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MOAB: Mesh Oriented datABase
(version 5.4.1)
|
|
MOAB: Mesh Oriented datABase
(version 5.4.1)
|
#include "moab/Range.hpp"#include "TestUtil.hpp"#include "moab/Core.hpp"#include "moab/ParallelComm.hpp"#include "moab/Skinner.hpp"#include "MBTagConventions.hpp"#include "moab/CN.hpp"#include "MBParallelConventions.h"#include <iostream>#include <sstream>#include <algorithm>#include "moab_mpi.h"#include <unistd.h>#include <cfloat>#include <cstdio>#include <ctime>
Include dependency graph for parallel_hdf5_test.cpp:Go to the source code of this file.
Enumerations | |
| enum | Mode { READ_PART, READ_DELETE, BCAST_DELETE } |
Functions | |
| void | load_and_partition (Interface &moab, const char *filename, bool print_debug=false) |
| void | save_and_load_on_root (Interface &moab, const char *tmp_filename) |
| void | check_identical_mesh (Interface &moab1, Interface &moab2) |
| void | test_write_elements () |
| void | test_write_shared_sets () |
| void | test_var_length_parallel () |
| void | test_read_elements_common (bool by_rank, int intervals, bool print_time, const char *extra_opts=0) |
| void | test_read_elements () |
| void | test_read_elements_by_rank () |
| void | test_bcast_summary () |
| void | test_read_summary () |
| void | test_read_time () |
| void | test_read_tags () |
| void | test_read_global_tags () |
| void | test_read_sets_common (const char *extra_opts=0) |
| void | test_read_sets () |
| void | test_read_sets_bcast_dups () |
| void | test_read_sets_read_dups () |
| void | test_read_bc_sets () |
| void | test_write_different_element_types () |
| void | test_write_different_tags () |
| void | test_write_polygons () |
| void | test_write_unbalanced () |
| void | test_write_dense_tags () |
| void | test_read_non_adjs_side () |
| std::string | get_read_options (bool by_rank=DEFAULT_BY_RANK, Mode mode=DEFAULT_MODE, const char *extra_opts=0) |
| std::string | get_read_options (const char *extra_opts) |
| std::string | get_read_options (bool by_rank, const char *extra_opts) |
| int | main (int argc, char *argv[]) |
| void | print_partitioned_entities (Interface &moab, bool list_non_shared=false) |
| void | count_owned_entities (Interface &moab, int counts[MBENTITYSET]) |
| bool | check_sets_sizes (Interface &mb1, EntityHandle set1, Interface &mb2, EntityHandle set2) |
| void | create_input_file (const char *file_name, int intervals, int num_cpu, int blocks_per_cpu=1, const char *ijk_vert_tag_name=0, const char *ij_set_tag_name=0, const char *global_tag_name=0, const int *global_mesh_value=0, const int *global_default_value=0, bool create_bcsets=false) |
| Tag | get_tag (Interface &mb, int rank, bool create) |
Variables | |
| int | ReadIntervals = 0 |
| const char | PARTITION_TAG [] = "PARTITION" |
| bool | KeepTmpFiles = false |
| bool | PauseOnStart = false |
| bool | HyperslabAppend = false |
| const int | DefaultReadIntervals = 2 |
| int | ReadDebugLevel = 0 |
| int | WriteDebugLevel = 0 |
| int | ReadBlocks = 1 |
| const Mode | DEFAULT_MODE = READ_PART |
| const bool | DEFAULT_BY_RANK = false |
| enum Mode |
Definition at line 95 of file parallel_hdf5_test.cpp.
{
READ_PART,
READ_DELETE,
BCAST_DELETE
};
| void check_identical_mesh | ( | Interface & | moab1, |
| Interface & | moab2 | ||
| ) |
Definition at line 490 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK, CHECK_EQUAL, CHECK_ERR, moab::Range::clear(), moab::Range::end(), moab::Range::erase(), ErrorCode, moab::Interface::get_connectivity(), moab::Interface::get_coords(), moab::Interface::get_entities_by_type(), MBEDGE, MBENTITYSET, MBVERTEX, moab::Range::size(), and t.
Referenced by test_write_elements().
{
ErrorCode rval;
std::map< EntityHandle, EntityHandle > entmap;
// match vertices by coordinate
Range r1, r2;
Range::iterator i1, i2;
rval = mb1.get_entities_by_type( 0, MBVERTEX, r1 );CHECK_ERR( rval );
rval = mb2.get_entities_by_type( 0, MBVERTEX, r2 );CHECK_ERR( rval );
CHECK_EQUAL( r1.size(), r2.size() );
for( i1 = r1.begin(); i1 != r1.end(); ++i1 )
{
double coords1[3];
rval = mb1.get_coords( &*i1, 1, coords1 );CHECK_ERR( rval );
for( i2 = r2.begin(); i2 != r2.end(); ++i2 )
{
double coords2[3];
rval = mb2.get_coords( &*i2, 1, coords2 );CHECK_ERR( rval );
coords2[0] -= coords1[0];
coords2[1] -= coords1[1];
coords2[2] -= coords1[2];
double lensqr = coords2[0] * coords2[0] + coords2[1] * coords2[1] + coords2[2] * coords2[2];
if( lensqr < 1e-12 ) break;
}
CHECK( i2 != r2.end() );
entmap[*i2] = *i1;
r2.erase( i2 );
}
// match element connectivity
std::vector< EntityHandle > conn1, conn2;
for( EntityType t = MBEDGE; t < MBENTITYSET; ++t )
{
r1.clear();
rval = mb1.get_entities_by_type( 0, t, r1 );CHECK_ERR( rval );
r2.clear();
rval = mb2.get_entities_by_type( 0, t, r2 );CHECK_ERR( rval );
CHECK_EQUAL( r1.size(), r2.size() );
for( i1 = r1.begin(); i1 != r1.end(); ++i1 )
{
conn1.clear();
rval = mb1.get_connectivity( &*i1, 1, conn1 );CHECK_ERR( rval );
for( i2 = r2.begin(); i2 != r2.end(); ++i2 )
{
conn2.clear();
rval = mb2.get_connectivity( &*i2, 1, conn2 );CHECK_ERR( rval );
if( conn1.size() != conn2.size() ) continue;
for( std::vector< EntityHandle >::iterator j = conn2.begin(); j != conn2.end(); ++j )
*j = entmap[*j];
if( conn1 == conn2 ) break;
}
CHECK( i2 != r2.end() );
entmap[*i2] = *i1;
r2.erase( i2 );
}
}
}
| bool check_sets_sizes | ( | Interface & | mb1, |
| EntityHandle | set1, | ||
| Interface & | mb2, | ||
| EntityHandle | set2 | ||
| ) |
Definition at line 608 of file parallel_hdf5_test.cpp.
References CHECK_ERR, moab::CN::EntityTypeName(), ErrorCode, moab::Interface::get_number_entities_by_type(), MBMAXTYPE, MBVERTEX, and t.
Referenced by test_write_shared_sets().
{
ErrorCode rval;
bool result = true;
for( EntityType t = MBVERTEX; t < MBMAXTYPE; ++t )
{
int count1, count2;
rval = mb1.get_number_entities_by_type( set1, t, count1 );CHECK_ERR( rval );
rval = mb2.get_number_entities_by_type( set2, t, count2 );CHECK_ERR( rval );
if( count1 != count2 )
{
std::cerr << "Sets differ in number of " << CN::EntityTypeName( t ) << " : " << count1 << " vs. " << count2
<< std::endl;
result = false;
}
}
return result;
}
| void count_owned_entities | ( | Interface & | moab, |
| int | counts[MBENTITYSET] | ||
| ) |
Definition at line 474 of file parallel_hdf5_test.cpp.
References CHECK, CHECK_ERR, moab::Range::empty(), ErrorCode, moab::ParallelComm::filter_pstatus(), moab::Interface::get_entities_by_type(), moab::ParallelComm::get_pcomm(), MBENTITYSET, MBVERTEX, PSTATUS_NOT, PSTATUS_NOT_OWNED, moab::Range::size(), t, and u.
Referenced by test_write_elements().
{
ErrorCode rval;
ParallelComm* pcomm = ParallelComm::get_pcomm( &moab, 0 );
CHECK( 0 != pcomm );
std::fill( counts, counts + MBENTITYSET, 0u );
for( EntityType t = MBVERTEX; t < MBENTITYSET; ++t )
{
Range range;
rval = moab.get_entities_by_type( 0, t, range );CHECK_ERR( rval );
if( !range.empty() ) rval = pcomm->filter_pstatus( range, PSTATUS_NOT_OWNED, PSTATUS_NOT );CHECK_ERR( rval );
counts[t] = range.size();
}
}
| void create_input_file | ( | const char * | file_name, |
| int | intervals, | ||
| int | num_cpu, | ||
| int | blocks_per_cpu = 1, |
||
| const char * | ijk_vert_tag_name = 0, |
||
| const char * | ij_set_tag_name = 0, |
||
| const char * | global_tag_name = 0, |
||
| const int * | global_mesh_value = 0, |
||
| const int * | global_default_value = 0, |
||
| bool | create_bcsets = false |
||
| ) |
Definition at line 788 of file parallel_hdf5_test.cpp.
References moab::Interface::add_entities(), CHECK_ERR, conn, moab::Interface::create_element(), moab::Interface::create_meshset(), moab::Interface::create_vertex(), DIRICHLET_SET_TAG_NAME, moab::dum, ErrorCode, moab::Skinner::find_skin(), moab::Interface::get_adjacencies(), MATERIAL_SET_TAG_NAME, mb, MB_TAG_CREAT, MB_TAG_DENSE, MB_TAG_EXCL, MB_TAG_SPARSE, MB_TYPE_INTEGER, MBHEX, MESHSET_SET, NEUMANN_SET_TAG_NAME, PARTITION_TAG, moab::Interface::tag_get_handle(), moab::Interface::tag_set_data(), moab::Interface::UNION, and moab::Interface::write_file().
Referenced by test_read_bc_sets(), test_read_elements_common(), test_read_global_tags(), test_read_sets_common(), test_read_tags(), and test_read_time().
{
Core moab;
Interface& mb = moab;
ErrorCode rval;
Tag ijk_vert_tag = 0, ij_set_tag = 0, global_tag = 0;
if( ijk_vert_tag_name )
{
rval = mb.tag_get_handle( ijk_vert_tag_name, 3, MB_TYPE_INTEGER, ijk_vert_tag, MB_TAG_EXCL | MB_TAG_DENSE );CHECK_ERR( rval );
}
if( ij_set_tag_name )
{
rval = mb.tag_get_handle( ij_set_tag_name, 2, MB_TYPE_INTEGER, ij_set_tag, MB_TAG_SPARSE | MB_TAG_EXCL );CHECK_ERR( rval );
}
if( global_tag_name )
{
rval = mb.tag_get_handle( global_tag_name, 1, MB_TYPE_INTEGER, global_tag, MB_TAG_DENSE | MB_TAG_EXCL,
global_default_value );CHECK_ERR( rval );
if( global_mesh_value )
{
EntityHandle root = 0;
rval = mb.tag_set_data( global_tag, &root, 1, global_mesh_value );CHECK_ERR( rval );
}
}
const int num_blk = num_cpu * blocks_per_cpu;
int iv = intervals + 1, ii = num_blk * intervals + 1;
std::vector< EntityHandle > verts( iv * iv * ii );
int idx = 0;
for( int i = 0; i < ii; ++i )
{
for( int j = 0; j < iv; ++j )
{
int start = idx;
for( int k = 0; k < iv; ++k )
{
const double coords[3] = { static_cast< double >( i ), static_cast< double >( j ),
static_cast< double >( k ) };
rval = mb.create_vertex( coords, verts[idx] );CHECK_ERR( rval );
if( ijk_vert_tag )
{
int vals[] = { i, j, k };
rval = mb.tag_set_data( ijk_vert_tag, &verts[idx], 1, vals );CHECK_ERR( rval );
}
++idx;
}
if( ij_set_tag )
{
EntityHandle set;
rval = mb.create_meshset( MESHSET_SET, set );CHECK_ERR( rval );
rval = mb.add_entities( set, &verts[start], idx - start );CHECK_ERR( rval );
int vals[] = { i, j };
rval = mb.tag_set_data( ij_set_tag, &set, 1, vals );CHECK_ERR( rval );
}
}
}
const int eb = intervals * intervals * intervals;
std::vector< EntityHandle > elems( num_blk * eb );
idx = 0;
for( int c = 0; c < num_blk; ++c )
{
for( int i = c * intervals; i < ( c + 1 ) * intervals; ++i )
{
for( int j = 0; j < intervals; ++j )
{
for( int k = 0; k < intervals; ++k )
{
EntityHandle conn[8] = { verts[iv * ( iv * i + j ) + k],
verts[iv * ( iv * ( i + 1 ) + j ) + k],
verts[iv * ( iv * ( i + 1 ) + j + 1 ) + k],
verts[iv * ( iv * i + j + 1 ) + k],
verts[iv * ( iv * i + j ) + k + 1],
verts[iv * ( iv * ( i + 1 ) + j ) + k + 1],
verts[iv * ( iv * ( i + 1 ) + j + 1 ) + k + 1],
verts[iv * ( iv * i + j + 1 ) + k + 1] };
rval = mb.create_element( MBHEX, conn, 8, elems[idx++] );CHECK_ERR( rval );
}
}
}
}
Tag part_tag;
rval = mb.tag_get_handle( PARTITION_TAG, 1, MB_TYPE_INTEGER, part_tag, MB_TAG_SPARSE | MB_TAG_EXCL );CHECK_ERR( rval );
std::vector< EntityHandle > parts( num_cpu );
for( int i = 0; i < num_cpu; ++i )
{
rval = mb.create_meshset( MESHSET_SET, parts[i] );CHECK_ERR( rval );
for( int j = 0; j < blocks_per_cpu; ++j )
{
rval = mb.add_entities( parts[i], &elems[( num_cpu * j + i ) * eb], eb );CHECK_ERR( rval );
}
rval = mb.tag_set_data( part_tag, &parts[i], 1, &i );CHECK_ERR( rval );
}
if( create_bcsets )
{
// neumann set
Range skin_ents;
rval = Skinner( &mb ).find_skin( 0, &elems[0], elems.size(), false, skin_ents );CHECK_ERR( rval );
EntityHandle bcset;
rval = mb.create_meshset( MESHSET_SET, bcset );CHECK_ERR( rval );
Tag bcset_tag;
rval = mb.tag_get_handle( NEUMANN_SET_TAG_NAME, 1, MB_TYPE_INTEGER, bcset_tag, MB_TAG_SPARSE | MB_TAG_CREAT );CHECK_ERR( rval );
int dum = 100;
rval = mb.tag_set_data( bcset_tag, &bcset, 1, &dum );CHECK_ERR( rval );
rval = mb.add_entities( bcset, skin_ents );CHECK_ERR( rval );
// dirichlet set
rval = mb.create_meshset( MESHSET_SET, bcset );CHECK_ERR( rval );
rval = mb.tag_get_handle( DIRICHLET_SET_TAG_NAME, 1, MB_TYPE_INTEGER, bcset_tag, MB_TAG_SPARSE | MB_TAG_CREAT );CHECK_ERR( rval );
dum = 200;
rval = mb.tag_set_data( bcset_tag, &bcset, 1, &dum );CHECK_ERR( rval );
Range nodes;
rval = mb.get_adjacencies( skin_ents, 0, false, nodes, Interface::UNION );CHECK_ERR( rval );
rval = mb.add_entities( bcset, nodes );CHECK_ERR( rval );
// material set
rval = mb.create_meshset( MESHSET_SET, bcset );CHECK_ERR( rval );
rval = mb.tag_get_handle( MATERIAL_SET_TAG_NAME, 1, MB_TYPE_INTEGER, bcset_tag, MB_TAG_SPARSE | MB_TAG_CREAT );CHECK_ERR( rval );
dum = 300;
rval = mb.tag_set_data( bcset_tag, &bcset, 1, &dum );CHECK_ERR( rval );
rval = mb.add_entities( bcset, &elems[0], elems.size() );CHECK_ERR( rval );
}
rval = mb.write_file( file_name, "MOAB" );CHECK_ERR( rval );
}
| std::string get_read_options | ( | bool | by_rank = DEFAULT_BY_RANK, |
| Mode | mode = DEFAULT_MODE, |
||
| const char * | extra_opts = 0 |
||
| ) |
Definition at line 114 of file parallel_hdf5_test.cpp.
References BCAST_DELETE, HyperslabAppend, MPI_COMM_WORLD, PARTITION_TAG, READ_DELETE, READ_PART, and ReadDebugLevel.
Referenced by get_read_options(), test_read_bc_sets(), test_read_elements_common(), test_read_global_tags(), test_read_sets_common(), test_read_tags(), and test_read_time().
{
int numproc;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
// do parallel read unless only one processor
std::ostringstream str;
if( numproc > 1 )
{
str << "PARALLEL=";
switch( mode )
{
case READ_PART:
str << "READ_PART";
break;
case READ_DELETE:
str << "READ_DELETE";
break;
case BCAST_DELETE:
str << "BCAST_DELETE";
break;
}
str << ";PARTITION=" << PARTITION_TAG << ";";
if( by_rank ) str << "PARTITION_BY_RANK;";
}
if( extra_opts ) str << extra_opts << ";";
if( ReadDebugLevel ) str << "DEBUG_IO=" << ReadDebugLevel << ";";
if( HyperslabAppend ) str << "HYPERSLAB_APPEND;HYPERSLAB_SELECT_LIMIT=2147483647";
return str.str();
}
| std::string get_read_options | ( | const char * | extra_opts | ) |
Definition at line 105 of file parallel_hdf5_test.cpp.
References DEFAULT_BY_RANK, DEFAULT_MODE, and get_read_options().
{
return get_read_options( DEFAULT_BY_RANK, DEFAULT_MODE, extra_opts );
}
| std::string get_read_options | ( | bool | by_rank, |
| const char * | extra_opts | ||
| ) |
Definition at line 109 of file parallel_hdf5_test.cpp.
References DEFAULT_MODE, and get_read_options().
{
return get_read_options( by_rank, DEFAULT_MODE, extra_opts );
}
Definition at line 1305 of file parallel_hdf5_test.cpp.
References CHECK_ERR, ErrorCode, MB_TAG_BIT, MB_TAG_DENSE, MB_TAG_EXCL, MB_TAG_SPARSE, MB_TAG_VARLEN, MB_TYPE_BIT, MB_TYPE_DOUBLE, MB_TYPE_HANDLE, MB_TYPE_INTEGER, MB_TYPE_OPAQUE, rank, moab::Interface::tag_get_handle(), and TagType.
Referenced by test_write_different_tags().
{
DataType type = (DataType)( rank % ( MB_MAX_DATA_TYPE + 1 ) );
TagType storage = ( type == MB_TYPE_BIT ) ? MB_TAG_BIT : ( rank % 2 ) ? MB_TAG_DENSE : MB_TAG_SPARSE;
int len = rank % 3 + 1;
TagType cbit = create ? MB_TAG_EXCL : (TagType)0;
TagType vbit = rank % 4 == 1 && storage != MB_TAG_BIT ? MB_TAG_VARLEN : (TagType)0;
std::ostringstream name;
name << "TestTag" << rank;
const void* defval = 0;
const int defint[] = { static_cast< int >( rank ), static_cast< int >( rank / 2 ), static_cast< int >( rank + 1 ),
static_cast< int >( rank - 1 ) };
const double defreal[] = { 0.1 * rank, 1.0 / rank, static_cast< double >( -rank ), static_cast< double >( rank ) };
const int defhandle[] = { 0, 0, 0, 0 };
const unsigned char defbit = 0x1;
const char defopq[] = "Jason";
if( rank % 4 < 2 )
{
switch( type )
{
case MB_TYPE_BIT:
defval = &defbit;
break;
case MB_TYPE_INTEGER:
defval = defint;
break;
case MB_TYPE_DOUBLE:
defval = defreal;
break;
case MB_TYPE_HANDLE:
defval = defhandle;
break;
case MB_TYPE_OPAQUE:
defval = defopq;
break;
}
}
Tag result;
ErrorCode rval = mb.tag_get_handle( name.str().c_str(), len, type, result, storage | cbit | vbit, defval );CHECK_ERR( rval );
return result;
}
| void load_and_partition | ( | Interface & | moab, |
| const char * | filename, | ||
| bool | print_debug = false |
||
| ) |
Definition at line 412 of file parallel_hdf5_test.cpp.
References CHECK_ERR, ErrorCode, moab::Interface::load_file(), and print_partitioned_entities().
Referenced by test_write_elements(), and test_write_shared_sets().
| int main | ( | int | argc, |
| char * | argv[] | ||
| ) |
Definition at line 149 of file parallel_hdf5_test.cpp.
References CHECK, DefaultReadIntervals, HyperslabAppend, KeepTmpFiles, MPI_COMM_WORLD, PauseOnStart, rank, ReadBlocks, ReadDebugLevel, ReadIntervals, RUN_TEST, test_read_bc_sets(), test_read_elements(), test_read_elements_by_rank(), test_read_global_tags(), test_read_non_adjs_side(), test_read_sets(), test_read_sets_bcast_dups(), test_read_sets_read_dups(), test_read_tags(), test_read_time(), test_var_length_parallel(), test_write_dense_tags(), test_write_different_element_types(), test_write_different_tags(), test_write_elements(), test_write_polygons(), test_write_shared_sets(), test_write_unbalanced(), and WriteDebugLevel.
{
int err = MPI_Init( &argc, &argv );
CHECK( !err );
for( int i = 1; i < argc; ++i )
{
if( !strcmp( argv[i], "-k" ) )
KeepTmpFiles = true;
else if( !strcmp( argv[i], "-p" ) )
PauseOnStart = true;
else if( !strcmp( argv[i], "-R" ) )
{
++i;
CHECK( i < argc );
ReadIntervals = atoi( argv[i] );
CHECK( ReadIntervals > 0 );
}
else if( !strcmp( argv[i], "-b" ) )
{
++i;
CHECK( i < argc );
ReadBlocks = atoi( argv[i] );
CHECK( ReadBlocks > 0 );
}
else if( !strcmp( argv[i], "-r" ) )
{
++i;
CHECK( i < argc );
ReadDebugLevel = atoi( argv[i] );
CHECK( ReadDebugLevel > 0 );
}
else if( !strcmp( argv[i], "-w" ) )
{
++i;
CHECK( i < argc );
WriteDebugLevel = atoi( argv[i] );
CHECK( WriteDebugLevel > 0 );
}
else if( !strcmp( argv[i], "-A" ) )
HyperslabAppend = true;
else
{
std::cerr << "Usage: " << argv[0]
<< " [-k] [-p] [-R <intervals>] [-r <level>] [-w <level>] [-b <blocks>] [-A]" << std::endl;
return 1;
}
}
if( PauseOnStart )
{
int rank;
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
printf( "Rank %2d PID %lu\n", rank, (unsigned long)getpid() );
sleep( 30 );
}
int result = 0;
if( ReadIntervals )
{
result = RUN_TEST( test_read_time );
}
else
{
ReadIntervals = DefaultReadIntervals;
result += RUN_TEST( test_write_elements );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_shared_sets );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_var_length_parallel );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_elements );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_elements_by_rank );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_tags );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_global_tags );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_sets );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_sets_bcast_dups );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_sets_read_dups );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_bc_sets );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_different_element_types );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_different_tags );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_polygons );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_unbalanced );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_write_dense_tags );
MPI_Barrier( MPI_COMM_WORLD );
result += RUN_TEST( test_read_non_adjs_side );
MPI_Barrier( MPI_COMM_WORLD );
}
MPI_Finalize();
return result;
}
| void print_partitioned_entities | ( | Interface & | moab, |
| bool | list_non_shared = false |
||
| ) |
Definition at line 261 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), buffer, CHECK_ERR, children, moab::Range::clear(), dim, moab::Range::empty(), moab::Range::end(), entities, ErrorCode, geom, GEOM_DIMENSION_TAG_NAME, geom_tag, moab::Interface::get_child_meshsets(), moab::Interface::get_entities_by_handle(), moab::Interface::get_entities_by_type_and_tag(), moab::Interface::globalId_tag(), id_tag, MAX_SHARING_PROCS, MB_TAG_NOT_FOUND, MB_TYPE_HANDLE, MB_TYPE_INTEGER, MB_TYPE_OPAQUE, MBENTITYSET, MPI_COMM_WORLD, PARALLEL_SHARED_HANDLE_TAG_NAME, PARALLEL_SHARED_HANDLES_TAG_NAME, PARALLEL_SHARED_PROC_TAG_NAME, PARALLEL_SHARED_PROCS_TAG_NAME, PARALLEL_STATUS_TAG_NAME, PSTATUS_NOT_OWNED, PSTATUS_SHARED, rank, size, moab::Range::size(), moab::subtract(), moab::Range::swap(), t, moab::Interface::tag_get_data(), and moab::Interface::tag_get_handle().
Referenced by load_and_partition().
{
ErrorCode rval;
int size, rank;
std::vector< int > ent_procs( MAX_SHARING_PROCS ), tmp_ent_procs( MAX_SHARING_PROCS );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
MPI_Comm_size( MPI_COMM_WORLD, &size );
// expect shared entities to correspond to geometric sets
// get tags for parallel data
Tag sharedp_tag, sharedps_tag, sharedh_tag, sharedhs_tag, pstatus_tag;
rval = moab.tag_get_handle( PARALLEL_SHARED_PROC_TAG_NAME, 1, MB_TYPE_INTEGER, sharedp_tag );CHECK_ERR( rval );
rval = moab.tag_get_handle( PARALLEL_SHARED_PROCS_TAG_NAME, MAX_SHARING_PROCS, MB_TYPE_INTEGER, sharedps_tag );CHECK_ERR( rval );
rval = moab.tag_get_handle( PARALLEL_SHARED_HANDLE_TAG_NAME, 1, MB_TYPE_HANDLE, sharedh_tag );CHECK_ERR( rval );
rval = moab.tag_get_handle( PARALLEL_SHARED_HANDLES_TAG_NAME, MAX_SHARING_PROCS, MB_TYPE_HANDLE, sharedhs_tag );CHECK_ERR( rval );
rval = moab.tag_get_handle( PARALLEL_STATUS_TAG_NAME, 1, MB_TYPE_OPAQUE, pstatus_tag );CHECK_ERR( rval );
// for each geometric entity, check which processor we are sharing
// entities with
Tag geom_tag, id_tag;
rval = moab.tag_get_handle( GEOM_DIMENSION_TAG_NAME, 1, MB_TYPE_INTEGER, geom_tag );CHECK_ERR( rval );
id_tag = moab.globalId_tag();
const char* topo_names_s[] = { "Vertex", "Curve", "Surface", "Volume" };
// const char* topo_names_p[] = { "Vertices", "Curves", "Surfaces", "Volumes" };
std::ostringstream buffer; // buffer output in an attempt to prevent lines from different
// processsors being mixed up.
for( int t = 0; t < 4; ++t )
{
Range geom;
int dim = t;
const void* ptr = &dim;
rval = moab.get_entities_by_type_and_tag( 0, MBENTITYSET, &geom_tag, &ptr, 1, geom );CHECK_ERR( rval );
// for each geometric entity of dimension 't'
for( Range::const_iterator i = geom.begin(); i != geom.end(); ++i )
{
EntityHandle set = *i;
int id;
rval = moab.tag_get_data( id_tag, &set, 1, &id );CHECK_ERR( rval );
buffer.clear();
// get entities contained in this set but not its children
Range entities, tmp_entities, children, diff;
rval = moab.get_entities_by_handle( set, entities );CHECK_ERR( rval );
rval = moab.get_child_meshsets( set, children );CHECK_ERR( rval );
for( Range::const_iterator j = children.begin(); j != children.end(); ++j )
{
tmp_entities.clear();
rval = moab.get_entities_by_handle( *j, tmp_entities );CHECK_ERR( rval );
diff = subtract( entities, tmp_entities );
entities.swap( diff );
}
// for each entity, check owning processors
std::vector< char > status_flags( entities.size(), 0 );
std::vector< int > shared_procs( entities.size(), 0 );
rval = moab.tag_get_data( pstatus_tag, entities, &status_flags[0] );
if( MB_TAG_NOT_FOUND == rval )
{
// keep default values of zero (not shared)
}
CHECK_ERR( rval );
unsigned num_shared = 0, num_owned = 0;
for( size_t j = 0; j < status_flags.size(); ++j )
{
num_shared += !!( status_flags[j] & PSTATUS_SHARED );
num_owned += !( status_flags[j] & PSTATUS_NOT_OWNED );
}
if( !num_shared )
{
if( list_non_shared )
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "not shared" << std::endl;
}
else if( num_shared != entities.size() )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "ERROR: " << num_shared << " of " << entities.size() << " entities marked as 'shared'"
<< std::endl;
}
else if( num_owned && num_owned != entities.size() )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "ERROR: " << num_owned << " of " << entities.size() << " entities owned by this processor"
<< std::endl;
}
else
{
rval = moab.tag_get_data( sharedp_tag, entities, &shared_procs[0] );CHECK_ERR( rval );
int proc = shared_procs[0];
bool all_match = true;
for( size_t j = 1; j < shared_procs.size(); ++j )
if( shared_procs[j] != proc ) all_match = false;
if( !all_match )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "ERROR: processsor IDs do not match!" << std::endl;
}
else if( proc != -1 )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "shared with processor " << proc;
if( num_owned ) buffer << " (owned by this processor)";
buffer << std::endl;
}
else if( entities.empty() )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "ERROR: no entities!" << std::endl;
}
else
{
Range::const_iterator j = entities.begin();
rval = moab.tag_get_data( sharedps_tag, &*j, 1, &ent_procs[0] );CHECK_ERR( rval );
for( ++j; j != entities.end(); ++j )
{
rval = moab.tag_get_data( sharedps_tag, &*j, 1, &tmp_ent_procs[0] );CHECK_ERR( rval );
if( ent_procs != tmp_ent_procs ) all_match = false;
}
if( !all_match )
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "ERROR: processsor IDs do not match!" << std::endl;
}
else
{
buffer << rank << ":\t" << topo_names_s[t] << " " << id << ":\t"
<< "processors ";
for( int k = 0; k < MAX_SHARING_PROCS; ++k )
if( ent_procs[k] != -1 ) buffer << ent_procs[k] << ", ";
if( num_owned ) buffer << " (owned by this processor)";
buffer << std::endl;
}
}
}
}
}
for( int i = 0; i < size; ++i )
{
MPI_Barrier( MPI_COMM_WORLD );
if( i == rank )
{
std::cout << buffer.str();
std::cout.flush();
}
}
}
| void save_and_load_on_root | ( | Interface & | moab, |
| const char * | tmp_filename | ||
| ) |
Definition at line 427 of file parallel_hdf5_test.cpp.
References CHECK_ERR, moab::Interface::delete_mesh(), ErrorCode, moab::ParallelComm::get_all_pcomm(), KeepTmpFiles, moab::Interface::load_file(), MB_SUCCESS, MPI_COMM_WORLD, moab::Interface::tag_delete(), moab::Interface::tag_get_tags(), moab::Interface::write_file(), and WriteDebugLevel.
Referenced by test_write_different_element_types(), test_write_different_tags(), test_write_elements(), test_write_shared_sets(), and test_write_unbalanced().
{
ErrorCode rval;
int procnum;
MPI_Comm_rank( MPI_COMM_WORLD, &procnum );
const char* opt = "PARALLEL=WRITE_PART";
std::string str;
if( WriteDebugLevel )
{
std::ostringstream s;
s << opt << ";DEBUG_IO=" << WriteDebugLevel;
str = s.str();
opt = str.c_str();
}
rval = moab.write_file( tmp_filename, 0, opt );
if( MB_SUCCESS != rval )
{
std::cerr << "Parallel write failed on processor " << procnum << std::endl;
if( procnum == 0 && !KeepTmpFiles ) remove( tmp_filename );CHECK_ERR( rval );
}
if( procnum == 0 && KeepTmpFiles ) std::cout << "Wrote file: \"" << tmp_filename << "\"\n";
// All created pcomm objects should be retrieved (with the pcomm tag) and
// deleted at this time. Otherwise, the memory used by them will be leaked
// as the pcomm tag will be deleted by moab.delete_mesh() below.
std::vector< ParallelComm* > pc_list;
ParallelComm::get_all_pcomm( &moab, pc_list );
for( std::vector< ParallelComm* >::iterator vit = pc_list.begin(); vit != pc_list.end(); ++vit )
delete *vit;
moab.delete_mesh();
std::vector< Tag > tags;
rval = moab.tag_get_tags( tags );CHECK_ERR( rval );
for( size_t i = 0; i < tags.size(); ++i )
{
rval = moab.tag_delete( tags[i] );CHECK_ERR( rval );
}
if( procnum == 0 )
{
rval = moab.load_file( tmp_filename );
if( !KeepTmpFiles ) remove( tmp_filename );CHECK_ERR( rval );
}
}
| void test_bcast_summary | ( | ) |
Definition at line 51 of file parallel_hdf5_test.cpp.
References ReadIntervals, and test_read_elements_common().
{
test_read_elements_common( false, ReadIntervals, false, "BCAST_SUMMARY=yes" );
}
| void test_read_bc_sets | ( | ) |
Definition at line 1199 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK_EQUAL, CHECK_ERR, moab::Range::clear(), create_input_file(), DefaultReadIntervals, DIRICHLET_SET_TAG_NAME, ErrorCode, moab::Interface::get_entities_by_handle(), moab::Interface::get_entities_by_type_and_tag(), get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MATERIAL_SET_TAG_NAME, MB_TYPE_INTEGER, MBENTITYSET, MPI_COMM_WORLD, NEUMANN_SET_TAG_NAME, rank, moab::Range::size(), and moab::Interface::tag_get_handle().
Referenced by main().
{
// const char tag_name[] = "test_tag_s";
const char file_name[] = "test_read_sets.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
// if root processor, create hdf5 file for use in testing
if( 0 == rank )
create_input_file( file_name, DefaultReadIntervals, numproc, 1, NULL, NULL, NULL, NULL, NULL, true );
MPI_Barrier( MPI_COMM_WORLD ); // make sure root has completed writing the file
// do parallel read unless only one processor
std::string opt = get_read_options();
rval = mb.load_file( file_name, 0, opt.c_str() );
MPI_Barrier( MPI_COMM_WORLD ); // make sure all procs complete before removing file
if( 0 == rank && !KeepTmpFiles ) remove( file_name );CHECK_ERR( rval );
Tag tag;
int num_ents[3], global_num_ents[3] = { 0, 0, 0 };
Range sets, contents;
const char* names[] = { NEUMANN_SET_TAG_NAME, DIRICHLET_SET_TAG_NAME, MATERIAL_SET_TAG_NAME };
int vints = DefaultReadIntervals + 1;
int expected_num_ents[] = { ( numproc * 4 + 2 ) * DefaultReadIntervals * DefaultReadIntervals,
( ( numproc * 4 + 2 ) * ( vints - 2 ) * ( vints - 2 ) + 12 * numproc * ( vints - 2 ) +
8 * numproc ),
numproc * DefaultReadIntervals * DefaultReadIntervals * DefaultReadIntervals };
for( int i = 0; i < 3; i++ )
{
rval = mb.tag_get_handle( names[i], 1, MB_TYPE_INTEGER, tag );CHECK_ERR( rval );
rval = mb.get_entities_by_type_and_tag( 0, MBENTITYSET, &tag, 0, 1, sets );CHECK_ERR( rval );
CHECK_EQUAL( 1, (int)sets.size() );
rval = mb.get_entities_by_handle( *sets.begin(), contents, true );CHECK_ERR( rval );
num_ents[i] = contents.size();
sets.clear();
contents.clear();
}
MPI_Reduce( num_ents, global_num_ents, 3, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD );
if( 0 == rank )
{
// std::cout << "Global:" << global_num_ents[0] << " " << global_num_ents[1] << " " <<
// global_num_ents[2] << " " << std::endl; std::cout << "Expected:" <<
// expected_num_ents[0] << " " << expected_num_ents[1] << " " << expected_num_ents[2] <<
// " " << std::endl;
for( int i = 0; i < 3; i++ )
{
CHECK_EQUAL( global_num_ents[i], expected_num_ents[i] );
}
}
}
| void test_read_elements | ( | ) |
Definition at line 43 of file parallel_hdf5_test.cpp.
References ReadIntervals, and test_read_elements_common().
{
test_read_elements_common( false, ReadIntervals, false );
}
| void test_read_elements_by_rank | ( | ) |
Definition at line 47 of file parallel_hdf5_test.cpp.
References ReadIntervals, and test_read_elements_common().
Referenced by main().
{
test_read_elements_common( true, ReadIntervals, false );
}
| void test_read_elements_common | ( | bool | by_rank, |
| int | intervals, | ||
| bool | print_time, | ||
| const char * | extra_opts = 0 |
||
| ) |
Definition at line 929 of file parallel_hdf5_test.cpp.
References CHECK_EQUAL, CHECK_ERR, CHECK_REAL_EQUAL, create_input_file(), ErrorCode, moab::Range::front(), moab::Interface::get_coords(), moab::Interface::get_entities_by_type(), moab::Interface::get_entities_by_type_and_tag(), moab::Interface::get_number_entities_by_dimension(), get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MB_TYPE_INTEGER, MBENTITYSET, MBVERTEX, MPI_COMM_WORLD, PARTITION_TAG, rank, moab::Range::size(), moab::Interface::tag_get_data(), and moab::Interface::tag_get_handle().
Referenced by test_bcast_summary(), test_read_elements(), test_read_elements_by_rank(), and test_read_summary().
{
const char* file_name = by_rank ? "test_read_rank.h5m" : "test_read.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
// if root processor, create hdf5 file for use in testing
if( 0 == rank ) create_input_file( file_name, intervals, numproc );
MPI_Barrier( MPI_COMM_WORLD ); // make sure root has completed writing the file
// do parallel read unless only one processor
std::string opt = get_read_options( by_rank, extra_opts );
rval = mb.load_file( file_name, 0, opt.c_str() );
MPI_Barrier( MPI_COMM_WORLD ); // make sure all procs complete before removing file
if( 0 == rank && !KeepTmpFiles ) remove( file_name );CHECK_ERR( rval );
Tag part_tag;
rval = mb.tag_get_handle( PARTITION_TAG, 1, MB_TYPE_INTEGER, part_tag );CHECK_ERR( rval );
Range parts;
rval = mb.get_entities_by_type_and_tag( 0, MBENTITYSET, &part_tag, 0, 1, parts );CHECK_ERR( rval );
CHECK_EQUAL( 1, (int)parts.size() );
EntityHandle part = parts.front();
int id;
rval = mb.tag_get_data( part_tag, &part, 1, &id );CHECK_ERR( rval );
if( by_rank )
{
CHECK_EQUAL( rank, id );
}
// check that all of the elements in the mesh are in the part
int npart, nall;
rval = mb.get_number_entities_by_dimension( part, 3, npart );CHECK_ERR( rval );
rval = mb.get_number_entities_by_dimension( 0, 3, nall );CHECK_ERR( rval );
CHECK_EQUAL( npart, nall );
// check that we have the correct vertices
const double x_min = intervals * rank;
const double x_max = intervals * ( rank + 1 );
Range verts;
rval = mb.get_entities_by_type( 0, MBVERTEX, verts );CHECK_ERR( rval );
std::vector< double > coords( verts.size() );
rval = mb.get_coords( verts, &coords[0], 0, 0 );CHECK_ERR( rval );
const double act_x_min = *std::min_element( coords.begin(), coords.end() );
const double act_x_max = *std::max_element( coords.begin(), coords.end() );
CHECK_REAL_EQUAL( x_min, act_x_min, DBL_EPSILON );
CHECK_REAL_EQUAL( x_max, act_x_max, DBL_EPSILON );
}
| void test_read_global_tags | ( | ) |
Definition at line 1103 of file parallel_hdf5_test.cpp.
References CHECK_EQUAL, CHECK_ERR, create_input_file(), ErrorCode, get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MB_TAG_DENSE, MB_TYPE_INTEGER, MPI_COMM_WORLD, rank, moab::Interface::tag_get_data(), moab::Interface::tag_get_default_value(), moab::Interface::tag_get_handle(), moab::Interface::tag_get_type(), and TagType.
Referenced by main().
{
const char tag_name[] = "test_tag_g";
const char file_name[] = "test_read_global_tags.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
const int def_val = 0xdeadcad;
const int global_val = -11;
// if root processor, create hdf5 file for use in testing
if( 0 == rank ) create_input_file( file_name, 1, numproc, 1, 0, 0, tag_name, &global_val, &def_val );
MPI_Barrier( MPI_COMM_WORLD ); // make sure root has completed writing the file
// do parallel read unless only one processor
std::string opt = get_read_options();
rval = mb.load_file( file_name, 0, opt.c_str() );
MPI_Barrier( MPI_COMM_WORLD ); // make sure all procs complete before removing file
if( 0 == rank && !KeepTmpFiles ) remove( file_name );CHECK_ERR( rval );
Tag tag;
rval = mb.tag_get_handle( tag_name, 1, MB_TYPE_INTEGER, tag );CHECK_ERR( rval );
TagType storage;
rval = mb.tag_get_type( tag, storage );CHECK_ERR( rval );
CHECK_EQUAL( MB_TAG_DENSE, storage );
int mesh_def_val, mesh_gbl_val;
rval = mb.tag_get_default_value( tag, &mesh_def_val );CHECK_ERR( rval );
CHECK_EQUAL( def_val, mesh_def_val );
EntityHandle root = 0;
rval = mb.tag_get_data( tag, &root, 1, &mesh_gbl_val );CHECK_ERR( rval );
CHECK_EQUAL( global_val, mesh_gbl_val );
}
| void test_read_non_adjs_side | ( | ) |
Definition at line 1572 of file parallel_hdf5_test.cpp.
References CHECK, CHECK_ERR, ErrorCode, moab::Core::load_file(), MPI_COMM_WORLD, rank, and size.
Referenced by main().
{
int err, rank, size;
ErrorCode rval;
err = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
CHECK( !err );
err = MPI_Comm_size( MPI_COMM_WORLD, &size );
CHECK( !err );
Core moab;
rval = moab.load_file( InputOneSide, 0,
"PARALLEL=READ_PART;"
"PARTITION=PARALLEL_PARTITION;"
"PARALLEL_RESOLVE_SHARED_ENTS" );CHECK_ERR( rval );
return;
}
| void test_read_sets | ( | ) |
Definition at line 64 of file parallel_hdf5_test.cpp.
References test_read_sets_common().
Referenced by main().
{
test_read_sets_common();
}
| void test_read_sets_bcast_dups | ( | ) |
Definition at line 68 of file parallel_hdf5_test.cpp.
References test_read_sets_common().
Referenced by main().
{
test_read_sets_common( "BCAST_DUPLICATE_READS=yes" );
}
| void test_read_sets_common | ( | const char * | extra_opts = 0 | ) |
Definition at line 1141 of file parallel_hdf5_test.cpp.
References moab::Range::all_of_type(), moab::Range::begin(), CHECK, CHECK_EQUAL, CHECK_ERR, CHECK_REAL_EQUAL, create_input_file(), DefaultReadIntervals, moab::Range::end(), ErrorCode, moab::Interface::get_coords(), moab::Interface::get_entities_by_handle(), moab::Interface::get_entities_by_type_and_tag(), get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MB_TAG_SPARSE, MB_TYPE_INTEGER, MBENTITYSET, MBVERTEX, MPI_COMM_WORLD, rank, moab::Range::size(), moab::Interface::tag_get_data(), moab::Interface::tag_get_handle(), moab::Interface::tag_get_type(), and TagType.
Referenced by test_read_sets(), test_read_sets_bcast_dups(), and test_read_sets_read_dups().
{
const char tag_name[] = "test_tag_s";
const char file_name[] = "test_read_sets.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
// if root processor, create hdf5 file for use in testing
if( 0 == rank ) create_input_file( file_name, DefaultReadIntervals, numproc, 1, 0, tag_name );
MPI_Barrier( MPI_COMM_WORLD ); // make sure root has completed writing the file
// do parallel read unless only one processor
std::string opt = get_read_options( extra_opts );
rval = mb.load_file( file_name, 0, opt.c_str() );
MPI_Barrier( MPI_COMM_WORLD ); // make sure all procs complete before removing file
if( 0 == rank && !KeepTmpFiles ) remove( file_name );CHECK_ERR( rval );
Tag tag;
rval = mb.tag_get_handle( tag_name, 2, MB_TYPE_INTEGER, tag );CHECK_ERR( rval );
TagType storage;
rval = mb.tag_get_type( tag, storage );CHECK_ERR( rval );
CHECK_EQUAL( MB_TAG_SPARSE, storage );
const int iv = DefaultReadIntervals + 1;
Range sets;
rval = mb.get_entities_by_type_and_tag( 0, MBENTITYSET, &tag, 0, 1, sets );CHECK_ERR( rval );
CHECK_EQUAL( ( iv * iv ), (int)sets.size() );
for( Range::iterator i = sets.begin(); i != sets.end(); ++i )
{
int ij[2];
rval = mb.tag_get_data( tag, &*i, 1, &ij );CHECK_ERR( rval );
CHECK( ij[0] >= DefaultReadIntervals * rank );
CHECK( ij[0] <= DefaultReadIntervals * ( rank + 1 ) );
CHECK( ij[1] >= 0 );
CHECK( ij[1] <= DefaultReadIntervals );
Range contents;
rval = mb.get_entities_by_handle( *i, contents );CHECK_ERR( rval );
CHECK( contents.all_of_type( MBVERTEX ) );
CHECK_EQUAL( iv, (int)contents.size() );
for( Range::iterator v = contents.begin(); v != contents.end(); ++v )
{
double coords[3];
rval = mb.get_coords( &*v, 1, coords );CHECK_ERR( rval );
CHECK_REAL_EQUAL( coords[0], (double)ij[0], 1e-100 );
CHECK_REAL_EQUAL( coords[1], (double)ij[1], 1e-100 );
}
}
}
| void test_read_sets_read_dups | ( | ) |
Definition at line 72 of file parallel_hdf5_test.cpp.
References test_read_sets_common().
Referenced by main().
{
test_read_sets_common( "BCAST_DUPLICATE_READS=no" );
}
| void test_read_summary | ( | ) |
Definition at line 55 of file parallel_hdf5_test.cpp.
References ReadIntervals, and test_read_elements_common().
{
test_read_elements_common( false, ReadIntervals, false, "BCAST_SUMMARY=no" );
}
| void test_read_tags | ( | ) |
Definition at line 1050 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK, CHECK_EQUAL, CHECK_ERR, CHECK_REAL_EQUAL, create_input_file(), DefaultReadIntervals, moab::Range::end(), ErrorCode, moab::Interface::get_coords(), moab::Interface::get_entities_by_type(), moab::Interface::get_entities_by_type_and_tag(), get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MB_TAG_DENSE, MB_TYPE_INTEGER, MBVERTEX, MPI_COMM_WORLD, rank, moab::Interface::tag_get_data(), moab::Interface::tag_get_handle(), moab::Interface::tag_get_type(), and TagType.
Referenced by main().
{
const char tag_name[] = "test_tag_xx";
const char file_name[] = "test_read_tags.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
// if root processor, create hdf5 file for use in testing
if( 0 == rank ) create_input_file( file_name, DefaultReadIntervals, numproc, 1, tag_name );
MPI_Barrier( MPI_COMM_WORLD ); // make sure root has completed writing the file
// do parallel read unless only one processor
std::string opt = get_read_options();
rval = mb.load_file( file_name, 0, opt.c_str() );
MPI_Barrier( MPI_COMM_WORLD ); // make sure all procs complete before removing file
if( 0 == rank && !KeepTmpFiles ) remove( file_name );CHECK_ERR( rval );
Tag tag;
rval = mb.tag_get_handle( tag_name, 3, MB_TYPE_INTEGER, tag );CHECK_ERR( rval );
TagType storage;
rval = mb.tag_get_type( tag, storage );CHECK_ERR( rval );
CHECK_EQUAL( MB_TAG_DENSE, storage );
Range verts, tagged;
rval = mb.get_entities_by_type( 0, MBVERTEX, verts );CHECK_ERR( rval );
rval = mb.get_entities_by_type_and_tag( 0, MBVERTEX, &tag, 0, 1, tagged );CHECK_ERR( rval );
CHECK_EQUAL( verts, tagged );
for( Range::iterator i = verts.begin(); i != verts.end(); ++i )
{
double coords[3];
rval = mb.get_coords( &*i, 1, coords );CHECK_ERR( rval );
int ijk[3];
rval = mb.tag_get_data( tag, &*i, 1, ijk );CHECK_ERR( rval );
CHECK( ijk[0] >= DefaultReadIntervals * rank );
CHECK( ijk[0] <= DefaultReadIntervals * ( rank + 1 ) );
CHECK( ijk[1] >= 0 );
CHECK( ijk[1] <= DefaultReadIntervals );
CHECK( ijk[2] >= 0 );
CHECK( ijk[2] <= DefaultReadIntervals );
CHECK_REAL_EQUAL( coords[0], (double)ijk[0], 1e-100 );
CHECK_REAL_EQUAL( coords[1], (double)ijk[1], 1e-100 );
CHECK_REAL_EQUAL( coords[2], (double)ijk[2], 1e-100 );
}
}
| void test_read_time | ( | ) |
Definition at line 983 of file parallel_hdf5_test.cpp.
References BCAST_DELETE, CHECK_ERR, create_input_file(), moab::Interface::delete_mesh(), ErrorCode, get_read_options(), KeepTmpFiles, moab::Interface::load_file(), MPI_COMM_WORLD, rank, READ_DELETE, READ_PART, ReadBlocks, and ReadIntervals.
Referenced by main().
{
const char file_name[] = "read_time.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
ErrorCode rval;
// if root processor, create hdf5 file for use in testing
if( 0 == rank ) create_input_file( file_name, ReadIntervals, numproc, ReadBlocks );
MPI_Barrier( MPI_COMM_WORLD );
// CPU Time for true paralle, wall time for true paralle,
// CPU time for read and delete, wall time for read and delete
double times[6];
clock_t tmp_t;
// Time true parallel read
Core moab;
Interface& mb = moab;
times[0] = MPI_Wtime();
tmp_t = clock();
std::string opt = get_read_options( true, READ_PART );
rval = mb.load_file( file_name, 0, opt.c_str() );CHECK_ERR( rval );
times[0] = MPI_Wtime() - times[0];
times[1] = double( clock() - tmp_t ) / CLOCKS_PER_SEC;
mb.delete_mesh();
// Time read and delete
Core moab2;
Interface& mb2 = moab2;
std::string opt2 = get_read_options( true, READ_DELETE );
times[2] = MPI_Wtime();
tmp_t = clock();
rval = mb2.load_file( file_name, 0, opt2.c_str() );CHECK_ERR( rval );
times[2] = MPI_Wtime() - times[2];
times[3] = double( clock() - tmp_t ) / CLOCKS_PER_SEC;
mb2.delete_mesh();
// Time broadcast and delete
Core moab3;
Interface& mb3 = moab3;
std::string opt3 = get_read_options( true, BCAST_DELETE );
times[4] = MPI_Wtime();
tmp_t = clock();
rval = mb3.load_file( file_name, 0, opt3.c_str() );CHECK_ERR( rval );
times[4] = MPI_Wtime() - times[4];
times[5] = double( clock() - tmp_t ) / CLOCKS_PER_SEC;
mb3.delete_mesh();
double max_times[6] = { 0, 0, 0, 0, 0, 0 }, sum_times[6] = { 0, 0, 0, 0, 0, 0 };
MPI_Reduce( times, max_times, 6, MPI_DOUBLE, MPI_MAX, 0, MPI_COMM_WORLD );
MPI_Reduce( times, sum_times, 6, MPI_DOUBLE, MPI_SUM, 0, MPI_COMM_WORLD );
MPI_Barrier( MPI_COMM_WORLD );
if( 0 == rank )
{
printf( "%12s %12s %12s %12s\n", "", "READ_PART", "READ_DELETE", "BCAST_DELETE" );
printf( "%12s %12g %12g %12g\n", "Max Wall", max_times[0], max_times[2], max_times[4] );
printf( "%12s %12g %12g %12g\n", "Total Wall", sum_times[0], sum_times[2], sum_times[4] );
printf( "%12s %12g %12g %12g\n", "Max CPU", max_times[1], max_times[3], max_times[5] );
printf( "%12s %12g %12g %12g\n", "Total CPU", sum_times[1], sum_times[3], sum_times[5] );
}
MPI_Barrier( MPI_COMM_WORLD );
if( 0 == rank && !KeepTmpFiles ) remove( file_name );
}
| void test_var_length_parallel | ( | ) |
Definition at line 668 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK, CHECK_EQUAL, CHECK_ERR, moab::Range::clear(), moab::Interface::create_vertices(), moab::Range::end(), ErrorCode, filename, moab::Interface::get_entities_by_type(), KeepTmpFiles, moab::Interface::load_mesh(), mb, MB_SUCCESS, MB_TAG_DENSE, MB_TAG_EXCL, MB_TAG_VARLEN, MB_TYPE_INTEGER, MB_VARIABLE_DATA_LENGTH, MBVERTEX, MPI_COMM_WORLD, n, PARALLEL_GID_TAG_NAME, rank, size, moab::Interface::tag_get_by_ptr(), moab::Interface::tag_get_data_type(), moab::Interface::tag_get_handle(), moab::Interface::tag_get_length(), moab::Interface::tag_get_type(), moab::Interface::tag_set_by_ptr(), tagname, TagType, moab::Interface::write_file(), WriteDebugLevel, and moab::Core::~Core().
Referenced by main().
{
Range::const_iterator i;
ErrorCode rval;
Core moab;
Interface& mb = moab;
Range verts;
Tag vartag;
const char* filename = "var-len-para.h5m";
const char* tagname = "ParVar";
// If this tag doesn't exist, writer will fail
Tag junk_tag;
mb.tag_get_handle( PARALLEL_GID_TAG_NAME, 1, MB_TYPE_INTEGER, junk_tag, MB_TAG_DENSE | MB_TAG_EXCL );
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
// Create N+1 vertices on each processor, where N is the rank
std::vector< double > coords( 3 * rank + 3, (double)rank );
rval = mb.create_vertices( &coords[0], rank + 1, verts );CHECK_ERR( rval );
// Create a var-len tag
rval = mb.tag_get_handle( tagname, 0, MB_TYPE_INTEGER, vartag, MB_TAG_DENSE | MB_TAG_VARLEN | MB_TAG_EXCL );CHECK_ERR( rval );
// Write data on each vertex:
// { n, rank, rank+1, ..., rank+n-1 } where n >= 1
std::vector< int > data;
rval = MB_SUCCESS;
for( i = verts.begin(); i != verts.end(); ++i )
{
EntityHandle h = *i;
const int n = h % 7 + 1;
data.resize( n + 1 );
data[0] = n;
for( int j = 0; j < n; ++j )
data[j + 1] = rank + j;
const int s = ( n + 1 );
const void* ptrarr[] = { &data[0] };
ErrorCode tmperr = mb.tag_set_by_ptr( vartag, &h, 1, ptrarr, &s );
if( MB_SUCCESS != tmperr ) rval = tmperr;
}
CHECK_ERR( rval );
// Write file
const char* opt = "PARALLEL=WRITE_PART";
std::string str;
if( WriteDebugLevel )
{
std::ostringstream s;
s << opt << ";DEBUG_IO=" << WriteDebugLevel;
str = s.str();
opt = str.c_str();
}
rval = mb.write_file( filename, "MOAB", opt );CHECK_ERR( rval );
// Read file. We only reset and re-read the file on the
// root processor. All other processors keep the pre-write
// mesh. This allows many of the tests to be run on all
// processors. Running the tests on the pre-write mesh on
// non-root processors allows us to verify that any problems
// are due to the file API rather than some other bug.
ErrorCode rval2 = rval = MB_SUCCESS;
if( !rank )
{
moab.~Core();
new( &moab ) Core;
rval = mb.load_mesh( filename );
if( !KeepTmpFiles ) remove( filename );
rval2 = mb.tag_get_handle( tagname, 0, MB_TYPE_INTEGER, vartag );
}
CHECK_ERR( rval );CHECK_ERR( rval2 );
// Check that tag is correct
int tag_size;
rval = mb.tag_get_length( vartag, tag_size );
CHECK_EQUAL( MB_VARIABLE_DATA_LENGTH, rval );
TagType storage;
rval = mb.tag_get_type( vartag, storage );CHECK_ERR( rval );
CHECK_EQUAL( MB_TAG_DENSE, storage );
DataType type;
rval = mb.tag_get_data_type( vartag, type );CHECK_ERR( rval );
CHECK_EQUAL( MB_TYPE_INTEGER, type );
// get vertices
verts.clear();
rval = mb.get_entities_by_type( 0, MBVERTEX, verts );CHECK_ERR( rval );
// Check consistency of tag data on each vertex
// and count the number of vertices for each rank.
std::vector< int > vtx_counts( numproc, 0 );
for( i = verts.begin(); i != verts.end(); ++i )
{
EntityHandle h = *i;
int size = -1;
const void* ptrarr[1] = { 0 };
rval = mb.tag_get_by_ptr( vartag, &h, 1, ptrarr, &size );CHECK_ERR( rval );
const int* tag_data = reinterpret_cast< const int* >( ptrarr[0] );
CHECK( size >= 2 );
CHECK( NULL != tag_data );
CHECK_EQUAL( size - 1, tag_data[0] );
CHECK( tag_data[1] >= 0 && tag_data[1] < numproc );
++vtx_counts[tag_data[1]];
for( int j = 1; j < size - 1; ++j )
CHECK_EQUAL( tag_data[1] + j, tag_data[1 + j] );
}
// Check number of vertices for each rank
for( int j = 0; j < numproc; ++j )
{
// Only root should have data for other processors.
if( rank == 0 || rank == j )
CHECK_EQUAL( j + 1, vtx_counts[j] );
else
CHECK_EQUAL( 0, vtx_counts[j] );
}
}
| void test_write_dense_tags | ( | ) |
Definition at line 1514 of file parallel_hdf5_test.cpp.
References CHECK, CHECK_ERR, ErrorCode, moab::Core::get_coords(), moab::Core::get_entities_by_dimension(), moab::Core::load_file(), MB_TAG_CREAT, MB_TAG_DENSE, MB_TYPE_DOUBLE, MPI_COMM_WORLD, rank, size, moab::Range::size(), moab::Core::tag_get_handle(), moab::Core::tag_get_type(), moab::Core::tag_set_data(), tagname, TagType, and moab::Core::write_file().
Referenced by main().
{
int err, rank, size;
ErrorCode rval;
err = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
CHECK( !err );
err = MPI_Comm_size( MPI_COMM_WORLD, &size );
CHECK( !err );
Core moab;
rval = moab.load_file( InputMix, 0,
"PARALLEL=READ_PART;"
"PARTITION=PARALLEL_PARTITION;"
"PARALLEL_RESOLVE_SHARED_ENTS" );CHECK_ERR( rval );
// create an dense tag, on all elements, then write the output in parallel
// load the file again, and test the type of the tag
Range elems;
moab.get_entities_by_dimension( 0, 2, elems );
const char* tagname = "element_tag";
const double defVal = 0.;
Tag fieldTag;
rval = moab.tag_get_handle( tagname, 1, MB_TYPE_DOUBLE, fieldTag, MB_TAG_DENSE | MB_TAG_CREAT, &defVal );CHECK_ERR( rval );
int numElems = (int)elems.size();
for( int i = 0; i < numElems; i++ )
{
EntityHandle elem = elems[i];
double xyz[3];
moab.get_coords( &elem, 1, xyz );
// some value
double fieldValue = sqrt( xyz[0] * xyz[0] + xyz[1] * xyz[1] + xyz[2] * xyz[2] );
moab.tag_set_data( fieldTag, &elem, 1, &fieldValue );
}
// write the file in parallel
rval = moab.write_file( "newfile.h5m", 0, "PARALLEL=WRITE_PART" );CHECK_ERR( rval );
// now read the new file, in a new instance, and test the tag type
Core moab2;
rval = moab2.load_file( "newfile.h5m", 0,
"PARALLEL=READ_PART;"
"PARTITION=PARALLEL_PARTITION;"
"PARALLEL_RESOLVE_SHARED_ENTS" );CHECK_ERR( rval );
// find the element tag
Tag found_tag;
rval = moab2.tag_get_handle( tagname, 1, MB_TYPE_DOUBLE, found_tag );CHECK_ERR( rval );
TagType tagt;
rval = moab2.tag_get_type( found_tag, tagt );CHECK_ERR( rval );
CHECK( tagt == MB_TAG_DENSE );
}
| void test_write_different_element_types | ( | ) |
Definition at line 1257 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK_EQUAL, CHECK_ERR, conn, moab::Interface::create_element(), moab::Interface::create_vertex(), moab::Range::end(), ErrorCode, moab::Interface::get_connectivity(), moab::Interface::get_entities_by_type(), MBEDGE, MBHEX, MBPRISM, MBPYRAMID, MBQUAD, MBTET, MBTRI, MPI_COMM_WORLD, rank, and save_and_load_on_root().
Referenced by main().
{
const char file_name[] = "test_write_different_element_types.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
const EntityType topos[] = { MBEDGE, MBEDGE, MBQUAD, MBTRI, MBQUAD, MBTRI,
MBTET, MBHEX, MBPRISM, MBPYRAMID, MBHEX, MBHEX };
const int verts[] = { 2, 3, 4, 3, 9, 6, 4, 8, 6, 5, 20, 27 };
const int ntypes = sizeof( topos ) / sizeof( topos[0] );
const EntityType mtype = topos[rank % ntypes];
const int nvert = verts[rank % ntypes];
std::vector< EntityHandle > conn( nvert );
for( int i = 0; i < nvert; ++i )
{
const double coords[] = { static_cast< double >( rank ), static_cast< double >( i ), 0 };
rval = mb.create_vertex( coords, conn[i] );CHECK_ERR( rval );
}
EntityHandle handle;
rval = mb.create_element( mtype, &conn[0], nvert, handle );CHECK_ERR( rval );
save_and_load_on_root( mb, file_name );
if( rank ) return;
for( int i = 0; i < ntypes; ++i )
{
const int num_exp = numproc / ntypes + ( i < ( numproc % ntypes ) ? 1 : 0 );
Range ents;
rval = mb.get_entities_by_type( 0, topos[i], ents );CHECK_ERR( rval );
int num = 0;
for( Range::iterator e = ents.begin(); e != ents.end(); ++e )
{
const EntityHandle* junk;
int len;
rval = mb.get_connectivity( *e, junk, len, false );
if( len == verts[i] ) ++num;
}
CHECK_EQUAL( num_exp, num );
}
}
| void test_write_different_tags | ( | ) |
Definition at line 1348 of file parallel_hdf5_test.cpp.
References get_tag(), MPI_COMM_WORLD, rank, and save_and_load_on_root().
Referenced by main().
{
const char file_name[] = "test_write_different_tags.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
const int min_tags = 8;
get_tag( mb, rank, true );
for( int idx = rank + numproc; idx < min_tags; idx += numproc )
get_tag( mb, idx, true );
save_and_load_on_root( mb, file_name );
if( 0 == rank )
{
for( int i = 0; i < std::max( min_tags, numproc ); ++i )
get_tag( mb, i, false );
}
}
| void test_write_elements | ( | ) |
Definition at line 551 of file parallel_hdf5_test.cpp.
References CHECK, CHECK_ERR, check_identical_mesh(), count_owned_entities(), moab::CN::EntityTypeName(), ErrorCode, moab::Interface::get_number_entities_by_type(), load_and_partition(), moab::Core::load_file(), MBENTITYSET, MBVERTEX, MPI_COMM_WORLD, rank, save_and_load_on_root(), t, and u.
Referenced by main().
{
int proc_counts[MBENTITYSET], all_counts[MBENTITYSET], file_counts[MBENTITYSET];
int err, rank;
ErrorCode rval;
err = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
CHECK( !err );
// load and partition a .cub file
Core moab_instance;
Interface& moab = moab_instance;
load_and_partition( moab, InputFile, false );
// count number of owned entities of each type and sum over all procs
count_owned_entities( moab, proc_counts );
std::fill( all_counts, all_counts + MBENTITYSET, 0u );
err = MPI_Allreduce( proc_counts, all_counts, MBENTITYSET, MPI_INT, MPI_SUM, MPI_COMM_WORLD );
CHECK( !err );
// do parallel write and on root proc do serial read of written file
save_and_load_on_root( moab, "test_write_elements.h5m" );
if( rank == 0 )
{
for( EntityType t = MBVERTEX; t < MBENTITYSET; ++t )
{
rval = moab.get_number_entities_by_type( 0, t, file_counts[t] );CHECK_ERR( rval );
}
}
// check that sum of owned entities equals number of entities from serial read
err = MPI_Bcast( file_counts, MBENTITYSET, MPI_INT, 0, MPI_COMM_WORLD );
CHECK( !err );
bool all_equal = true;
for( EntityType t = MBVERTEX; t < MBENTITYSET; ++t )
if( file_counts[t] != all_counts[t] ) all_equal = false;
if( rank == 0 && !all_equal )
{
std::cerr << "Type\tPartnd\tWritten" << std::endl;
for( EntityType t = MBVERTEX; t < MBENTITYSET; ++t )
std::cerr << CN::EntityTypeName( t ) << '\t' << all_counts[t] << '\t' << file_counts[t] << std::endl;
}
CHECK( all_equal );
// on root processor, do serial read of original .cub file and compare
if( rank == 0 )
{
Core moab2;
rval = moab2.load_file( InputFile );CHECK_ERR( rval );
check_identical_mesh( moab, moab2 );
}
}
| void test_write_polygons | ( | ) |
| void test_write_shared_sets | ( | ) |
Definition at line 627 of file parallel_hdf5_test.cpp.
References moab::Range::begin(), CHECK, CHECK_EQUAL, CHECK_ERR, check_sets_sizes(), moab::Range::end(), ErrorCode, moab::Range::front(), moab::Interface::get_entities_by_type_and_tag(), load_and_partition(), moab::Interface::load_file(), MATERIAL_SET_TAG_NAME, MB_TYPE_INTEGER, MBENTITYSET, MPI_COMM_WORLD, rank, save_and_load_on_root(), size, moab::Range::size(), moab::Interface::tag_get_data(), and moab::Interface::tag_get_handle().
Referenced by main().
{
int err, rank, size;
ErrorCode rval;
err = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
CHECK( !err );
err = MPI_Comm_size( MPI_COMM_WORLD, &size );
CHECK( !err );
Core moab_instance;
Interface& moab = moab_instance;
load_and_partition( moab, InputFile );
save_and_load_on_root( moab, "test_write_shared_sets.h5m" );
if( rank != 0 ) return;
Core moab2_instance;
Interface& moab2 = moab2_instance;
rval = moab2.load_file( InputFile );CHECK_ERR( rval );
Tag mattag1, mattag2;
rval = moab.tag_get_handle( MATERIAL_SET_TAG_NAME, 1, MB_TYPE_INTEGER, mattag1 );CHECK_ERR( rval );
rval = moab2.tag_get_handle( MATERIAL_SET_TAG_NAME, 1, MB_TYPE_INTEGER, mattag2 );CHECK_ERR( rval );
Range matsets;
rval = moab2.get_entities_by_type_and_tag( 0, MBENTITYSET, &mattag2, 0, 1, matsets );CHECK_ERR( rval );
for( Range::iterator i = matsets.begin(); i != matsets.end(); ++i )
{
int block_id;
rval = moab2.tag_get_data( mattag2, &*i, 1, &block_id );CHECK_ERR( rval );
Range tmpents;
void* tagdata[] = { &block_id };
rval = moab.get_entities_by_type_and_tag( 0, MBENTITYSET, &mattag1, tagdata, 1, tmpents );
if( tmpents.size() != 1 ) std::cerr << tmpents.size() << " sets with material set id " << block_id << std::endl;
CHECK_EQUAL( (int)tmpents.size(), 1 );
CHECK( check_sets_sizes( moab2, *i, moab, tmpents.front() ) );
}
}
| void test_write_unbalanced | ( | ) |
Definition at line 1437 of file parallel_hdf5_test.cpp.
References moab::Interface::add_entities(), CHECK_EQUAL, CHECK_ERR, moab::Range::clear(), conn, moab::Interface::create_element(), moab::Interface::create_meshset(), moab::Interface::create_vertex(), entities, ErrorCode, moab::Range::front(), moab::Interface::get_entities_by_handle(), moab::Interface::get_entities_by_type(), moab::Interface::get_entities_by_type_and_tag(), moab::ParallelComm::get_pcomm(), GLOBAL_ID_TAG_NAME, moab::Interface::globalId_tag(), moab::Range::insert(), MB_TYPE_INTEGER, MBENTITYSET, MBQUAD, MBVERTEX, MESHSET_SET, MPI_COMM_WORLD, rank, moab::ParallelComm::resolve_shared_ents(), moab::ParallelComm::resolve_shared_sets(), save_and_load_on_root(), moab::Range::size(), moab::Interface::tag_get_handle(), and moab::Interface::tag_set_data().
Referenced by main().
{
const char file_name[] = "test_write_unbalanced.h5m";
int numproc, rank;
MPI_Comm_size( MPI_COMM_WORLD, &numproc );
MPI_Comm_rank( MPI_COMM_WORLD, &rank );
Core moab;
Interface& mb = moab;
ErrorCode rval;
Tag idtag = mb.globalId_tag();
// create a shared set
const int two = 2;
Range entities, sets;
EntityHandle set;
rval = mb.create_meshset( MESHSET_SET, set );CHECK_ERR( rval );
rval = mb.tag_set_data( idtag, &set, 1, &two );CHECK_ERR( rval );
sets.insert( set );
// create a quad on every odd processor
if( rank % 2 )
{
const double coords[4][3] = { { static_cast< double >( rank ), 0, 0 },
{ static_cast< double >( rank + 2 ), 0, 0 },
{ static_cast< double >( rank + 2 ), 2, 0 },
{ static_cast< double >( rank ), 2, 0 } };
EntityHandle conn[4], quad;
for( int i = 0; i < 4; ++i )
mb.create_vertex( coords[i], conn[i] );
mb.create_element( MBQUAD, conn, 4, quad );
const int ids[4] = { rank, rank + 2, rank + 3, rank + 1 };
rval = mb.tag_set_data( idtag, conn, 4, ids );CHECK_ERR( rval );
rval = mb.add_entities( set, &quad, 1 );CHECK_ERR( rval );
entities.insert( quad );
}
// set up sharing data
ParallelComm* pcomm = ParallelComm::get_pcomm( &mb, 0 );
if( 0 == pcomm ) pcomm = new ParallelComm( &mb, MPI_COMM_WORLD );
rval = pcomm->resolve_shared_ents( 0, entities, 2, 0, NULL, &idtag );CHECK_ERR( rval );
rval = pcomm->resolve_shared_sets( sets, idtag );CHECK_ERR( rval );
// do parallel write and serial load
save_and_load_on_root( mb, file_name );
if( rank != 0 ) return;
// check that we got what we expected
Range quads, verts;
rval = mb.get_entities_by_type( 0, MBQUAD, quads );CHECK_ERR( rval );
rval = mb.get_entities_by_type( 0, MBVERTEX, verts );CHECK_ERR( rval );
const size_t nquads = numproc / 2;
const size_t nverts = nquads ? 2 + 2 * nquads : 0;
CHECK_EQUAL( nquads, quads.size() );
CHECK_EQUAL( nverts, verts.size() );
rval = mb.tag_get_handle( GLOBAL_ID_TAG_NAME, 1, MB_TYPE_INTEGER, idtag );CHECK_ERR( rval );
sets.clear();
const void* vals[] = { &two };
rval = mb.get_entities_by_type_and_tag( 0, MBENTITYSET, &idtag, vals, 1, sets );CHECK_ERR( rval );
CHECK_EQUAL( (size_t)1, sets.size() );
entities.clear();
rval = mb.get_entities_by_handle( sets.front(), entities );CHECK_ERR( rval );
CHECK_EQUAL( nquads, entities.size() );
CHECK_EQUAL( quads, entities );
}
| const bool DEFAULT_BY_RANK = false |
Definition at line 102 of file parallel_hdf5_test.cpp.
Referenced by get_read_options().
| const Mode DEFAULT_MODE = READ_PART |
Definition at line 101 of file parallel_hdf5_test.cpp.
Referenced by defstr(), get_read_options(), and main().
| const int DefaultReadIntervals = 2 |
Definition at line 90 of file parallel_hdf5_test.cpp.
Referenced by main(), test_read_bc_sets(), test_read_sets_common(), and test_read_tags().
| bool HyperslabAppend = false |
Definition at line 89 of file parallel_hdf5_test.cpp.
Referenced by get_read_options(), and main().
| bool KeepTmpFiles = false |
Definition at line 87 of file parallel_hdf5_test.cpp.
Referenced by main(), save_and_load_on_root(), test_read_bc_sets(), test_read_elements_common(), test_read_global_tags(), test_read_sets_common(), test_read_tags(), test_read_time(), and test_var_length_parallel().
| const char PARTITION_TAG[] = "PARTITION" |
Definition at line 85 of file parallel_hdf5_test.cpp.
Referenced by create_input_file(), get_read_options(), and test_read_elements_common().
| bool PauseOnStart = false |
Definition at line 88 of file parallel_hdf5_test.cpp.
Referenced by main().
| int ReadBlocks = 1 |
Definition at line 93 of file parallel_hdf5_test.cpp.
Referenced by main(), and test_read_time().
| int ReadDebugLevel = 0 |
Definition at line 91 of file parallel_hdf5_test.cpp.
Referenced by get_read_options(), and main().
| int ReadIntervals = 0 |
Definition at line 42 of file parallel_hdf5_test.cpp.
Referenced by main(), test_bcast_summary(), test_read_elements(), test_read_elements_by_rank(), test_read_summary(), and test_read_time().
| int WriteDebugLevel = 0 |
Definition at line 92 of file parallel_hdf5_test.cpp.
Referenced by main(), save_and_load_on_root(), and test_var_length_parallel().
1.7.6.1