Move tests. Most of the checking are now disabled, only the performance one
are still active. This commit was SVN r9762.
Этот коммит содержится в:
родитель
ced5d564cf
Коммит
faba013106
@ -43,6 +43,22 @@ mpicc -DHAVE_CONFIG_H -I. -I../../include -I../../../ompi-trunk/include -I../..
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static uint32_t outputFlags = CHECK_PACK_UNPACK;
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uint32_t remote_arch;
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/**
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* Cache cleanup.
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*/
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#define CACHE_SIZE (2*1024*1024)
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void cache_trash( void )
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{
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char* buffer;
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buffer = (char*)malloc( sizeof(char) * CACHE_SIZE );
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memset( buffer, 1, CACHE_SIZE );
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free( buffer );
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}
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/**
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* Data-type functions.
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*/
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ompi_datatype_t* create_inversed_vector( ompi_datatype_t* type, int length )
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{
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ompi_datatype_t* type1;
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@ -731,6 +747,8 @@ int local_copy_ddt_count( ompi_datatype_t* pdt, int count )
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pdst = malloc( extent * count );
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psrc = malloc( extent * count );
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cache_trash(); /* make sure the cache is useless */
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GET_TIME( start );
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if( OMPI_SUCCESS != ompi_ddt_copy_content_same_ddt( pdt, count, pdst, psrc ) ) {
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printf( "Unable to copy the datatype in the function local_copy_ddt_count."
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@ -751,7 +769,7 @@ int local_copy_with_convertor_2datatypes( ompi_datatype_t* send_type, int send_c
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{
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long send_extent, recv_extent;
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void *pdst = NULL, *psrc = NULL, *ptemp = NULL;
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ompi_convertor_t *pSendConvertor = NULL, *pRecvConvertor = NULL;
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ompi_convertor_t *send_convertor = NULL, *recv_convertor = NULL;
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struct iovec iov;
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uint32_t iov_count;
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size_t max_data;
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@ -774,22 +792,26 @@ int local_copy_with_convertor_2datatypes( ompi_datatype_t* send_type, int send_c
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}
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memset( pdst, 0, recv_count * recv_extent );
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pSendConvertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_send( pSendConvertor, send_type, send_count, psrc ) ) {
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send_convertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_send( send_convertor, send_type, send_count, psrc ) ) {
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printf( "Unable to create the send convertor. Is the datatype committed ?\n" );
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goto clean_and_return;
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}
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pRecvConvertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_recv( pRecvConvertor, recv_type, recv_count, pdst ) ) {
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recv_convertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_recv( recv_convertor, recv_type, recv_count, pdst ) ) {
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printf( "Unable to create the recv convertor. Is the datatype committed ?\n" );
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goto clean_and_return;
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}
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cache_trash(); /* make sure the cache is useless */
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GET_TIME( start );
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while( (done1 & done2) != 1 ) {
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/* They are supposed to finish in exactly the same time. */
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if( done1 | done2 ) {
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printf( "WRONG !!! the send is %d but the receive is %d\n", done1, done2 );
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printf( "WRONG !!! the send is %s but the receive is %s\n",
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(done1 ? "finish" : "not finish"),
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(done2 ? "finish" : "not finish") );
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}
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max_data = chunk;
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@ -798,19 +820,13 @@ int local_copy_with_convertor_2datatypes( ompi_datatype_t* send_type, int send_c
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iov.iov_len = chunk;
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if( done1 == 0 ) {
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done1 = ompi_convertor_pack( pSendConvertor, &iov, &iov_count, &max_data, &free_after );
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done1 = ompi_convertor_pack( send_convertor, &iov, &iov_count, &max_data, &free_after );
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assert( free_after == 0 );
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if( 1 == done1 ) {
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printf( "pack finished\n" );
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}
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}
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if( done2 == 0 ) {
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done2 = ompi_convertor_unpack( pRecvConvertor, &iov, &iov_count, &max_data, &free_after );
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done2 = ompi_convertor_unpack( recv_convertor, &iov, &iov_count, &max_data, &free_after );
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assert( free_after == 0 );
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if( 1 == done2 ) {
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printf( "unpack finished\n" );
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}
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}
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length += max_data;
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@ -819,11 +835,11 @@ int local_copy_with_convertor_2datatypes( ompi_datatype_t* send_type, int send_c
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total_time = ELAPSED_TIME( start, end );
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printf( "unpacking different data-types using convertors in %ld microsec\n", total_time );
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clean_and_return:
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if( pSendConvertor != NULL ) {
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OBJ_RELEASE( pSendConvertor ); assert( pSendConvertor == NULL );
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if( send_convertor != NULL ) {
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OBJ_RELEASE( send_convertor ); assert( send_convertor == NULL );
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}
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if( pRecvConvertor != NULL ) {
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OBJ_RELEASE( pRecvConvertor ); assert( pRecvConvertor == NULL );
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if( recv_convertor != NULL ) {
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OBJ_RELEASE( recv_convertor ); assert( recv_convertor == NULL );
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}
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if( NULL != pdst ) free( pdst );
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if( NULL != psrc ) free( psrc );
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@ -850,18 +866,19 @@ int local_copy_with_convertor( ompi_datatype_t* pdt, int count, int chunk )
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ptemp = malloc( chunk );
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send_convertor = ompi_convertor_create( remote_arch, 0 );
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recv_convertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_send( send_convertor, pdt, count, psrc ) ) {
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printf( "Unable to create the send convertor. Is the datatype committed ?\n" );
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goto clean_and_return;
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}
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recv_convertor = ompi_convertor_create( remote_arch, 0 );
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if( OMPI_SUCCESS != ompi_convertor_prepare_for_recv( recv_convertor, pdt, count, pdst ) ) {
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printf( "Unable to create the recv convertor. Is the datatype committed ?\n" );
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goto clean_and_return;
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}
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cache_trash(); /* make sure the cache is useless */
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GET_TIME( start );
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while( (done1 & done2) != 1 ) {
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/* They are supposed to finish in exactly the same time. */
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@ -879,17 +896,11 @@ int local_copy_with_convertor( ompi_datatype_t* pdt, int count, int chunk )
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if( done1 == 0 ) {
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done1 = ompi_convertor_pack( send_convertor, &iov, &iov_count, &max_data, &free_after );
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assert( free_after == 0 );
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if( 1 == done1 ) {
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printf( "pack finished\n" );
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}
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}
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if( done2 == 0 ) {
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done2 = ompi_convertor_unpack( recv_convertor, &iov, &iov_count, &max_data, &free_after );
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assert( free_after == 0 );
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if( 1 == done2 ) {
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printf( "unpack finished\n" );
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}
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}
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length += max_data;
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@ -926,156 +937,186 @@ int main( int argc, char* argv[] )
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* By default simulate homogeneous architectures.
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*/
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remote_arch = ompi_mpi_local_arch;
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printf( "\n\n/*\n * TEST INVERSED VECTOR\n */\n\n" );
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pdt = create_inversed_vector( &ompi_mpi_int, 10 );
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 100);
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local_copy_with_convertor(pdt, 100, 956);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n/*\n * TEST STRANGE DATATYPE\n */\n\n" );
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pdt = create_strange_dt();
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor(pdt, 1, 956);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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/*
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printf( "\n\n#\n * TEST INVERSED VECTOR\n #\n\n" );
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pdt = create_inversed_vector( &ompi_mpi_int, 10 );
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 100);
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local_copy_with_convertor(pdt, 100, 956);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n#\n * TEST STRANGE DATATYPE\n #\n\n" );
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pdt = create_strange_dt();
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor(pdt, 1, 956);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n/*\n * TEST UPPER TRIANGULAR MATRIX (size 100)\n */\n\n" );
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pdt = upper_matrix(100);
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor(pdt, 1, 48);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n#\n * TEST UPPER TRIANGULAR MATRIX (size 100)\n #\n\n" );
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pdt = upper_matrix(100);
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor(pdt, 1, 48);
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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mpich_typeub();
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mpich_typeub2();
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mpich_typeub3();
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mpich_typeub();
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mpich_typeub2();
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mpich_typeub3();
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printf( "\n\n/*\n * TEST UPPER MATRIX\n */\n\n" );
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rc = test_upper( length );
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if( rc == 0 )
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printf( "decode [PASSED]\n" );
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else
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printf( "decode [NOT PASSED]\n" );
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printf( "\n\n#\n * TEST UPPER MATRIX\n #\n\n" );
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rc = test_upper( length );
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if( rc == 0 )
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printf( "decode [PASSED]\n" );
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else
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printf( "decode [NOT PASSED]\n" );
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printf( "\n\n/*\n * TEST MATRIX BORDERS\n */\n\n" );
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pdt = test_matrix_borders( length, 100 );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt );
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n#\n * TEST MATRIX BORDERS\n #\n\n" );
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pdt = test_matrix_borders( length, 100 );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt );
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}
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n/*\n * TEST CONTIGUOUS\n */\n\n" );
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pdt = test_contiguous();
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n/*\n * TEST STRUCT\n */\n\n" );
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pdt = test_struct();
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n#\n * TEST CONTIGUOUS\n #\n\n" );
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pdt = test_contiguous();
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "\n\n#\n * TEST STRUCT\n #\n\n" );
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pdt = test_struct();
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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pdt1 = ompi_ddt_create( -1 );
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pdt2 = ompi_ddt_create( -1 );
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pdt3 = ompi_ddt_create( -1 );
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ompi_ddt_add( pdt3, ompi_ddt_basicDatatypes[DT_INT], 10, 0, -1 );
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ompi_ddt_add( pdt3, ompi_ddt_basicDatatypes[DT_FLOAT], 5, 10 * sizeof(int), -1 );
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pdt1 = ompi_ddt_create( -1 );
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pdt2 = ompi_ddt_create( -1 );
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pdt3 = ompi_ddt_create( -1 );
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ompi_ddt_add( pdt3, ompi_ddt_basicDatatypes[DT_INT], 10, 0, -1 );
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ompi_ddt_add( pdt3, ompi_ddt_basicDatatypes[DT_FLOAT], 5, 10 * sizeof(int), -1 );
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ompi_ddt_add( pdt2, ompi_ddt_basicDatatypes[DT_INT], 1, 0, -1 );
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ompi_ddt_add( pdt2, pdt3, 3, sizeof(int) * 1, -1 );
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ompi_ddt_add( pdt2, ompi_ddt_basicDatatypes[DT_INT], 1, 0, -1 );
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ompi_ddt_add( pdt2, pdt3, 3, sizeof(int) * 1, -1 );
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ompi_ddt_add( pdt1, ompi_ddt_basicDatatypes[DT_LONG_LONG_INT], 5, 0, -1 );
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ompi_ddt_add( pdt1, ompi_ddt_basicDatatypes[DT_LONG_DOUBLE], 2, sizeof(long long) * 5, -1 );
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ompi_ddt_add( pdt1, ompi_ddt_basicDatatypes[DT_LONG_LONG_INT], 5, 0, -1 );
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ompi_ddt_add( pdt1, ompi_ddt_basicDatatypes[DT_LONG_DOUBLE], 2, sizeof(long long) * 5, -1 );
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt1 );
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}
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt2 );
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}
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt3 );
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}
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OBJ_RELEASE( pdt1 ); assert( pdt1 == NULL );
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OBJ_RELEASE( pdt2 ); assert( pdt2 == NULL );
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OBJ_RELEASE( pdt3 ); assert( pdt3 == NULL );
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt1 );
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}
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt2 );
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}
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printf( ">>--------------------------------------------<<\n" );
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if( outputFlags & DUMP_DATA_AFTER_COMMIT ) {
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ompi_ddt_dump( pdt3 );
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}
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OBJ_RELEASE( pdt1 ); assert( pdt1 == NULL );
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OBJ_RELEASE( pdt2 ); assert( pdt2 == NULL );
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OBJ_RELEASE( pdt3 ); assert( pdt3 == NULL );
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*/
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printf( ">>--------------------------------------------<<\n" );
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printf( " Contiguous data-type (MPI_DOUBLE)\n" );
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pdt = MPI_DOUBLE;
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 4500);
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local_copy_with_convertor( pdt, 4500, 12 );
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local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
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local_copy_ddt_count(pdt, 4500);
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local_copy_with_convertor( pdt, 4500, 12 );
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local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
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}
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printf( ">>--------------------------------------------<<\n" );
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printf( ">>--------------------------------------------<<\n" );
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printf( "Contiguous multiple data-type\n" );
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pdt = create_contiguous_type( MPI_DOUBLE, 4500 );
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if( outputFlags & CHECK_PACK_UNPACK ) {
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor( pdt, 1, 12 );
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local_copy_with_convertor_2datatypes( pdt, 1, pdt, 1, 12 );
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printf( "Contiguous multiple data-type (4500*1)\n" );
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pdt = create_contiguous_type( MPI_DOUBLE, 4500 );
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local_copy_ddt_count(pdt, 1);
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local_copy_with_convertor( pdt, 1, 12 );
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local_copy_with_convertor_2datatypes( pdt, 1, pdt, 1, 12 );
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "Contiguous multiple data-type (450*10)\n" );
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pdt = create_contiguous_type( MPI_DOUBLE, 450 );
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local_copy_ddt_count(pdt, 10);
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local_copy_with_convertor( pdt, 10, 12 );
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local_copy_with_convertor_2datatypes( pdt, 10, pdt, 10, 12 );
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "Contiguous multiple data-type (45*100)\n" );
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pdt = create_contiguous_type( MPI_DOUBLE, 45 );
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local_copy_ddt_count(pdt, 100);
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local_copy_with_convertor( pdt, 100, 12 );
|
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local_copy_with_convertor_2datatypes( pdt, 100, pdt, 100, 12 );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "Contiguous multiple data-type (100*45)\n" );
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pdt = create_contiguous_type( MPI_DOUBLE, 100 );
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local_copy_ddt_count(pdt, 45);
|
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local_copy_with_convertor( pdt, 45, 12 );
|
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local_copy_with_convertor_2datatypes( pdt, 45, pdt, 45, 12 );
|
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
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printf( "Contiguous multiple data-type (10*450)\n" );
|
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pdt = create_contiguous_type( MPI_DOUBLE, 10 );
|
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local_copy_ddt_count(pdt, 450);
|
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local_copy_with_convertor( pdt, 450, 12 );
|
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local_copy_with_convertor_2datatypes( pdt, 450, pdt, 450, 12 );
|
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
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printf( "Contiguous multiple data-type (1*4500)\n" );
|
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pdt = create_contiguous_type( MPI_DOUBLE, 1 );
|
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local_copy_ddt_count(pdt, 4500);
|
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local_copy_with_convertor( pdt, 4500, 12 );
|
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local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
|
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OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
/*
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
printf( "Vector data-type\n" );
|
||||
pdt = create_vector_type( MPI_DOUBLE, 450, 10, 11 );
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 1);
|
||||
local_copy_with_convertor( pdt, 1, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 1, pdt, 1, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
printf( "Vector data-type\n" );
|
||||
pdt = create_vector_type( MPI_DOUBLE, 450, 10, 11 );
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 1);
|
||||
local_copy_with_convertor( pdt, 1, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 1, pdt, 1, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_struct_char_double();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_struct_char_double();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_create_twice_two_doubles();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_create_twice_two_doubles();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 12 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 12 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_create_blacs_type();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 956 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 956 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt1 = test_create_blacs_type1( &ompi_mpi_int );
|
||||
pdt2 = test_create_blacs_type2( &ompi_mpi_int );
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_with_convertor_2datatypes( pdt1, 1, pdt2, 1, 100 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt1 ); assert( pdt1 == NULL );
|
||||
OBJ_RELEASE( pdt2 ); assert( pdt2 == NULL );
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt = test_create_blacs_type();
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_ddt_count(pdt, 4500);
|
||||
local_copy_with_convertor( pdt, 4500, 956 );
|
||||
local_copy_with_convertor_2datatypes( pdt, 4500, pdt, 4500, 956 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt ); assert( pdt == NULL );
|
||||
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
pdt1 = test_create_blacs_type1( &ompi_mpi_int );
|
||||
pdt2 = test_create_blacs_type2( &ompi_mpi_int );
|
||||
if( outputFlags & CHECK_PACK_UNPACK ) {
|
||||
local_copy_with_convertor_2datatypes( pdt1, 1, pdt2, 1, 100 );
|
||||
}
|
||||
printf( ">>--------------------------------------------<<\n" );
|
||||
OBJ_RELEASE( pdt1 ); assert( pdt1 == NULL );
|
||||
OBJ_RELEASE( pdt2 ); assert( pdt2 == NULL );
|
||||
*/
|
||||
/* clean-ups all data allocations */
|
||||
ompi_ddt_finalize();
|
||||
|
||||
|
Загрузка…
Ссылка в новой задаче
Block a user