/usr/include/trilinos/pamgen_mesh_specification.h is in libtrilinos-pamgen-dev 12.12.1-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#ifndef pamgen_mesh_specification_LT_H
#define pamgen_mesh_specification_LT_H
#include "pamgen_element_dictionary.h"
#include <string>
#include <sstream>
#include <ios>
using namespace PAMGEN_NEVADA;
namespace ms_lt{
/*****************************************************************************/
class Mesh_Specification
/*****************************************************************************/
// This abstract class represents a mesh specification.
//
// A note on numbering. Most file formats for specifying meshes were
// developed in the FORTRAN world, where the default convention is for array
// indices to begin at 1 rather than 0. In addition, when a mesh is
// decomposed for parallel computations, its topological entities are
// assigned a global number. As a result, there is considerable potential
// for confusion about numbering. Unless otherwise specified, local indexing
// starts at 0. When indices returned by a function are based on the
// FORTRAN convention (indices starting at 1), this will be noted. Global
// numbering will always be explicitly noted when not obvious.
{
public:
enum MSPPA {
ELMT_NODE_LINKAGE,
NODE_SET_NODES,
SIDE_SET_ELEMENTS,
SIDE_SET_FACES,
SIDE_SET_NODES,
SIDE_SET_NODE_COUNTER,
COMM_NODE_IDS,
COMM_NODE_PROC_IDS,
COMM_ELEM_IDS,
COMM_ELEM_PROC_IDS,
COMM_SIDE_IDS,
NUM_MSPPA
};
enum MSPPDA{
ATTRIBUTES,
NODE_SET_DF,
SIDE_SET_DF,
NUM_MSPPDA
};
enum MSPSA{
INFO_STRINGS,
COORDINATE_NAMES,
ELEMENT_TYPES,
NUM_MSPSA
};
enum MSPA {
ELEM_ORDER_MAP=0,
BLOCK_ID,
ELEMENTS_IN_BLOCK,
NODES_PER_ELEMENT,
ELEMENT_ATTRIBUTES,
NODE_SET_ID,
NUM_NODES_IN_NODE_SET,
NUM_DF_IN_NODE_SET,
SIDE_SET_ID,
NUM_ELEMENTS_IN_SIDE_SET,
NUM_NODES_IN_SIDE_SET,
NUM_DF_IN_SIDE_SET,
GLOBAL_ELEMENT_NUMBERS,
GLOBAL_NODE_NUMBERS,
NBR_PROC_LIST,
ELEM_BLK_IDS_GLOBAL,
ELEM_BLK_CNTS_GLOBAL,
NS_IDS_GLOBAL,
NS_CNTS_GLOBAL,
NS_DF_CNTS_GLOBAL,
SS_IDS_GLOBAL,
SS_CNTS_GLOBAL,
SS_DF_CNTS_GLOBAL,
INTERNAL_ELEMENTS,
BORDER_ELEMENTS,
INTERNAL_NODES,
BORDER_NODES,
EXTERNAL_NODES,
NODE_CMAP_NODE_CNTS,
NODE_CMAP_IDS,
ELEM_CMAP_ELEM_CNTS,
ELEM_CMAP_IDS,
BLOCK_PARENT_MESHES,
SIDESET_PARENT_MESHES,
NODESET_PARENT_MESHES,
NUM_MSPA};
enum MSIA {
DIM=0,
PROC_ID,
NUM_QA_RECORDS,
NUM_INFO_RECORDS,
NUM_TOTAL_PROC,
NUM_PROC_IN_FILE,
NUM_NODES,
NUM_ELEMENTS,
NUM_EDGES,
NUM_FACES,
NUM_BLOCKS,
NUM_NODE_SETS,
NUM_SIDE_SET_NODES,
NUM_SIDE_SETS,
NUM_NODES_GLOBAL,
NUM_ELEMS_GLOBAL,
NUM_ELM_BLKS_GLOBAL,
NUM_NODE_SETS_GLOBAL,
NUM_SIDE_SETS_GLOBAL,
NUM_INTERNAL_NODES,
NUM_BORDER_NODES,
NUM_EXTERNAL_NODES,
NUM_INTERNAL_ELEMS,
NUM_BORDER_ELEMS,
NUM_NODE_COMM_MAPS,
NUM_ELEM_COMM_MAPS,
NUM_NBR_PROCS,
NUM_PARENT_MESHES,
NUM_MSIA};
long long getMSI(MSIA ind){return msia[ind];}
void setMSI(MSIA ind,long long the_int){msia[ind] = the_int;}
long long * getMSP(MSPA ind) {return mspa[ind];}
const long long * getMSP(MSPA ind) const {return mspa[ind];}
std::string * getMSPSA(MSPSA ind) {return mspsa[ind];}
const std::string * getMSPSA(MSPSA ind) const {return mspsa[ind];}
long long * const * getMSPP(MSPPA ind) {return msppa[ind];}
const long long * const * getMSPP(MSPPA ind) const {return msppa[ind];}
double * const * getMSPPD(MSPPDA ind) {return msppda[ind];}
const double * const * getMSPPD(MSPPDA ind) const {return msppda[ind];}
static Mesh_Specification * first_ms_static_storage;
static void Add_MS(Mesh_Specification * ms){
/*set the first pointer if unset*/
/*add the new entry to next if there is an im_static_storage*/
/*set im_static_storage*/
if(!first_ms_static_storage){
first_ms_static_storage = ms;
}
else{
Mesh_Specification * ams = first_ms_static_storage;
while(ams->next){
ams=ams->next;
}
ams->next = ms;
}
}
static void Replace_MS(Mesh_Specification * ms){
/*set the first pointer if unset*/
/*add the new entry to next if there is an im_static_storage*/
/*set im_static_storage*/
if(ms == first_ms_static_storage)return;
else if(first_ms_static_storage){
delete first_ms_static_storage;
}
first_ms_static_storage = ms;
}
Mesh_Specification * consolidateMS();
Mesh_Specification * Next(){return next;}
Mesh_Specification();
virtual ~Mesh_Specification();
std::string getErrorString() {return error_stream.str();}
std::string getWarningString(){return warning_stream.str();}
// Access functions for local data
const std::string& Title() const {return title;}
// Nodal coordinates
const double* Coord() const {return coord;}
double* Coord() {return coord;}
// Stored by node, then by coordinate component. Thus, Coord()[n] returns
// the X coordinate of the nth node, while Coord()[n+Number_Of_Nodes()]
// returns the Y coordinate of the nth node if Dimensionality()>1.
virtual const std::string& File_Type() {return file_type;}
// Information records
typedef std::string QA_Record[4];
const QA_Record *QA_Records() const {return qa_strings;}
QA_Record *QA_Records() {return qa_strings;}
// The QA records give information on every code that has "touched"
// the data in the mesh specification. Each QA record consists
// of four parts enumerated below:
enum {
QA_CODE_NAME = 0,
QA_CODE_DESCRIPTOR = 1,
QA_ANALYSIS_DATE = 2,
QA_ANALYSIS_TIME = 3
};
bool Are_Warnings_Suppressed() const;
void Parallel_Data_Size(long long,long long,long long,long long,long long,long long,long long);
void Allocate_Locational_Data();
void Allocate_LoadBal_Data();
void Allocate_Global_Data();
void Global_Data_Size( long long, long long, long long, long long, long long, long long, long long);
void Allocate_Parallel_Data();
void Free_Parallel_Data();
void Free_Locational_Data();
void Free_Global_Data();
// Definition functions
void Specify_Global_Information(const std::string &title,
long long dimensionality,
long long number_of_nodes,
long long number_of_elements,
long long number_of_element_blocks,
long long number_of_node_sets,
long long number_of_side_sets,
long long number_of_qa_records,
long long number_of_info_records);
// Specifies the overall dimensions of the mesh, and allocates
// storage for next level of information.
void Specify_Block_Information(long long index,
long long block_id,
long long number_of_block_elements,
long long number_of_nodes_per_element,
long long number_of_element_attributes,
Element_Type block_element_type);
// Specifies the dimensions of a particular element block, and
// allocates storage for the next level of information for the block.
void Specify_Node_Set_Information(long long index,
long long node_set_id,
long long number_of_nodes_in_node_set,
long long number_of_df_in_node_set);
// Specifies the dimensions of a particular node set, and allocates
// storage for the next level of information for the node set.
void Specify_Side_Set_Information(long long index,
long long side_set_id,
long long number_of_faces_in_side_set,
long long number_of_nodes_in_side_set,
long long number_of_df_in_side_set);
// Specifies the dimensions of a particular side set, and allocates
// storage for the next level of information for the side set.
void Resize_Info_Store(long long number_of_info_records);
// Increase the number of information records.
void Suppress_Warnings(long long);
void Free_NonTransient_Storage();
// Free all storage except that which contains data required for
// time step dumps. After a call to Free_NonTransient_Storage(),
// Block_ID() and Number_Of_Block_Elements() will return pointers
// to meaningful data, but all other functions returning a pointer
// will return a null pointer.
// Set IJK
void Set_Total_Num_IJK(long long nnx,
long long nny,
long long nnz)
{
total_num_ijk[0] = nnx;
total_num_ijk[1] = nny;
total_num_ijk[2] = nnz;
return;
}
void Set_Local_Num_IJK(long long nnx,
long long nny,
long long nnz)
{
local_num_ijk[0] = nnx;
local_num_ijk[1] = nny;
local_num_ijk[2] = nnz;
return;
}
// Get IJK
void Get_Total_Num_IJK(long long * num_ijk)
{
num_ijk[0] = total_num_ijk[0];
num_ijk[1] = total_num_ijk[1];
num_ijk[2] = total_num_ijk[2];
return;
}
void Get_Local_Num_IJK(long long * num_ijk)
{
num_ijk[0] = local_num_ijk[0];
num_ijk[1] = local_num_ijk[1];
num_ijk[2] = local_num_ijk[2];
return;
}
protected:
// Store IJK
long long local_num_ijk[3];
long long total_num_ijk[3];
std::string title;
std::stringstream error_stream;
std::stringstream warning_stream;
double* coord;
Element_Type* block_element_type;
QA_Record* qa_strings;
bool suppress_warnings;
Mesh_Specification * next;
//nem data
std::string file_type;
//Arrays for storing ints pointers,
// automatically sized by the enums
long long msia[NUM_MSIA];
long long * mspa[NUM_MSPA];
long long * * msppa[NUM_MSPPA];
double * * msppda[NUM_MSPPDA];
std::string * mspsa[NUM_MSPSA];
private:
Mesh_Specification(const Mesh_Specification &);
Mesh_Specification &operator=(const Mesh_Specification &);
void Zero_Set();
void Free();
};
}
#endif
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