interface.h
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//===------- interface.h - OpenMP interface definitions ---------- CUDA -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file contains all the definitions that are relevant to
// the interface. The first section contains the interface as
// declared by OpenMP. The second section includes the compiler
// specific interfaces.
//
//===----------------------------------------------------------------------===//
#ifndef _INTERFACES_H_
#define _INTERFACES_H_
#include <stddef.h>
#include <stdint.h>
#ifdef __AMDGCN__
#include "amdgcn/src/amdgcn_interface.h"
#endif
#ifdef __CUDACC__
#include "nvptx/src/nvptx_interface.h"
#endif
////////////////////////////////////////////////////////////////////////////////
// OpenMP interface
////////////////////////////////////////////////////////////////////////////////
typedef uint64_t omp_nest_lock_t; /* arbitrary type of the right length */
typedef enum omp_sched_t {
omp_sched_static = 1, /* chunkSize >0 */
omp_sched_dynamic = 2, /* chunkSize >0 */
omp_sched_guided = 3, /* chunkSize >0 */
omp_sched_auto = 4, /* no chunkSize */
} omp_sched_t;
typedef enum omp_proc_bind_t {
omp_proc_bind_false = 0,
omp_proc_bind_true = 1,
omp_proc_bind_master = 2,
omp_proc_bind_close = 3,
omp_proc_bind_spread = 4
} omp_proc_bind_t;
EXTERN double omp_get_wtick(void);
EXTERN double omp_get_wtime(void);
EXTERN void omp_set_num_threads(int num);
EXTERN int omp_get_num_threads(void);
EXTERN int omp_get_max_threads(void);
EXTERN int omp_get_thread_limit(void);
EXTERN int omp_get_thread_num(void);
EXTERN int omp_get_num_procs(void);
EXTERN int omp_in_parallel(void);
EXTERN int omp_in_final(void);
EXTERN void omp_set_dynamic(int flag);
EXTERN int omp_get_dynamic(void);
EXTERN void omp_set_nested(int flag);
EXTERN int omp_get_nested(void);
EXTERN void omp_set_max_active_levels(int level);
EXTERN int omp_get_max_active_levels(void);
EXTERN int omp_get_level(void);
EXTERN int omp_get_active_level(void);
EXTERN int omp_get_ancestor_thread_num(int level);
EXTERN int omp_get_team_size(int level);
EXTERN void omp_init_lock(omp_lock_t *lock);
EXTERN void omp_init_nest_lock(omp_nest_lock_t *lock);
EXTERN void omp_destroy_lock(omp_lock_t *lock);
EXTERN void omp_destroy_nest_lock(omp_nest_lock_t *lock);
EXTERN void omp_set_lock(omp_lock_t *lock);
EXTERN void omp_set_nest_lock(omp_nest_lock_t *lock);
EXTERN void omp_unset_lock(omp_lock_t *lock);
EXTERN void omp_unset_nest_lock(omp_nest_lock_t *lock);
EXTERN int omp_test_lock(omp_lock_t *lock);
EXTERN int omp_test_nest_lock(omp_nest_lock_t *lock);
EXTERN void omp_get_schedule(omp_sched_t *kind, int *modifier);
EXTERN void omp_set_schedule(omp_sched_t kind, int modifier);
EXTERN omp_proc_bind_t omp_get_proc_bind(void);
EXTERN int omp_get_cancellation(void);
EXTERN void omp_set_default_device(int deviceId);
EXTERN int omp_get_default_device(void);
EXTERN int omp_get_num_devices(void);
EXTERN int omp_get_num_teams(void);
EXTERN int omp_get_team_num(void);
EXTERN int omp_is_initial_device(void);
EXTERN int omp_get_initial_device(void);
EXTERN int omp_get_max_task_priority(void);
////////////////////////////////////////////////////////////////////////////////
// file below is swiped from kmpc host interface
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// kmp specific types
////////////////////////////////////////////////////////////////////////////////
typedef enum kmp_sched_t {
kmp_sched_static_chunk = 33,
kmp_sched_static_nochunk = 34,
kmp_sched_dynamic = 35,
kmp_sched_guided = 36,
kmp_sched_runtime = 37,
kmp_sched_auto = 38,
kmp_sched_static_balanced_chunk = 45,
kmp_sched_static_ordered = 65,
kmp_sched_static_nochunk_ordered = 66,
kmp_sched_dynamic_ordered = 67,
kmp_sched_guided_ordered = 68,
kmp_sched_runtime_ordered = 69,
kmp_sched_auto_ordered = 70,
kmp_sched_distr_static_chunk = 91,
kmp_sched_distr_static_nochunk = 92,
kmp_sched_distr_static_chunk_sched_static_chunkone = 93,
kmp_sched_default = kmp_sched_static_nochunk,
kmp_sched_unordered_first = kmp_sched_static_chunk,
kmp_sched_unordered_last = kmp_sched_auto,
kmp_sched_ordered_first = kmp_sched_static_ordered,
kmp_sched_ordered_last = kmp_sched_auto_ordered,
kmp_sched_distribute_first = kmp_sched_distr_static_chunk,
kmp_sched_distribute_last =
kmp_sched_distr_static_chunk_sched_static_chunkone,
/* Support for OpenMP 4.5 monotonic and nonmonotonic schedule modifiers.
* Since we need to distinguish the three possible cases (no modifier,
* monotonic modifier, nonmonotonic modifier), we need separate bits for
* each modifier. The absence of monotonic does not imply nonmonotonic,
* especially since 4.5 says that the behaviour of the "no modifier" case
* is implementation defined in 4.5, but will become "nonmonotonic" in 5.0.
*
* Since we're passing a full 32 bit value, we can use a couple of high
* bits for these flags; out of paranoia we avoid the sign bit.
*
* These modifiers can be or-ed into non-static schedules by the compiler
* to pass the additional information. They will be stripped early in the
* processing in __kmp_dispatch_init when setting up schedules, so
* most of the code won't ever see schedules with these bits set.
*/
kmp_sched_modifier_monotonic = (1 << 29),
/**< Set if the monotonic schedule modifier was present */
kmp_sched_modifier_nonmonotonic = (1 << 30),
/**< Set if the nonmonotonic schedule modifier was present */
#define SCHEDULE_WITHOUT_MODIFIERS(s) \
(enum kmp_sched_t)( \
(s) & ~(kmp_sched_modifier_nonmonotonic | kmp_sched_modifier_monotonic))
#define SCHEDULE_HAS_MONOTONIC(s) (((s)&kmp_sched_modifier_monotonic) != 0)
#define SCHEDULE_HAS_NONMONOTONIC(s) \
(((s)&kmp_sched_modifier_nonmonotonic) != 0)
#define SCHEDULE_HAS_NO_MODIFIERS(s) \
(((s) & (kmp_sched_modifier_nonmonotonic | kmp_sched_modifier_monotonic)) == \
0)
} kmp_sched_t;
/*!
* Enum for accesseing the reserved_2 field of the ident_t struct below.
*/
enum {
/*! Bit set to 1 when in SPMD mode. */
KMP_IDENT_SPMD_MODE = 0x01,
/*! Bit set to 1 when a simplified runtime is used. */
KMP_IDENT_SIMPLE_RT_MODE = 0x02,
};
/*!
* The ident structure that describes a source location.
* The struct is identical to the one in the kmp.h file.
* We maintain the same data structure for compatibility.
*/
typedef int kmp_int32;
typedef struct ident {
kmp_int32 reserved_1; /**< might be used in Fortran; see above */
kmp_int32 flags; /**< also f.flags; KMP_IDENT_xxx flags; KMP_IDENT_KMPC
identifies this union member */
kmp_int32 reserved_2; /**< not really used in Fortran any more; see above */
kmp_int32 reserved_3; /**< source[4] in Fortran, do not use for C++ */
char const *psource; /**< String describing the source location.
The string is composed of semi-colon separated fields
which describe the source file, the function and a pair
of line numbers that delimit the construct. */
} ident_t;
// parallel defs
typedef ident_t kmp_Ident;
typedef void (*kmp_InterWarpCopyFctPtr)(void *src, int32_t warp_num);
typedef void (*kmp_ShuffleReductFctPtr)(void *rhsData, int16_t lane_id,
int16_t lane_offset,
int16_t shortCircuit);
typedef void (*kmp_ListGlobalFctPtr)(void *buffer, int idx, void *reduce_data);
// task defs
typedef struct kmp_TaskDescr kmp_TaskDescr;
typedef int32_t (*kmp_TaskFctPtr)(int32_t global_tid, kmp_TaskDescr *taskDescr);
typedef struct kmp_TaskDescr {
void *sharedPointerTable; // ptr to a table of shared var ptrs
kmp_TaskFctPtr sub; // task subroutine
int32_t partId; // unused
kmp_TaskFctPtr destructors; // destructor of c++ first private
} kmp_TaskDescr;
// sync defs
typedef int32_t kmp_CriticalName[8];
////////////////////////////////////////////////////////////////////////////////
// external interface
////////////////////////////////////////////////////////////////////////////////
// parallel
EXTERN int32_t __kmpc_global_thread_num(kmp_Ident *loc);
EXTERN void __kmpc_push_num_threads(kmp_Ident *loc, int32_t global_tid,
int32_t num_threads);
EXTERN void __kmpc_serialized_parallel(kmp_Ident *loc, uint32_t global_tid);
EXTERN void __kmpc_end_serialized_parallel(kmp_Ident *loc,
uint32_t global_tid);
EXTERN uint16_t __kmpc_parallel_level(kmp_Ident *loc, uint32_t global_tid);
// proc bind
EXTERN void __kmpc_push_proc_bind(kmp_Ident *loc, uint32_t global_tid,
int proc_bind);
EXTERN int omp_get_num_places(void);
EXTERN int omp_get_place_num_procs(int place_num);
EXTERN void omp_get_place_proc_ids(int place_num, int *ids);
EXTERN int omp_get_place_num(void);
EXTERN int omp_get_partition_num_places(void);
EXTERN void omp_get_partition_place_nums(int *place_nums);
// for static (no chunk or chunk)
EXTERN void __kmpc_for_static_init_4(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
int32_t *plower, int32_t *pupper,
int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN void __kmpc_for_static_init_4u(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
uint32_t *plower, uint32_t *pupper,
int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN void __kmpc_for_static_init_8(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
int64_t *plower, int64_t *pupper,
int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN void __kmpc_for_static_init_8u(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter1,
uint64_t *plower, uint64_t *pupper,
int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN
void __kmpc_for_static_init_4_simple_spmd(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
int32_t *plower, int32_t *pupper,
int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN
void __kmpc_for_static_init_4u_simple_spmd(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
uint32_t *plower, uint32_t *pupper,
int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN
void __kmpc_for_static_init_8_simple_spmd(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter,
int64_t *plower, int64_t *pupper,
int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN
void __kmpc_for_static_init_8u_simple_spmd(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t *plastiter1,
uint64_t *plower, uint64_t *pupper,
int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN
void __kmpc_for_static_init_4_simple_generic(kmp_Ident *loc,
int32_t global_tid, int32_t sched,
int32_t *plastiter,
int32_t *plower, int32_t *pupper,
int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN
void __kmpc_for_static_init_4u_simple_generic(
kmp_Ident *loc, int32_t global_tid, int32_t sched, int32_t *plastiter,
uint32_t *plower, uint32_t *pupper, int32_t *pstride, int32_t incr,
int32_t chunk);
EXTERN
void __kmpc_for_static_init_8_simple_generic(kmp_Ident *loc,
int32_t global_tid, int32_t sched,
int32_t *plastiter,
int64_t *plower, int64_t *pupper,
int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN
void __kmpc_for_static_init_8u_simple_generic(
kmp_Ident *loc, int32_t global_tid, int32_t sched, int32_t *plastiter1,
uint64_t *plower, uint64_t *pupper, int64_t *pstride, int64_t incr,
int64_t chunk);
EXTERN void __kmpc_for_static_fini(kmp_Ident *loc, int32_t global_tid);
// for dynamic
EXTERN void __kmpc_dispatch_init_4(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int32_t lower, int32_t upper,
int32_t incr, int32_t chunk);
EXTERN void __kmpc_dispatch_init_4u(kmp_Ident *loc, int32_t global_tid,
int32_t sched, uint32_t lower,
uint32_t upper, int32_t incr,
int32_t chunk);
EXTERN void __kmpc_dispatch_init_8(kmp_Ident *loc, int32_t global_tid,
int32_t sched, int64_t lower, int64_t upper,
int64_t incr, int64_t chunk);
EXTERN void __kmpc_dispatch_init_8u(kmp_Ident *loc, int32_t global_tid,
int32_t sched, uint64_t lower,
uint64_t upper, int64_t incr,
int64_t chunk);
EXTERN int __kmpc_dispatch_next_4(kmp_Ident *loc, int32_t global_tid,
int32_t *plastiter, int32_t *plower,
int32_t *pupper, int32_t *pstride);
EXTERN int __kmpc_dispatch_next_4u(kmp_Ident *loc, int32_t global_tid,
int32_t *plastiter, uint32_t *plower,
uint32_t *pupper, int32_t *pstride);
EXTERN int __kmpc_dispatch_next_8(kmp_Ident *loc, int32_t global_tid,
int32_t *plastiter, int64_t *plower,
int64_t *pupper, int64_t *pstride);
EXTERN int __kmpc_dispatch_next_8u(kmp_Ident *loc, int32_t global_tid,
int32_t *plastiter, uint64_t *plower,
uint64_t *pupper, int64_t *pstride);
EXTERN void __kmpc_dispatch_fini_4(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_dispatch_fini_4u(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_dispatch_fini_8(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_dispatch_fini_8u(kmp_Ident *loc, int32_t global_tid);
// reduction
EXTERN void __kmpc_nvptx_end_reduce(int32_t global_tid);
EXTERN void __kmpc_nvptx_end_reduce_nowait(int32_t global_tid);
EXTERN int32_t __kmpc_nvptx_parallel_reduce_nowait_v2(
kmp_Ident *loc, int32_t global_tid, int32_t num_vars, size_t reduce_size,
void *reduce_data, kmp_ShuffleReductFctPtr shflFct,
kmp_InterWarpCopyFctPtr cpyFct);
EXTERN int32_t __kmpc_nvptx_teams_reduce_nowait_v2(
kmp_Ident *loc, int32_t global_tid, void *global_buffer,
int32_t num_of_records, void *reduce_data, kmp_ShuffleReductFctPtr shflFct,
kmp_InterWarpCopyFctPtr cpyFct, kmp_ListGlobalFctPtr lgcpyFct,
kmp_ListGlobalFctPtr lgredFct, kmp_ListGlobalFctPtr glcpyFct,
kmp_ListGlobalFctPtr glredFct);
EXTERN int32_t __kmpc_shuffle_int32(int32_t val, int16_t delta, int16_t size);
EXTERN int64_t __kmpc_shuffle_int64(int64_t val, int16_t delta, int16_t size);
// sync barrier
EXTERN void __kmpc_barrier(kmp_Ident *loc_ref, int32_t tid);
EXTERN void __kmpc_barrier_simple_spmd(kmp_Ident *loc_ref, int32_t tid);
EXTERN int32_t __kmpc_cancel_barrier(kmp_Ident *loc, int32_t global_tid);
// single
EXTERN int32_t __kmpc_single(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_end_single(kmp_Ident *loc, int32_t global_tid);
// sync
EXTERN int32_t __kmpc_master(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_end_master(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_ordered(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_end_ordered(kmp_Ident *loc, int32_t global_tid);
EXTERN void __kmpc_critical(kmp_Ident *loc, int32_t global_tid,
kmp_CriticalName *crit);
EXTERN void __kmpc_end_critical(kmp_Ident *loc, int32_t global_tid,
kmp_CriticalName *crit);
EXTERN void __kmpc_flush(kmp_Ident *loc);
// vote
EXTERN __kmpc_impl_lanemask_t __kmpc_warp_active_thread_mask();
// syncwarp
EXTERN void __kmpc_syncwarp(__kmpc_impl_lanemask_t);
// tasks
EXTERN kmp_TaskDescr *__kmpc_omp_task_alloc(kmp_Ident *loc,
uint32_t global_tid, int32_t flag,
size_t sizeOfTaskInclPrivate,
size_t sizeOfSharedTable,
kmp_TaskFctPtr sub);
EXTERN int32_t __kmpc_omp_task(kmp_Ident *loc, uint32_t global_tid,
kmp_TaskDescr *newLegacyTaskDescr);
EXTERN int32_t __kmpc_omp_task_with_deps(kmp_Ident *loc, uint32_t global_tid,
kmp_TaskDescr *newLegacyTaskDescr,
int32_t depNum, void *depList,
int32_t noAliasDepNum,
void *noAliasDepList);
EXTERN void __kmpc_omp_task_begin_if0(kmp_Ident *loc, uint32_t global_tid,
kmp_TaskDescr *newLegacyTaskDescr);
EXTERN void __kmpc_omp_task_complete_if0(kmp_Ident *loc, uint32_t global_tid,
kmp_TaskDescr *newLegacyTaskDescr);
EXTERN void __kmpc_omp_wait_deps(kmp_Ident *loc, uint32_t global_tid,
int32_t depNum, void *depList,
int32_t noAliasDepNum, void *noAliasDepList);
EXTERN void __kmpc_taskgroup(kmp_Ident *loc, uint32_t global_tid);
EXTERN void __kmpc_end_taskgroup(kmp_Ident *loc, uint32_t global_tid);
EXTERN int32_t __kmpc_omp_taskyield(kmp_Ident *loc, uint32_t global_tid,
int end_part);
EXTERN int32_t __kmpc_omp_taskwait(kmp_Ident *loc, uint32_t global_tid);
EXTERN void __kmpc_taskloop(kmp_Ident *loc, uint32_t global_tid,
kmp_TaskDescr *newKmpTaskDescr, int if_val,
uint64_t *lb, uint64_t *ub, int64_t st, int nogroup,
int32_t sched, uint64_t grainsize, void *task_dup);
// cancel
EXTERN int32_t __kmpc_cancellationpoint(kmp_Ident *loc, int32_t global_tid,
int32_t cancelVal);
EXTERN int32_t __kmpc_cancel(kmp_Ident *loc, int32_t global_tid,
int32_t cancelVal);
// non standard
EXTERN void __kmpc_kernel_init(int ThreadLimit, int16_t RequiresOMPRuntime);
EXTERN void __kmpc_kernel_deinit(int16_t IsOMPRuntimeInitialized);
EXTERN void __kmpc_spmd_kernel_init(int ThreadLimit, int16_t RequiresOMPRuntime,
int16_t RequiresDataSharing);
EXTERN void __kmpc_spmd_kernel_deinit_v2(int16_t RequiresOMPRuntime);
EXTERN void __kmpc_kernel_prepare_parallel(void *WorkFn);
EXTERN bool __kmpc_kernel_parallel(void **WorkFn);
EXTERN void __kmpc_kernel_end_parallel();
EXTERN void __kmpc_data_sharing_init_stack();
EXTERN void __kmpc_data_sharing_init_stack_spmd();
EXTERN void *__kmpc_data_sharing_coalesced_push_stack(size_t size,
int16_t UseSharedMemory);
EXTERN void *__kmpc_data_sharing_push_stack(size_t size, int16_t UseSharedMemory);
EXTERN void __kmpc_data_sharing_pop_stack(void *a);
EXTERN void __kmpc_begin_sharing_variables(void ***GlobalArgs, size_t nArgs);
EXTERN void __kmpc_end_sharing_variables();
EXTERN void __kmpc_get_shared_variables(void ***GlobalArgs);
// The slot used for data sharing by the master and worker threads. We use a
// complete (default size version and an incomplete one so that we allow sizes
// greater than the default).
struct __kmpc_data_sharing_slot {
__kmpc_data_sharing_slot *Next;
__kmpc_data_sharing_slot *Prev;
void *PrevSlotStackPtr;
void *DataEnd;
char Data[];
};
// SPMD execution mode interrogation function.
EXTERN int8_t __kmpc_is_spmd_exec_mode();
EXTERN void __kmpc_get_team_static_memory(int16_t isSPMDExecutionMode,
const void *buf, size_t size,
int16_t is_shared, const void **res);
EXTERN void __kmpc_restore_team_static_memory(int16_t isSPMDExecutionMode,
int16_t is_shared);
#endif