed > &  node_list,
const std::array< disarray< geo_element_auto< heap_allocator< size_type > >, distributed >, reference_element::max_variant > &  elt_list 
)

Definition at line 148 of file geo_build_from_list.cc.

Member Function Documentation

◆ clone()

template<class T >
geo_abstract_rep< T, distributed > * clone ( ) const

Definition at line 136 of file geo.cc.

◆ build_from_domain()

template<class T >
void build_from_domain ( const domain_indirect_rep< distributed > &  indirect,
const geo_abstract_rep< T, distributed > &  bgd_omega,
std::map< size_type, size_type > &  bgd_ie2dom_ie,
std::map< size_type, size_type > &  bgd_dis_ie2dom_dis_ie 
)

build_from_domain : geo constructor

Implementation notes:

There are four vertices numbering:

a) bgd_iv : background vertex index i.e. index of vertex as numbered in the backgroud geo omega

b) bgd_ios_iv : background vertex index for i/o (nproc independent)

c) dom_iv : index of a vertex as numbered in the current geo_domain this is a reduced set of vertices: vertices that not appears in the list of elements of the domain are skipped. This numbering is constrained to follow the background vertex distribution.

d) dom_ios_iv : index of a vertex on the domain for i/o (nproc independent) This numbering is constrained to follow the background ios vertex distribution.

The numbering bgd_iv and bgd_ios_iv are already defined. The numbering dom_iv and dom_ios_iv are defined here. The correspondances dom_iv <--> dom_ios_iv are also defined for i/o.

Algorithm: for vertices renumbering

1) scan the domain and mark vertex in the bgd numbering: bool bgd_iv_is_on_domain [bgd_iv_ownership] = false bool bgd_ios_iv_is_on_domain [bgd_ios_iv_ownership] = false for K in omega.domain for iloc=0..K.size bgd_dis_iv = K[iloc] bgd_ios_dis_ie = omega.dis_ie2ios_dis_ie (0,bgd_iv) bgd_iv_is_on_domain [[bgd_dis_iv]] = true bgd_ios_iv_is_on_domain [[bgd_ios_dis_iv]] = true bgd_iv_is_on_domain.assembly bgd_ios_iv_is_on_domain.assembly

2) counting & distribution for dom_iv dom_nv = 0 for bdg_iv = ... if bgd_iv_is_on_domain [bgd_iv] then dom_nv++ dom_iv_ownership = distributor (-,comm,dom_nv)

3) numbering dom_iv & permutation: bgd_iv --> dom_iv disarray bgd_iv2dom_iv [bgd_iv_ownership] dom_iv = 0 for bdg_iv = ... if bgd_iv_is_on_domain [bgd_iv] then bgd_iv2dom_iv [bgd_iv] = dom_iv dom_iv++

4) counting & distribution for dom_ios_iv dom_ios_nv = 0 for bdg_ios_iv = ... if bgd_ios_iv_is_on_domain [bgd_ios_iv] then dom_ios_nv++ dom_ios_iv_ownership = distributor (-,comm,dom_ios_nv)

5) numbering dom_ios_iv & permutation: bgd_ios_iv --> dom_ios_iv disarray bgd_ios_iv2dom_ios_iv [bgd_ios_iv_ownership] dom_ios_iv = 0 for bdg_ios_iv = ... if bgd_ios_iv_is_on_domain [bgd_ios_iv] then bgd_ios_iv2dom_ios_iv [bgd_ios_iv] = dom_ios_iv dom_ios_iv++

6) permutation: bgd_iv --> dom_ios_iv disarray bgd_iv2dom_ios_dis_iv [bgd_iv_ownership] for bdg_ios_iv = ... if bgd_ios_iv_is_on_domain [bgd_ios_iv] then dom_ios_iv = bgd_ios_iv2dom_ios_iv [bgd_ios_iv] bgd_dis_iv = omega.ios_iv2dis_iv (bgd_ios_iv) bgd_iv2dom_ios_dis_iv [[bgd_dis_iv]] = dom_ios_dis_iv bgd_iv2dom_ios_dis_iv.assembly

7) permutations: dom_ios_iv <--> dom_iv disarray dom_ios_iv2dom_dis_iv [dom_iv_ownership] disarray dom_iv2dom_ios_dis_iv [dom_ios_iv_ownership] for bdg_iv = ... if bgd_iv_is_on_domain [bgd_iv] then dom_iv = bgd_iv2dom_iv [bgd_iv] dom_ios_dis_iv = bgd_iv2dom_ios_dis_iv [bgd_iv] dom_iv2dom_ios_dis_iv [dom_iv] = dom_ios_dis_iv dom_dis_iv = first_dom_dis_iv + dom_iv dom_ios_iv2dom_dis_iv [[dom_ios_dis_iv]] = dom_dis_iv dom_ios_iv2dom_dis_iv.assembly

8) loop on elements and copy from domain with new vertex numbering

Definition at line 309 of file geo_domain_mpi.cc.

◆ geo_element_ios_ownership()

template<class T >
distributor geo_element_ios_ownership ( size_type  dim) const

Definition at line 39 of file geo_mpi.cc.

◆ ige2ios_dis_ige()

template<class T >
geo_rep< T, distributed >::size_type ige2ios_dis_ige ( size_type  dim,
size_type  ige 
) const

Definition at line 51 of file geo_mpi.cc.

◆ dis_ige2ios_dis_ige()

template<class T >
geo_rep< T, distributed >::size_type dis_ige2ios_dis_ige ( size_type  dim,
size_type  dis_ige 
) const

Definition at line 29 of file geo_mpi.cc.

◆ ios_ige2dis_ige()

template<class T >
geo_rep< T, distributed >::size_type ios_ige2dis_ige ( size_type  dim,
size_type  ios_ige 
) const

Definition at line 45 of file geo_mpi.cc.

◆ ios_sizes()

template<class T >
const geo_size & ios_sizes ( ) const

Definition at line 973 of file geo.h.

◆ locate()

template<class T >
void locate ( const disarray< point_basic< T >, distributed > &  x,
disarray< size_type, distributed > &  dis_ie,
bool  do_check = false 
) const

Definition at line 441 of file geo_locate.cc.

◆ trace_ray_boundary()

template<class T >
void trace_ray_boundary ( const disarray< point_basic< T >, distributed > &  x,
const disarray< point_basic< T >, distributed > &  v,
disarray< size_type, distributed > &  dis_ie,
disarray< point_basic< T >, distributed > &  y,
bool  do_check = false 
) const

Definition at line 602 of file geo_trace_ray_boundary.cc.

◆ trace_move()

template<class T >
void trace_move ( const disarray< point_basic< T >, distributed > &  x,
const disarray< point_basic< T >, distributed > &  v,
disarray< size_type, distributed > &  dis_ie,
disarray< point_basic< T >, distributed > &  y 
) const

Definition at line 128 of file geo_trace_move.cc.

◆ nearest()

template<class T >
void nearest ( const disarray< point_basic< T >, distributed > &  x,
disarray< point_basic< T >, distributed > &  x_nearest,
disarray< size_type, distributed > &  dis_ie 
) const

Definition at line 380 of file geo_nearest.cc.

◆ map_dimension()

template<class T >
size_type map_dimension ( ) const

Definition at line 996 of file geo.h.

◆ is_broken()

template<class T >
bool is_broken ( ) const

Definition at line 997 of file geo.h.

◆ size() [1/2]

template<class T >
size_type size ( size_type  dim) const

Definition at line 998 of file geo.h.

◆ geo_element_ownership()

template<class T >
const distributor & geo_element_ownership ( size_type  dim) const

Definition at line 999 of file geo.h.

◆ get_geo_element() [1/2]

template<class T >
const_reference get_geo_element ( size_type  dim,
size_type  ige 
) const

Definition at line 1000 of file geo.h.

◆ get_geo_element() [2/2]

template<class T >
reference get_geo_element ( size_type  dim,
size_type  ige 
)

Definition at line 1001 of file geo.h.

◆ begin() [1/2]

template<class T >
const_iterator begin ( size_type  dim) const

Definition at line 1003 of file geo.h.

◆ end() [1/2]

template<class T >
const_iterator end ( size_type  dim) const

Definition at line 1004 of file geo.h.

◆ begin() [2/2]

template<class T >
iterator begin ( size_type  dim)

Definition at line 1005 of file geo.h.

◆ end() [2/2]

template<class T >
iterator end ( size_type  dim)

Definition at line 1006 of file geo.h.

◆ get_external_geo_element_map()

template<class T >
const geo_element_map_type & get_external_geo_element_map ( size_type  variant) const

Definition at line 1007 of file geo.h.

◆ get_domain_indirect() [1/2]

template<class T >
const domain_indirect_basic< distributed > & get_domain_indirect ( size_type  idom) const

Definition at line 1010 of file geo.h.

◆ get_domain_indirect() [2/2]

template<class T >
const domain_indirect_basic< distributed > & get_domain_indirect ( const std::string &  name) const

Definition at line 1011 of file geo.h.

◆ size() [2/2]

template<class T >
size_type size ( ) const

Definition at line 1015 of file geo.h.

◆ vertex_ownership()

template<class T >
const distributor & vertex_ownership ( ) const

Definition at line 1016 of file geo.h.

◆ operator[]()

template<class T >
const_reference operator[] ( size_type  ie) const

Definition at line 1017 of file geo.h.

◆ reset_order()

template<class T >
void reset_order ( size_type  order)

◆ build_by_subdividing()

template<class T >
void build_by_subdividing ( const geo_basic< T, distributed > &  omega,
size_type  k 
)

◆ get()

template<class T >
idiststream & get ( idiststream ips)

Definition at line 637 of file geo_mpi_get.cc.

◆ put()

template<class T >
odiststream & put ( odiststream ops) const

Definition at line 52 of file geo_mpi_put.cc.

◆ dump()

template<class T >
void dump ( std::string  name) const

Definition at line 151 of file geo_mpi_put.cc.

◆ load()

template<class T >
void load ( std::string  name,
const communicator comm 
)

Definition at line 998 of file geo_mpi_get.cc.

◆ check()

template<class T >
bool check ( bool  verbose) const

Definition at line 163 of file geo_seq_check.cc.

◆ set_ios_permutation()

template<class T >
void set_ios_permutation ( disarray< size_type, distributed > &  idof2ios_dis_idof) const

Definition at line 620 of file geo_mpi_get.cc.

◆ build_external_entities()

template<class T >
void build_external_entities ( )
protected

loop on geo_element (edges, faces, etc): identify some vertices, that are referenced by locally-managed geo_elements, but these vertices are managed

by another processor: e.g. vertices at a partition boundary.

Definition at line 349 of file geo_mpi_get.cc.

◆ set_element_side_index()

template<class T >
void set_element_side_index ( size_type  side_dim)
protected

on any 3d geo_element K, set K.dis_iface(iloc) number

Definition at line 451 of file geo_mpi_get.cc.

◆ domain_set_side_part1()

template<class T >
void domain_set_side_part1 ( const domain_indirect_rep< distributed > &  indirect,
const geo_abstract_rep< T, distributed > &  bgd_omega,
size_type  sid_dim,
disarray< size_type > &  bgd_isid2dom_dis_isid,
disarray< size_type > &  dom_isid2bgd_isid,
disarray< size_type > &  dom_isid2dom_ios_dis_isid,
size_type  size_by_variant[reference_element::max_variant] 
)
protected

Definition at line 34 of file geo_domain_mpi.cc.

◆ domain_set_side_part2()

template<class T >
void domain_set_side_part2 ( const domain_indirect_rep< distributed > &  indirect,
const geo_abstract_rep< T, distributed > &  bgd_omega,
disarray< size_type > &  bgd_iv2dom_dis_iv,
size_type  sid_dim,
disarray< size_type > &  bgd_isid2dom_dis_isid,
disarray< size_type > &  dom_isid2bgd_isid,
disarray< size_type > &  dom_isid2dom_ios_dis_isid,
size_type  size_by_variant[reference_element::max_variant] 
)
protected

Definition at line 156 of file geo_domain_mpi.cc.

◆ node_renumbering()

template<class T >
void node_renumbering ( const distributor ios_node_ownership)
protected

Definition at line 626 of file geo_mpi_get.cc.

◆ get_igev2ios_dis_igev()

template<class T >
const std::array< disarray< size_type, distributed >, reference_element::max_variant > & get_igev2ios_dis_igev ( ) const

Definition at line 1074 of file geo.h.

Member Data Documentation

◆ _inod2ios_dis_inod

template<class T >
disarray<size_type> _inod2ios_dis_inod
protected

Definition at line 1064 of file geo.h.

◆ _ios_inod2dis_inod

template<class T >
disarray<size_type> _ios_inod2dis_inod
protected

Definition at line 1065 of file geo.h.

◆ _ios_ige2dis_ige

template<class T >
std::array<disarray<size_type>, 4> _ios_ige2dis_ige
protected

Definition at line 1066 of file geo.h.

◆ _ios_gs

template<class T >
geo_size _ios_gs
protected

Definition at line 1067 of file geo.h.

◆ _igev2ios_dis_igev

template<class T >
std::array<disarray<size_type,distributed>,reference_element::max_variant> _igev2ios_dis_igev
protected

Definition at line 1068 of file geo.h.

◆ _ios_igev2dis_igev

template<class T >
std::array<disarray<size_type,distributed>,reference_element::max_variant> _ios_igev2dis_igev
protected

Definition at line 1069 of file geo.h.


The documentation for this class was generated from the following files: