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|
/*
* kmp_ftn_entry.h -- Fortran entry linkage support for OpenMP.
*/
//===----------------------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.txt for details.
//
//===----------------------------------------------------------------------===//
#ifndef FTN_STDCALL
# error The support file kmp_ftn_entry.h should not be compiled by itself.
#endif
#ifdef KMP_STUB
#include "kmp_stub.h"
#endif
#include "kmp_i18n.h"
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
/*
* For compatibility with the Gnu/MS Open MP codegen, omp_set_num_threads(),
* omp_set_nested(), and omp_set_dynamic() [in lowercase on MS, and w/o
* a trailing underscore on Linux* OS] take call by value integer arguments.
* + omp_set_max_active_levels()
* + omp_set_schedule()
*
* For backward compatibility with 9.1 and previous Intel compiler, these
* entry points take call by reference integer arguments.
*/
#ifdef KMP_GOMP_COMPAT
# if (KMP_FTN_ENTRIES == KMP_FTN_PLAIN) || (KMP_FTN_ENTRIES == KMP_FTN_UPPER)
# define PASS_ARGS_BY_VALUE 1
# endif
#endif
#if KMP_OS_WINDOWS
# if (KMP_FTN_ENTRIES == KMP_FTN_PLAIN) || (KMP_FTN_ENTRIES == KMP_FTN_APPEND)
# define PASS_ARGS_BY_VALUE 1
# endif
#endif
// This macro helps to reduce code duplication.
#ifdef PASS_ARGS_BY_VALUE
#define KMP_DEREF
#else
#define KMP_DEREF *
#endif
void FTN_STDCALL
FTN_SET_STACKSIZE( int KMP_DEREF arg )
{
#ifdef KMP_STUB
__kmps_set_stacksize( KMP_DEREF arg );
#else
// __kmp_aux_set_stacksize initializes the library if needed
__kmp_aux_set_stacksize( (size_t) KMP_DEREF arg );
#endif
}
void FTN_STDCALL
FTN_SET_STACKSIZE_S( size_t KMP_DEREF arg )
{
#ifdef KMP_STUB
__kmps_set_stacksize( KMP_DEREF arg );
#else
// __kmp_aux_set_stacksize initializes the library if needed
__kmp_aux_set_stacksize( KMP_DEREF arg );
#endif
}
int FTN_STDCALL
FTN_GET_STACKSIZE( void )
{
#ifdef KMP_STUB
return __kmps_get_stacksize();
#else
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
};
return (int)__kmp_stksize;
#endif
}
size_t FTN_STDCALL
FTN_GET_STACKSIZE_S( void )
{
#ifdef KMP_STUB
return __kmps_get_stacksize();
#else
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
};
return __kmp_stksize;
#endif
}
void FTN_STDCALL
FTN_SET_BLOCKTIME( int KMP_DEREF arg )
{
#ifdef KMP_STUB
__kmps_set_blocktime( KMP_DEREF arg );
#else
int gtid, tid;
kmp_info_t *thread;
gtid = __kmp_entry_gtid();
tid = __kmp_tid_from_gtid(gtid);
thread = __kmp_thread_from_gtid(gtid);
__kmp_aux_set_blocktime( KMP_DEREF arg, thread, tid );
#endif
}
int FTN_STDCALL
FTN_GET_BLOCKTIME( void )
{
#ifdef KMP_STUB
return __kmps_get_blocktime();
#else
int gtid, tid;
kmp_info_t *thread;
kmp_team_p *team;
gtid = __kmp_entry_gtid();
tid = __kmp_tid_from_gtid(gtid);
thread = __kmp_thread_from_gtid(gtid);
team = __kmp_threads[ gtid ] -> th.th_team;
/* These must match the settings used in __kmp_wait_sleep() */
if ( __kmp_dflt_blocktime == KMP_MAX_BLOCKTIME ) {
KF_TRACE(10, ( "kmp_get_blocktime: T#%d(%d:%d), blocktime=%d\n",
gtid, team->t.t_id, tid, KMP_MAX_BLOCKTIME) );
return KMP_MAX_BLOCKTIME;
}
#ifdef KMP_ADJUST_BLOCKTIME
else if ( __kmp_zero_bt && !get__bt_set( team, tid ) ) {
KF_TRACE(10, ( "kmp_get_blocktime: T#%d(%d:%d), blocktime=%d\n",
gtid, team->t.t_id, tid, 0) );
return 0;
}
#endif /* KMP_ADJUST_BLOCKTIME */
else {
KF_TRACE(10, ( "kmp_get_blocktime: T#%d(%d:%d), blocktime=%d\n",
gtid, team->t.t_id, tid, get__blocktime( team, tid ) ) );
return get__blocktime( team, tid );
};
#endif
}
void FTN_STDCALL
FTN_SET_LIBRARY_SERIAL( void )
{
#ifdef KMP_STUB
__kmps_set_library( library_serial );
#else
// __kmp_user_set_library initializes the library if needed
__kmp_user_set_library( library_serial );
#endif
}
void FTN_STDCALL
FTN_SET_LIBRARY_TURNAROUND( void )
{
#ifdef KMP_STUB
__kmps_set_library( library_turnaround );
#else
// __kmp_user_set_library initializes the library if needed
__kmp_user_set_library( library_turnaround );
#endif
}
void FTN_STDCALL
FTN_SET_LIBRARY_THROUGHPUT( void )
{
#ifdef KMP_STUB
__kmps_set_library( library_throughput );
#else
// __kmp_user_set_library initializes the library if needed
__kmp_user_set_library( library_throughput );
#endif
}
void FTN_STDCALL
FTN_SET_LIBRARY( int KMP_DEREF arg )
{
#ifdef KMP_STUB
__kmps_set_library( KMP_DEREF arg );
#else
enum library_type lib;
lib = (enum library_type) KMP_DEREF arg;
// __kmp_user_set_library initializes the library if needed
__kmp_user_set_library( lib );
#endif
}
int FTN_STDCALL
FTN_GET_LIBRARY (void)
{
#ifdef KMP_STUB
return __kmps_get_library();
#else
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
}
return ((int) __kmp_library);
#endif
}
int FTN_STDCALL
FTN_SET_AFFINITY( void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return -1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_aux_set_affinity( mask );
#endif
}
int FTN_STDCALL
FTN_GET_AFFINITY( void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return -1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_aux_get_affinity( mask );
#endif
}
int FTN_STDCALL
FTN_GET_AFFINITY_MAX_PROC( void )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return 0;
#else
//
// We really only NEED serial initialization here.
//
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
if ( ! ( KMP_AFFINITY_CAPABLE() ) ) {
return 0;
}
#if KMP_GROUP_AFFINITY && !KMP_USE_HWLOC
if ( __kmp_num_proc_groups > 1 ) {
return (int)KMP_CPU_SETSIZE;
}
#endif /* KMP_GROUP_AFFINITY */
return __kmp_xproc;
#endif
}
void FTN_STDCALL
FTN_CREATE_AFFINITY_MASK( void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
*mask = NULL;
#else
//
// We really only NEED serial initialization here.
//
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
# if KMP_USE_HWLOC
*mask = (hwloc_cpuset_t)hwloc_bitmap_alloc();
# else
*mask = kmpc_malloc( __kmp_affin_mask_size );
# endif
KMP_CPU_ZERO( (kmp_affin_mask_t *)(*mask) );
#endif
}
void FTN_STDCALL
FTN_DESTROY_AFFINITY_MASK( void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
// Nothing
#else
//
// We really only NEED serial initialization here.
//
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
if ( __kmp_env_consistency_check ) {
if ( *mask == NULL ) {
KMP_FATAL( AffinityInvalidMask, "kmp_destroy_affinity_mask" );
}
}
# if KMP_USE_HWLOC
hwloc_bitmap_free((hwloc_cpuset_t)(*mask));
# else
kmpc_free( *mask );
# endif
*mask = NULL;
#endif
}
int FTN_STDCALL
FTN_SET_AFFINITY_MASK_PROC( int KMP_DEREF proc, void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return -1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_aux_set_affinity_mask_proc( KMP_DEREF proc, mask );
#endif
}
int FTN_STDCALL
FTN_UNSET_AFFINITY_MASK_PROC( int KMP_DEREF proc, void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return -1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_aux_unset_affinity_mask_proc( KMP_DEREF proc, mask );
#endif
}
int FTN_STDCALL
FTN_GET_AFFINITY_MASK_PROC( int KMP_DEREF proc, void **mask )
{
#if defined(KMP_STUB) || !KMP_AFFINITY_SUPPORTED
return -1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_aux_get_affinity_mask_proc( KMP_DEREF proc, mask );
#endif
}
/* ------------------------------------------------------------------------ */
/* sets the requested number of threads for the next parallel region */
void FTN_STDCALL
xexpand(FTN_SET_NUM_THREADS)( int KMP_DEREF arg )
{
#ifdef KMP_STUB
// Nothing.
#else
__kmp_set_num_threads( KMP_DEREF arg, __kmp_entry_gtid() );
#endif
}
/* returns the number of threads in current team */
int FTN_STDCALL
xexpand(FTN_GET_NUM_THREADS)( void )
{
#ifdef KMP_STUB
return 1;
#else
// __kmpc_bound_num_threads initializes the library if needed
return __kmpc_bound_num_threads(NULL);
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_MAX_THREADS)( void )
{
#ifdef KMP_STUB
return 1;
#else
int gtid;
kmp_info_t *thread;
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
gtid = __kmp_entry_gtid();
thread = __kmp_threads[ gtid ];
//return thread -> th.th_team -> t.t_current_task[ thread->th.th_info.ds.ds_tid ] -> icvs.nproc;
return thread -> th.th_current_task -> td_icvs.nproc;
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_THREAD_NUM)( void )
{
#ifdef KMP_STUB
return 0;
#else
int gtid;
#if KMP_OS_DARWIN || KMP_OS_FREEBSD || KMP_OS_NETBSD
gtid = __kmp_entry_gtid();
#elif KMP_OS_WINDOWS
if (!__kmp_init_parallel ||
(gtid = (int)((kmp_intptr_t)TlsGetValue( __kmp_gtid_threadprivate_key ))) == 0) {
// Either library isn't initialized or thread is not registered
// 0 is the correct TID in this case
return 0;
}
--gtid; // We keep (gtid+1) in TLS
#elif KMP_OS_LINUX
#ifdef KMP_TDATA_GTID
if ( __kmp_gtid_mode >= 3 ) {
if ((gtid = __kmp_gtid) == KMP_GTID_DNE) {
return 0;
}
} else {
#endif
if (!__kmp_init_parallel ||
(gtid = (kmp_intptr_t)(pthread_getspecific( __kmp_gtid_threadprivate_key ))) == 0) {
return 0;
}
--gtid;
#ifdef KMP_TDATA_GTID
}
#endif
#else
#error Unknown or unsupported OS
#endif
return __kmp_tid_from_gtid( gtid );
#endif
}
int FTN_STDCALL
FTN_GET_NUM_KNOWN_THREADS( void )
{
#ifdef KMP_STUB
return 1;
#else
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
}
/* NOTE: this is not syncronized, so it can change at any moment */
/* NOTE: this number also includes threads preallocated in hot-teams */
return TCR_4(__kmp_nth);
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_NUM_PROCS)( void )
{
#ifdef KMP_STUB
return 1;
#else
if ( ! TCR_4(__kmp_init_middle) ) {
__kmp_middle_initialize();
}
return __kmp_avail_proc;
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_NESTED)( int KMP_DEREF flag )
{
#ifdef KMP_STUB
__kmps_set_nested( KMP_DEREF flag );
#else
kmp_info_t *thread;
/* For the thread-private internal controls implementation */
thread = __kmp_entry_thread();
__kmp_save_internal_controls( thread );
set__nested( thread, ( (KMP_DEREF flag) ? TRUE : FALSE ) );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_NESTED)( void )
{
#ifdef KMP_STUB
return __kmps_get_nested();
#else
kmp_info_t *thread;
thread = __kmp_entry_thread();
return get__nested( thread );
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_DYNAMIC)( int KMP_DEREF flag )
{
#ifdef KMP_STUB
__kmps_set_dynamic( KMP_DEREF flag ? TRUE : FALSE );
#else
kmp_info_t *thread;
/* For the thread-private implementation of the internal controls */
thread = __kmp_entry_thread();
// !!! What if foreign thread calls it?
__kmp_save_internal_controls( thread );
set__dynamic( thread, KMP_DEREF flag ? TRUE : FALSE );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_DYNAMIC)( void )
{
#ifdef KMP_STUB
return __kmps_get_dynamic();
#else
kmp_info_t *thread;
thread = __kmp_entry_thread();
return get__dynamic( thread );
#endif
}
int FTN_STDCALL
xexpand(FTN_IN_PARALLEL)( void )
{
#ifdef KMP_STUB
return 0;
#else
kmp_info_t *th = __kmp_entry_thread();
#if OMP_40_ENABLED
if ( th->th.th_teams_microtask ) {
// AC: r_in_parallel does not work inside teams construct
// where real parallel is inactive, but all threads have same root,
// so setting it in one team affects other teams.
// The solution is to use per-team nesting level
return ( th->th.th_team->t.t_active_level ? 1 : 0 );
}
else
#endif /* OMP_40_ENABLED */
return ( th->th.th_root->r.r_in_parallel ? FTN_TRUE : FTN_FALSE );
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_SCHEDULE)( kmp_sched_t KMP_DEREF kind, int KMP_DEREF modifier )
{
#ifdef KMP_STUB
__kmps_set_schedule( KMP_DEREF kind, KMP_DEREF modifier );
#else
/* TO DO */
/* For the per-task implementation of the internal controls */
__kmp_set_schedule( __kmp_entry_gtid(), KMP_DEREF kind, KMP_DEREF modifier );
#endif
}
void FTN_STDCALL
xexpand(FTN_GET_SCHEDULE)( kmp_sched_t * kind, int * modifier )
{
#ifdef KMP_STUB
__kmps_get_schedule( kind, modifier );
#else
/* TO DO */
/* For the per-task implementation of the internal controls */
__kmp_get_schedule( __kmp_entry_gtid(), kind, modifier );
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_MAX_ACTIVE_LEVELS)( int KMP_DEREF arg )
{
#ifdef KMP_STUB
// Nothing.
#else
/* TO DO */
/* We want per-task implementation of this internal control */
__kmp_set_max_active_levels( __kmp_entry_gtid(), KMP_DEREF arg );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_MAX_ACTIVE_LEVELS)( void )
{
#ifdef KMP_STUB
return 0;
#else
/* TO DO */
/* We want per-task implementation of this internal control */
return __kmp_get_max_active_levels( __kmp_entry_gtid() );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_ACTIVE_LEVEL)( void )
{
#ifdef KMP_STUB
return 0; // returns 0 if it is called from the sequential part of the program
#else
/* TO DO */
/* For the per-task implementation of the internal controls */
return __kmp_entry_thread() -> th.th_team -> t.t_active_level;
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_LEVEL)( void )
{
#ifdef KMP_STUB
return 0; // returns 0 if it is called from the sequential part of the program
#else
/* TO DO */
/* For the per-task implementation of the internal controls */
return __kmp_entry_thread() -> th.th_team -> t.t_level;
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_ANCESTOR_THREAD_NUM)( int KMP_DEREF level )
{
#ifdef KMP_STUB
return ( KMP_DEREF level ) ? ( -1 ) : ( 0 );
#else
return __kmp_get_ancestor_thread_num( __kmp_entry_gtid(), KMP_DEREF level );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_TEAM_SIZE)( int KMP_DEREF level )
{
#ifdef KMP_STUB
return ( KMP_DEREF level ) ? ( -1 ) : ( 1 );
#else
return __kmp_get_team_size( __kmp_entry_gtid(), KMP_DEREF level );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_THREAD_LIMIT)( void )
{
#ifdef KMP_STUB
return 1; // TO DO: clarify whether it returns 1 or 0?
#else
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
};
/* global ICV */
return __kmp_max_nth;
#endif
}
int FTN_STDCALL
xexpand(FTN_IN_FINAL)( void )
{
#ifdef KMP_STUB
return 0; // TO DO: clarify whether it returns 1 or 0?
#else
if ( ! TCR_4(__kmp_init_parallel) ) {
return 0;
}
return __kmp_entry_thread() -> th.th_current_task -> td_flags.final;
#endif
}
#if OMP_40_ENABLED
kmp_proc_bind_t FTN_STDCALL
xexpand(FTN_GET_PROC_BIND)( void )
{
#ifdef KMP_STUB
return __kmps_get_proc_bind();
#else
return get__proc_bind( __kmp_entry_thread() );
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_NUM_TEAMS)( void )
{
#ifdef KMP_STUB
return 1;
#else
kmp_info_t *thr = __kmp_entry_thread();
if ( thr->th.th_teams_microtask ) {
kmp_team_t *team = thr->th.th_team;
int tlevel = thr->th.th_teams_level;
int ii = team->t.t_level; // the level of the teams construct
int dd = team -> t.t_serialized;
int level = tlevel + 1;
KMP_DEBUG_ASSERT( ii >= tlevel );
while( ii > level )
{
for( dd = team -> t.t_serialized; ( dd > 0 ) && ( ii > level ); dd--, ii-- )
{
}
if( team -> t.t_serialized && ( !dd ) ) {
team = team->t.t_parent;
continue;
}
if( ii > level ) {
team = team->t.t_parent;
ii--;
}
}
if ( dd > 1 ) {
return 1; // teams region is serialized ( 1 team of 1 thread ).
} else {
return team->t.t_parent->t.t_nproc;
}
} else {
return 1;
}
#endif
}
int FTN_STDCALL
xexpand(FTN_GET_TEAM_NUM)( void )
{
#ifdef KMP_STUB
return 0;
#else
kmp_info_t *thr = __kmp_entry_thread();
if ( thr->th.th_teams_microtask ) {
kmp_team_t *team = thr->th.th_team;
int tlevel = thr->th.th_teams_level; // the level of the teams construct
int ii = team->t.t_level;
int dd = team -> t.t_serialized;
int level = tlevel + 1;
KMP_DEBUG_ASSERT( ii >= tlevel );
while( ii > level )
{
for( dd = team -> t.t_serialized; ( dd > 0 ) && ( ii > level ); dd--, ii-- )
{
}
if( team -> t.t_serialized && ( !dd ) ) {
team = team->t.t_parent;
continue;
}
if( ii > level ) {
team = team->t.t_parent;
ii--;
}
}
if ( dd > 1 ) {
return 0; // teams region is serialized ( 1 team of 1 thread ).
} else {
return team->t.t_master_tid;
}
} else {
return 0;
}
#endif
}
#if KMP_MIC || KMP_OS_DARWIN
static int __kmp_default_device = 0;
int FTN_STDCALL
FTN_GET_DEFAULT_DEVICE( void )
{
return __kmp_default_device;
}
void FTN_STDCALL
FTN_SET_DEFAULT_DEVICE( int KMP_DEREF arg )
{
__kmp_default_device = KMP_DEREF arg;
}
int FTN_STDCALL
FTN_GET_NUM_DEVICES( void )
{
return 0;
}
#endif // KMP_MIC || KMP_OS_DARWIN
#if ! KMP_OS_LINUX
int FTN_STDCALL
xexpand(FTN_IS_INITIAL_DEVICE)( void )
{
return 1;
}
#else
// This internal function is used when the entry from the offload library
// is not found.
int _Offload_get_device_number( void ) __attribute__((weak));
int FTN_STDCALL
xexpand(FTN_IS_INITIAL_DEVICE)( void )
{
if( _Offload_get_device_number ) {
return _Offload_get_device_number() == -1;
} else {
return 1;
}
}
#endif // ! KMP_OS_LINUX
#endif // OMP_40_ENABLED
#ifdef KMP_STUB
typedef enum { UNINIT = -1, UNLOCKED, LOCKED } kmp_stub_lock_t;
#endif /* KMP_STUB */
#if KMP_USE_DYNAMIC_LOCK
void FTN_STDCALL
FTN_INIT_LOCK_WITH_HINT( void **user_lock, uintptr_t KMP_DEREF hint )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNLOCKED;
#else
__kmpc_init_lock_with_hint( NULL, __kmp_entry_gtid(), user_lock, KMP_DEREF hint );
#endif
}
void FTN_STDCALL
FTN_INIT_NEST_LOCK_WITH_HINT( void **user_lock, uintptr_t KMP_DEREF hint )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNLOCKED;
#else
__kmpc_init_nest_lock_with_hint( NULL, __kmp_entry_gtid(), user_lock, KMP_DEREF hint );
#endif
}
#endif
/* initialize the lock */
void FTN_STDCALL
xexpand(FTN_INIT_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNLOCKED;
#else
__kmpc_init_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
/* initialize the lock */
void FTN_STDCALL
xexpand(FTN_INIT_NEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNLOCKED;
#else
__kmpc_init_nest_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_DESTROY_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNINIT;
#else
__kmpc_destroy_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_DESTROY_NEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
*((kmp_stub_lock_t *)user_lock) = UNINIT;
#else
__kmpc_destroy_nest_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
if ( *((kmp_stub_lock_t *)user_lock) != UNLOCKED ) {
// TODO: Issue an error.
}; // if
*((kmp_stub_lock_t *)user_lock) = LOCKED;
#else
__kmpc_set_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_SET_NEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
(*((int *)user_lock))++;
#else
__kmpc_set_nest_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_UNSET_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
if ( *((kmp_stub_lock_t *)user_lock) == UNLOCKED ) {
// TODO: Issue an error.
}; // if
*((kmp_stub_lock_t *)user_lock) = UNLOCKED;
#else
__kmpc_unset_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
void FTN_STDCALL
xexpand(FTN_UNSET_NEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
if ( *((kmp_stub_lock_t *)user_lock) == UNLOCKED ) {
// TODO: Issue an error.
}; // if
(*((int *)user_lock))--;
#else
__kmpc_unset_nest_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
int FTN_STDCALL
xexpand(FTN_TEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
if ( *((kmp_stub_lock_t *)user_lock) == LOCKED ) {
return 0;
}; // if
*((kmp_stub_lock_t *)user_lock) = LOCKED;
return 1;
#else
return __kmpc_test_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
int FTN_STDCALL
xexpand(FTN_TEST_NEST_LOCK)( void **user_lock )
{
#ifdef KMP_STUB
if ( *((kmp_stub_lock_t *)user_lock) == UNINIT ) {
// TODO: Issue an error.
}; // if
return ++(*((int *)user_lock));
#else
return __kmpc_test_nest_lock( NULL, __kmp_entry_gtid(), user_lock );
#endif
}
double FTN_STDCALL
xexpand(FTN_GET_WTIME)( void )
{
#ifdef KMP_STUB
return __kmps_get_wtime();
#else
double data;
#if ! KMP_OS_LINUX
// We don't need library initialization to get the time on Linux* OS.
// The routine can be used to measure library initialization time on Linux* OS now.
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
};
#endif
__kmp_elapsed( & data );
return data;
#endif
}
double FTN_STDCALL
xexpand(FTN_GET_WTICK)( void )
{
#ifdef KMP_STUB
return __kmps_get_wtick();
#else
double data;
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
};
__kmp_elapsed_tick( & data );
return data;
#endif
}
/* ------------------------------------------------------------------------ */
void * FTN_STDCALL
FTN_MALLOC( size_t KMP_DEREF size )
{
// kmpc_malloc initializes the library if needed
return kmpc_malloc( KMP_DEREF size );
}
void * FTN_STDCALL
FTN_CALLOC( size_t KMP_DEREF nelem, size_t KMP_DEREF elsize )
{
// kmpc_calloc initializes the library if needed
return kmpc_calloc( KMP_DEREF nelem, KMP_DEREF elsize );
}
void * FTN_STDCALL
FTN_REALLOC( void * KMP_DEREF ptr, size_t KMP_DEREF size )
{
// kmpc_realloc initializes the library if needed
return kmpc_realloc( KMP_DEREF ptr, KMP_DEREF size );
}
void FTN_STDCALL
FTN_FREE( void * KMP_DEREF ptr )
{
// does nothing if the library is not initialized
kmpc_free( KMP_DEREF ptr );
}
void FTN_STDCALL
FTN_SET_WARNINGS_ON( void )
{
#ifndef KMP_STUB
__kmp_generate_warnings = kmp_warnings_explicit;
#endif
}
void FTN_STDCALL
FTN_SET_WARNINGS_OFF( void )
{
#ifndef KMP_STUB
__kmp_generate_warnings = FALSE;
#endif
}
void FTN_STDCALL
FTN_SET_DEFAULTS( char const * str
#ifndef PASS_ARGS_BY_VALUE
, int len
#endif
)
{
#ifndef KMP_STUB
#ifdef PASS_ARGS_BY_VALUE
int len = (int)KMP_STRLEN( str );
#endif
__kmp_aux_set_defaults( str, len );
#endif
}
/* ------------------------------------------------------------------------ */
#if OMP_40_ENABLED
/* returns the status of cancellation */
int FTN_STDCALL
xexpand(FTN_GET_CANCELLATION)(void) {
#ifdef KMP_STUB
return 0 /* false */;
#else
// initialize the library if needed
if ( ! __kmp_init_serial ) {
__kmp_serial_initialize();
}
return __kmp_omp_cancellation;
#endif
}
int FTN_STDCALL
FTN_GET_CANCELLATION_STATUS(int cancel_kind) {
#ifdef KMP_STUB
return 0 /* false */;
#else
return __kmp_get_cancellation_status(cancel_kind);
#endif
}
#endif // OMP_40_ENABLED
// GCC compatibility (versioned symbols)
#ifdef KMP_USE_VERSION_SYMBOLS
/*
These following sections create function aliases (dummy symbols) for the omp_* routines.
These aliases will then be versioned according to how libgomp ``versions'' its
symbols (OMP_1.0, OMP_2.0, OMP_3.0, ...) while also retaining the
default version which libomp uses: VERSION (defined in exports_so.txt)
If you want to see the versioned symbols for libgomp.so.1 then just type:
objdump -T /path/to/libgomp.so.1 | grep omp_
Example:
Step 1) Create __kmp_api_omp_set_num_threads_10_alias
which is alias of __kmp_api_omp_set_num_threads
Step 2) Set __kmp_api_omp_set_num_threads_10_alias to version: omp_set_num_threads@OMP_1.0
Step 2B) Set __kmp_api_omp_set_num_threads to default version : omp_set_num_threads@@VERSION
*/
// OMP_1.0 aliases
xaliasify(FTN_SET_NUM_THREADS, 10);
xaliasify(FTN_GET_NUM_THREADS, 10);
xaliasify(FTN_GET_MAX_THREADS, 10);
xaliasify(FTN_GET_THREAD_NUM, 10);
xaliasify(FTN_GET_NUM_PROCS, 10);
xaliasify(FTN_IN_PARALLEL, 10);
xaliasify(FTN_SET_DYNAMIC, 10);
xaliasify(FTN_GET_DYNAMIC, 10);
xaliasify(FTN_SET_NESTED, 10);
xaliasify(FTN_GET_NESTED, 10);
xaliasify(FTN_INIT_LOCK, 10);
xaliasify(FTN_INIT_NEST_LOCK, 10);
xaliasify(FTN_DESTROY_LOCK, 10);
xaliasify(FTN_DESTROY_NEST_LOCK, 10);
xaliasify(FTN_SET_LOCK, 10);
xaliasify(FTN_SET_NEST_LOCK, 10);
xaliasify(FTN_UNSET_LOCK, 10);
xaliasify(FTN_UNSET_NEST_LOCK, 10);
xaliasify(FTN_TEST_LOCK, 10);
xaliasify(FTN_TEST_NEST_LOCK, 10);
// OMP_2.0 aliases
xaliasify(FTN_GET_WTICK, 20);
xaliasify(FTN_GET_WTIME, 20);
// OMP_3.0 aliases
xaliasify(FTN_SET_SCHEDULE, 30);
xaliasify(FTN_GET_SCHEDULE, 30);
xaliasify(FTN_GET_THREAD_LIMIT, 30);
xaliasify(FTN_SET_MAX_ACTIVE_LEVELS, 30);
xaliasify(FTN_GET_MAX_ACTIVE_LEVELS, 30);
xaliasify(FTN_GET_LEVEL, 30);
xaliasify(FTN_GET_ANCESTOR_THREAD_NUM, 30);
xaliasify(FTN_GET_TEAM_SIZE, 30);
xaliasify(FTN_GET_ACTIVE_LEVEL, 30);
xaliasify(FTN_INIT_LOCK, 30);
xaliasify(FTN_INIT_NEST_LOCK, 30);
xaliasify(FTN_DESTROY_LOCK, 30);
xaliasify(FTN_DESTROY_NEST_LOCK, 30);
xaliasify(FTN_SET_LOCK, 30);
xaliasify(FTN_SET_NEST_LOCK, 30);
xaliasify(FTN_UNSET_LOCK, 30);
xaliasify(FTN_UNSET_NEST_LOCK, 30);
xaliasify(FTN_TEST_LOCK, 30);
xaliasify(FTN_TEST_NEST_LOCK, 30);
// OMP_3.1 aliases
xaliasify(FTN_IN_FINAL, 31);
#if OMP_40_ENABLED
// OMP_4.0 aliases
xaliasify(FTN_GET_PROC_BIND, 40);
xaliasify(FTN_GET_NUM_TEAMS, 40);
xaliasify(FTN_GET_TEAM_NUM, 40);
xaliasify(FTN_GET_CANCELLATION, 40);
xaliasify(FTN_IS_INITIAL_DEVICE, 40);
#endif /* OMP_40_ENABLED */
#if OMP_41_ENABLED
// OMP_4.1 aliases
#endif
#if OMP_50_ENABLED
// OMP_5.0 aliases
#endif
// OMP_1.0 versioned symbols
xversionify(FTN_SET_NUM_THREADS, 10, "OMP_1.0");
xversionify(FTN_GET_NUM_THREADS, 10, "OMP_1.0");
xversionify(FTN_GET_MAX_THREADS, 10, "OMP_1.0");
xversionify(FTN_GET_THREAD_NUM, 10, "OMP_1.0");
xversionify(FTN_GET_NUM_PROCS, 10, "OMP_1.0");
xversionify(FTN_IN_PARALLEL, 10, "OMP_1.0");
xversionify(FTN_SET_DYNAMIC, 10, "OMP_1.0");
xversionify(FTN_GET_DYNAMIC, 10, "OMP_1.0");
xversionify(FTN_SET_NESTED, 10, "OMP_1.0");
xversionify(FTN_GET_NESTED, 10, "OMP_1.0");
xversionify(FTN_INIT_LOCK, 10, "OMP_1.0");
xversionify(FTN_INIT_NEST_LOCK, 10, "OMP_1.0");
xversionify(FTN_DESTROY_LOCK, 10, "OMP_1.0");
xversionify(FTN_DESTROY_NEST_LOCK, 10, "OMP_1.0");
xversionify(FTN_SET_LOCK, 10, "OMP_1.0");
xversionify(FTN_SET_NEST_LOCK, 10, "OMP_1.0");
xversionify(FTN_UNSET_LOCK, 10, "OMP_1.0");
xversionify(FTN_UNSET_NEST_LOCK, 10, "OMP_1.0");
xversionify(FTN_TEST_LOCK, 10, "OMP_1.0");
xversionify(FTN_TEST_NEST_LOCK, 10, "OMP_1.0");
// OMP_2.0 versioned symbols
xversionify(FTN_GET_WTICK, 20, "OMP_2.0");
xversionify(FTN_GET_WTIME, 20, "OMP_2.0");
// OMP_3.0 versioned symbols
xversionify(FTN_SET_SCHEDULE, 30, "OMP_3.0");
xversionify(FTN_GET_SCHEDULE, 30, "OMP_3.0");
xversionify(FTN_GET_THREAD_LIMIT, 30, "OMP_3.0");
xversionify(FTN_SET_MAX_ACTIVE_LEVELS, 30, "OMP_3.0");
xversionify(FTN_GET_MAX_ACTIVE_LEVELS, 30, "OMP_3.0");
xversionify(FTN_GET_ANCESTOR_THREAD_NUM, 30, "OMP_3.0");
xversionify(FTN_GET_LEVEL, 30, "OMP_3.0");
xversionify(FTN_GET_TEAM_SIZE, 30, "OMP_3.0");
xversionify(FTN_GET_ACTIVE_LEVEL, 30, "OMP_3.0");
// the lock routines have a 1.0 and 3.0 version
xversionify(FTN_INIT_LOCK, 30, "OMP_3.0");
xversionify(FTN_INIT_NEST_LOCK, 30, "OMP_3.0");
xversionify(FTN_DESTROY_LOCK, 30, "OMP_3.0");
xversionify(FTN_DESTROY_NEST_LOCK, 30, "OMP_3.0");
xversionify(FTN_SET_LOCK, 30, "OMP_3.0");
xversionify(FTN_SET_NEST_LOCK, 30, "OMP_3.0");
xversionify(FTN_UNSET_LOCK, 30, "OMP_3.0");
xversionify(FTN_UNSET_NEST_LOCK, 30, "OMP_3.0");
xversionify(FTN_TEST_LOCK, 30, "OMP_3.0");
xversionify(FTN_TEST_NEST_LOCK, 30, "OMP_3.0");
// OMP_3.1 versioned symbol
xversionify(FTN_IN_FINAL, 31, "OMP_3.1");
#if OMP_40_ENABLED
// OMP_4.0 versioned symbols
xversionify(FTN_GET_PROC_BIND, 40, "OMP_4.0");
xversionify(FTN_GET_NUM_TEAMS, 40, "OMP_4.0");
xversionify(FTN_GET_TEAM_NUM, 40, "OMP_4.0");
xversionify(FTN_GET_CANCELLATION, 40, "OMP_4.0");
xversionify(FTN_IS_INITIAL_DEVICE, 40, "OMP_4.0");
#endif /* OMP_40_ENABLED */
#if OMP_41_ENABLED
// OMP_4.1 versioned symbols
#endif
#if OMP_50_ENABLED
// OMP_5.0 versioned symbols
#endif
#endif // KMP_USE_VERSION_SYMBOLS
#ifdef __cplusplus
} //extern "C"
#endif // __cplusplus
// end of file //
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