1	/*
2	* kmp_atomic.h - ATOMIC header file
3	*/
4
5	//===----------------------------------------------------------------------===//
6	//
7	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
8	// See https://llvm.org/LICENSE.txt for license information.
9	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
10	//
11	//===----------------------------------------------------------------------===//
12
13	#ifndef KMP_ATOMIC_H
14	#define KMP_ATOMIC_H
15
16	#include "kmp_lock.h"
17	#include "kmp_os.h"
18
19	#if OMPT_SUPPORT
20	#include "ompt-specific.h"
21	#endif
22
23	// C++ build port.
24	// Intel compiler does not support _Complex datatype on win.
25	// Intel compiler supports _Complex datatype on lin and mac.
26	// On the other side, there is a problem of stack alignment on lin_32 and mac_32
27	// if the rhs is cmplx80 or cmplx128 typedef'ed datatype.
28	// The decision is: to use compiler supported _Complex type on lin and mac,
29	// to use typedef'ed types on win.
30	// Condition for WIN64 was modified in anticipation of 10.1 build compiler.
31
32	#if defined(__cplusplus) && (KMP_OS_WINDOWS)
33	// create shortcuts for c99 complex types
34
35	// Visual Studio cannot have function parameters that have the
36	// align __declspec attribute, so we must remove it. (Compiler Error C2719)
37	#if KMP_COMPILER_MSVC
38	#undef KMP_DO_ALIGN
39	#define KMP_DO_ALIGN(alignment) /* Nothing */
40	#endif
41
42	#if defined(_MSC_VER) && (_MSC_VER < 1600) && defined(_DEBUG)
43	// Workaround for the problem of _DebugHeapTag unresolved external.
44	// This problem prevented to use our static debug library for C tests
45	// compiled with /MDd option (the library itself built with /MTd),
46	#undef _DEBUG
47	#define _DEBUG_TEMPORARILY_UNSET_
48	#endif
49
50	#include <complex>
51
52	template <typename type_lhs, typename type_rhs>
53	std::complex<type_lhs> __kmp_lhs_div_rhs(const std::complex<type_lhs> &lhs,
54	const std::complex<type_rhs> &rhs) {
55	type_lhs a = lhs.real();
56	type_lhs b = lhs.imag();
57	type_rhs c = rhs.real();
58	type_rhs d = rhs.imag();
59	type_rhs den = c * c + d * d;
60	type_rhs r = (a * c + b * d);
61	type_rhs i = (b * c - a * d);
62	std::complex<type_lhs> ret(r / den, i / den);
63	return ret;
64	}
65
66	// complex8
67	struct __kmp_cmplx64_t : std::complex<double> {
68
69	__kmp_cmplx64_t() : std::complex<double>() {}
70
71	__kmp_cmplx64_t(const std::complex<double> &cd) : std::complex<double>(cd) {}
72
73	void operator/=(const __kmp_cmplx64_t &rhs) {
74	std::complex<double> lhs = *this;
75	*this = __kmp_lhs_div_rhs(lhs, rhs);
76	}
77
78	__kmp_cmplx64_t operator/(const __kmp_cmplx64_t &rhs) {
79	std::complex<double> lhs = *this;
80	return __kmp_lhs_div_rhs(lhs, rhs);
81	}
82	};
83	typedef struct __kmp_cmplx64_t kmp_cmplx64;
84
85	// complex4
86	struct __kmp_cmplx32_t : std::complex<float> {
87
88	__kmp_cmplx32_t() : std::complex<float>() {}
89
90	__kmp_cmplx32_t(const std::complex<float> &cf) : std::complex<float>(cf) {}
91
92	__kmp_cmplx32_t operator+(const __kmp_cmplx32_t &b) {
93	std::complex<float> lhs = *this;
94	std::complex<float> rhs = b;
95	return (lhs + rhs);
96	}
97	__kmp_cmplx32_t operator-(const __kmp_cmplx32_t &b) {
98	std::complex<float> lhs = *this;
99	std::complex<float> rhs = b;
100	return (lhs - rhs);
101	}
102	__kmp_cmplx32_t operator*(const __kmp_cmplx32_t &b) {
103	std::complex<float> lhs = *this;
104	std::complex<float> rhs = b;
105	return (lhs * rhs);
106	}
107
108	__kmp_cmplx32_t operator+(const kmp_cmplx64 &b) {
109	kmp_cmplx64 t = kmp_cmplx64(*this) + b;
110	std::complex<double> d(t);
111	std::complex<float> f(d);
112	__kmp_cmplx32_t r(f);
113	return r;
114	}
115	__kmp_cmplx32_t operator-(const kmp_cmplx64 &b) {
116	kmp_cmplx64 t = kmp_cmplx64(*this) - b;
117	std::complex<double> d(t);
118	std::complex<float> f(d);
119	__kmp_cmplx32_t r(f);
120	return r;
121	}
122	__kmp_cmplx32_t operator*(const kmp_cmplx64 &b) {
123	kmp_cmplx64 t = kmp_cmplx64(*this) * b;
124	std::complex<double> d(t);
125	std::complex<float> f(d);
126	__kmp_cmplx32_t r(f);
127	return r;
128	}
129
130	void operator/=(const __kmp_cmplx32_t &rhs) {
131	std::complex<float> lhs = *this;
132	*this = __kmp_lhs_div_rhs(lhs, rhs);
133	}
134
135	__kmp_cmplx32_t operator/(const __kmp_cmplx32_t &rhs) {
136	std::complex<float> lhs = *this;
137	return __kmp_lhs_div_rhs(lhs, rhs);
138	}
139
140	void operator/=(const kmp_cmplx64 &rhs) {
141	std::complex<float> lhs = *this;
142	*this = __kmp_lhs_div_rhs(lhs, rhs);
143	}
144
145	__kmp_cmplx32_t operator/(const kmp_cmplx64 &rhs) {
146	std::complex<float> lhs = *this;
147	return __kmp_lhs_div_rhs(lhs, rhs);
148	}
149	};
150	typedef struct __kmp_cmplx32_t kmp_cmplx32;
151
152	// complex10
153	struct KMP_DO_ALIGN(16) __kmp_cmplx80_t : std::complex<long double> {
154
155	__kmp_cmplx80_t() : std::complex<long double>() {}
156
157	__kmp_cmplx80_t(const std::complex<long double> &cld)
158	: std::complex<long double>(cld) {}
159
160	void operator/=(const __kmp_cmplx80_t &rhs) {
161	std::complex<long double> lhs = *this;
162	*this = __kmp_lhs_div_rhs(lhs, rhs);
163	}
164
165	__kmp_cmplx80_t operator/(const __kmp_cmplx80_t &rhs) {
166	std::complex<long double> lhs = *this;
167	return __kmp_lhs_div_rhs(lhs, rhs);
168	}
169	};
170	typedef KMP_DO_ALIGN(16) struct __kmp_cmplx80_t kmp_cmplx80;
171
172	// complex16
173	#if KMP_HAVE_QUAD
174	struct __kmp_cmplx128_t : std::complex<_Quad> {
175
176	__kmp_cmplx128_t() : std::complex<_Quad>() {}
177
178	__kmp_cmplx128_t(const std::complex<_Quad> &cq) : std::complex<_Quad>(cq) {}
179
180	void operator/=(const __kmp_cmplx128_t &rhs) {
181	std::complex<_Quad> lhs = *this;
182	*this = __kmp_lhs_div_rhs(lhs, rhs);
183	}
184
185	__kmp_cmplx128_t operator/(const __kmp_cmplx128_t &rhs) {
186	std::complex<_Quad> lhs = *this;
187	return __kmp_lhs_div_rhs(lhs, rhs);
188	}
189	};
190	typedef struct __kmp_cmplx128_t kmp_cmplx128;
191	#endif /* KMP_HAVE_QUAD */
192
193	#ifdef _DEBUG_TEMPORARILY_UNSET_
194	#undef _DEBUG_TEMPORARILY_UNSET_
195	// Set it back now
196	#define _DEBUG 1
197	#endif
198
199	#else
200	// create shortcuts for c99 complex types
201	typedef float _Complex kmp_cmplx32;
202	typedef double _Complex kmp_cmplx64;
203	typedef long double _Complex kmp_cmplx80;
204	#if KMP_HAVE_QUAD
205	typedef _Quad _Complex kmp_cmplx128;
206	#endif
207	#endif
208
209	// Compiler 12.0 changed alignment of 16 and 32-byte arguments (like _Quad
210	// and kmp_cmplx128) on IA-32 architecture. The following aligned structures
211	// are implemented to support the old alignment in 10.1, 11.0, 11.1 and
212	// introduce the new alignment in 12.0. See CQ88405.
213	#if KMP_ARCH_X86 && KMP_HAVE_QUAD
214
215	// 4-byte aligned structures for backward compatibility.
216
217	#pragma pack(push, 4)
218
219	struct KMP_DO_ALIGN(4) Quad_a4_t {
220	_Quad q;
221
222	Quad_a4_t() : q() {}
223	Quad_a4_t(const _Quad &cq) : q(cq) {}
224
225	Quad_a4_t operator+(const Quad_a4_t &b) {
226	_Quad lhs = (*this).q;
227	_Quad rhs = b.q;
228	return (Quad_a4_t)(lhs + rhs);
229	}
230
231	Quad_a4_t operator-(const Quad_a4_t &b) {
232	_Quad lhs = (*this).q;
233	_Quad rhs = b.q;
234	return (Quad_a4_t)(lhs - rhs);
235	}
236	Quad_a4_t operator*(const Quad_a4_t &b) {
237	_Quad lhs = (*this).q;
238	_Quad rhs = b.q;
239	return (Quad_a4_t)(lhs * rhs);
240	}
241
242	Quad_a4_t operator/(const Quad_a4_t &b) {
243	_Quad lhs = (*this).q;
244	_Quad rhs = b.q;
245	return (Quad_a4_t)(lhs / rhs);
246	}
247	};
248
249	struct KMP_DO_ALIGN(4) kmp_cmplx128_a4_t {
250	kmp_cmplx128 q;
251
252	kmp_cmplx128_a4_t() : q() {}
253
254	#if defined(__cplusplus) && (KMP_OS_WINDOWS)
255	kmp_cmplx128_a4_t(const std::complex<_Quad> &c128) : q(c128) {}
256	#endif
257	kmp_cmplx128_a4_t(const kmp_cmplx128 &c128) : q(c128) {}
258
259	kmp_cmplx128_a4_t operator+(const kmp_cmplx128_a4_t &b) {
260	kmp_cmplx128 lhs = (*this).q;
261	kmp_cmplx128 rhs = b.q;
262	return (kmp_cmplx128_a4_t)(lhs + rhs);
263	}
264	kmp_cmplx128_a4_t operator-(const kmp_cmplx128_a4_t &b) {
265	kmp_cmplx128 lhs = (*this).q;
266	kmp_cmplx128 rhs = b.q;
267	return (kmp_cmplx128_a4_t)(lhs - rhs);
268	}
269	kmp_cmplx128_a4_t operator*(const kmp_cmplx128_a4_t &b) {
270	kmp_cmplx128 lhs = (*this).q;
271	kmp_cmplx128 rhs = b.q;
272	return (kmp_cmplx128_a4_t)(lhs * rhs);
273	}
274
275	kmp_cmplx128_a4_t operator/(const kmp_cmplx128_a4_t &b) {
276	kmp_cmplx128 lhs = (*this).q;
277	kmp_cmplx128 rhs = b.q;
278	return (kmp_cmplx128_a4_t)(lhs / rhs);
279	}
280	};
281
282	#pragma pack(pop)
283
284	// New 16-byte aligned structures for 12.0 compiler.
285	struct KMP_DO_ALIGN(16) Quad_a16_t {
286	_Quad q;
287
288	Quad_a16_t() : q() {}
289	Quad_a16_t(const _Quad &cq) : q(cq) {}
290
291	Quad_a16_t operator+(const Quad_a16_t &b) {
292	_Quad lhs = (*this).q;
293	_Quad rhs = b.q;
294	return (Quad_a16_t)(lhs + rhs);
295	}
296
297	Quad_a16_t operator-(const Quad_a16_t &b) {
298	_Quad lhs = (*this).q;
299	_Quad rhs = b.q;
300	return (Quad_a16_t)(lhs - rhs);
301	}
302	Quad_a16_t operator*(const Quad_a16_t &b) {
303	_Quad lhs = (*this).q;
304	_Quad rhs = b.q;
305	return (Quad_a16_t)(lhs * rhs);
306	}
307
308	Quad_a16_t operator/(const Quad_a16_t &b) {
309	_Quad lhs = (*this).q;
310	_Quad rhs = b.q;
311	return (Quad_a16_t)(lhs / rhs);
312	}
313	};
314
315	struct KMP_DO_ALIGN(16) kmp_cmplx128_a16_t {
316	kmp_cmplx128 q;
317
318	kmp_cmplx128_a16_t() : q() {}
319
320	#if defined(__cplusplus) && (KMP_OS_WINDOWS)
321	kmp_cmplx128_a16_t(const std::complex<_Quad> &c128) : q(c128) {}
322	#endif
323	kmp_cmplx128_a16_t(const kmp_cmplx128 &c128) : q(c128) {}
324
325	kmp_cmplx128_a16_t operator+(const kmp_cmplx128_a16_t &b) {
326	kmp_cmplx128 lhs = (*this).q;
327	kmp_cmplx128 rhs = b.q;
328	return (kmp_cmplx128_a16_t)(lhs + rhs);
329	}
330	kmp_cmplx128_a16_t operator-(const kmp_cmplx128_a16_t &b) {
331	kmp_cmplx128 lhs = (*this).q;
332	kmp_cmplx128 rhs = b.q;
333	return (kmp_cmplx128_a16_t)(lhs - rhs);
334	}
335	kmp_cmplx128_a16_t operator*(const kmp_cmplx128_a16_t &b) {
336	kmp_cmplx128 lhs = (*this).q;
337	kmp_cmplx128 rhs = b.q;
338	return (kmp_cmplx128_a16_t)(lhs * rhs);
339	}
340
341	kmp_cmplx128_a16_t operator/(const kmp_cmplx128_a16_t &b) {
342	kmp_cmplx128 lhs = (*this).q;
343	kmp_cmplx128 rhs = b.q;
344	return (kmp_cmplx128_a16_t)(lhs / rhs);
345	}
346	};
347
348	#endif
349
350	#if (KMP_ARCH_X86)
351	#define QUAD_LEGACY Quad_a4_t
352	#define CPLX128_LEG kmp_cmplx128_a4_t
353	#else
354	#define QUAD_LEGACY _Quad
355	#define CPLX128_LEG kmp_cmplx128
356	#endif
357
358	#ifdef __cplusplus
359	extern "C" {
360	#endif
361
362	extern int __kmp_atomic_mode;
363
364	// Atomic locks can easily become contended, so we use queuing locks for them.
365	typedef kmp_queuing_lock_t kmp_atomic_lock_t;
366
367	static inline void __kmp_acquire_atomic_lock(kmp_atomic_lock_t *lck,
368	kmp_int32 gtid) {
369	#if OMPT_SUPPORT && OMPT_OPTIONAL
370	if (ompt_enabled.ompt_callback_mutex_acquire) {
371	ompt_callbacks.ompt_callback(ompt_callback_mutex_acquire)(
372	ompt_mutex_atomic, 0, kmp_mutex_impl_queuing,
373	(ompt_wait_id_t)(uintptr_t)lck, OMPT_GET_RETURN_ADDRESS(0));
374	}
375	#endif
376
377	__kmp_acquire_queuing_lock(lck, gtid);
378
379	#if OMPT_SUPPORT && OMPT_OPTIONAL
380	if (ompt_enabled.ompt_callback_mutex_acquired) {
381	ompt_callbacks.ompt_callback(ompt_callback_mutex_acquired)(
382	ompt_mutex_atomic, (ompt_wait_id_t)(uintptr_t)lck,
383	OMPT_GET_RETURN_ADDRESS(0));
384	}
385	#endif
386	}
387
388	static inline int __kmp_test_atomic_lock(kmp_atomic_lock_t *lck,
389	kmp_int32 gtid) {
390	return __kmp_test_queuing_lock(lck, gtid);
391	}
392
393	static inline void __kmp_release_atomic_lock(kmp_atomic_lock_t *lck,
394	kmp_int32 gtid) {
395	__kmp_release_queuing_lock(lck, gtid);
396	#if OMPT_SUPPORT && OMPT_OPTIONAL
397	if (ompt_enabled.ompt_callback_mutex_released) {
398	ompt_callbacks.ompt_callback(ompt_callback_mutex_released)(
399	ompt_mutex_atomic, (ompt_wait_id_t)(uintptr_t)lck,
400	OMPT_GET_RETURN_ADDRESS(0));
401	}
402	#endif
403	}
404
405	static inline void __kmp_init_atomic_lock(kmp_atomic_lock_t *lck) {
406	__kmp_init_queuing_lock(lck);
407	}
408
409	static inline void __kmp_destroy_atomic_lock(kmp_atomic_lock_t *lck) {
410	__kmp_destroy_queuing_lock(lck);
411	}
412
413	// Global Locks
414	extern kmp_atomic_lock_t __kmp_atomic_lock; /* Control access to all user coded
415	atomics in Gnu compat mode */
416	extern kmp_atomic_lock_t __kmp_atomic_lock_1i; /* Control access to all user
417	coded atomics for 1-byte fixed
418	data types */
419	extern kmp_atomic_lock_t __kmp_atomic_lock_2i; /* Control access to all user
420	coded atomics for 2-byte fixed
421	data types */
422	extern kmp_atomic_lock_t __kmp_atomic_lock_4i; /* Control access to all user
423	coded atomics for 4-byte fixed
424	data types */
425	extern kmp_atomic_lock_t __kmp_atomic_lock_4r; /* Control access to all user
426	coded atomics for kmp_real32
427	data type */
428	extern kmp_atomic_lock_t __kmp_atomic_lock_8i; /* Control access to all user
429	coded atomics for 8-byte fixed
430	data types */
431	extern kmp_atomic_lock_t __kmp_atomic_lock_8r; /* Control access to all user
432	coded atomics for kmp_real64
433	data type */
434	extern kmp_atomic_lock_t
435	__kmp_atomic_lock_8c; /* Control access to all user coded atomics for
436	complex byte data type */
437	extern kmp_atomic_lock_t
438	__kmp_atomic_lock_10r; /* Control access to all user coded atomics for long
439	double data type */
440	extern kmp_atomic_lock_t __kmp_atomic_lock_16r; /* Control access to all user
441	coded atomics for _Quad data
442	type */
443	extern kmp_atomic_lock_t __kmp_atomic_lock_16c; /* Control access to all user
444	coded atomics for double
445	complex data type*/
446	extern kmp_atomic_lock_t
447	__kmp_atomic_lock_20c; /* Control access to all user coded atomics for long
448	double complex type*/
449	extern kmp_atomic_lock_t __kmp_atomic_lock_32c; /* Control access to all user
450	coded atomics for _Quad
451	complex data type */
452
453	// Below routines for atomic UPDATE are listed
454
455	// 1-byte
456	void __kmpc_atomic_fixed1_add(ident_t *id_ref, int gtid, char *lhs, char rhs);
457	void __kmpc_atomic_fixed1_andb(ident_t *id_ref, int gtid, char *lhs, char rhs);
458	void __kmpc_atomic_fixed1_div(ident_t *id_ref, int gtid, char *lhs, char rhs);
459	void __kmpc_atomic_fixed1u_div(ident_t *id_ref, int gtid, unsigned char *lhs,
460	unsigned char rhs);
461	void __kmpc_atomic_fixed1_mul(ident_t *id_ref, int gtid, char *lhs, char rhs);
462	void __kmpc_atomic_fixed1_orb(ident_t *id_ref, int gtid, char *lhs, char rhs);
463	void __kmpc_atomic_fixed1_shl(ident_t *id_ref, int gtid, char *lhs, char rhs);
464	void __kmpc_atomic_fixed1_shr(ident_t *id_ref, int gtid, char *lhs, char rhs);
465	void __kmpc_atomic_fixed1u_shr(ident_t *id_ref, int gtid, unsigned char *lhs,
466	unsigned char rhs);
467	void __kmpc_atomic_fixed1_sub(ident_t *id_ref, int gtid, char *lhs, char rhs);
468	void __kmpc_atomic_fixed1_xor(ident_t *id_ref, int gtid, char *lhs, char rhs);
469	// 2-byte
470	void __kmpc_atomic_fixed2_add(ident_t *id_ref, int gtid, short *lhs, short rhs);
471	void __kmpc_atomic_fixed2_andb(ident_t *id_ref, int gtid, short *lhs,
472	short rhs);
473	void __kmpc_atomic_fixed2_div(ident_t *id_ref, int gtid, short *lhs, short rhs);
474	void __kmpc_atomic_fixed2u_div(ident_t *id_ref, int gtid, unsigned short *lhs,
475	unsigned short rhs);
476	void __kmpc_atomic_fixed2_mul(ident_t *id_ref, int gtid, short *lhs, short rhs);
477	void __kmpc_atomic_fixed2_orb(ident_t *id_ref, int gtid, short *lhs, short rhs);
478	void __kmpc_atomic_fixed2_shl(ident_t *id_ref, int gtid, short *lhs, short rhs);
479	void __kmpc_atomic_fixed2_shr(ident_t *id_ref, int gtid, short *lhs, short rhs);
480	void __kmpc_atomic_fixed2u_shr(ident_t *id_ref, int gtid, unsigned short *lhs,
481	unsigned short rhs);
482	void __kmpc_atomic_fixed2_sub(ident_t *id_ref, int gtid, short *lhs, short rhs);
483	void __kmpc_atomic_fixed2_xor(ident_t *id_ref, int gtid, short *lhs, short rhs);
484	// 4-byte add / sub fixed
485	void __kmpc_atomic_fixed4_add(ident_t *id_ref, int gtid, kmp_int32 *lhs,
486	kmp_int32 rhs);
487	void __kmpc_atomic_fixed4_sub(ident_t *id_ref, int gtid, kmp_int32 *lhs,
488	kmp_int32 rhs);
489	// 4-byte add / sub float
490	void __kmpc_atomic_float4_add(ident_t *id_ref, int gtid, kmp_real32 *lhs,
491	kmp_real32 rhs);
492	void __kmpc_atomic_float4_sub(ident_t *id_ref, int gtid, kmp_real32 *lhs,
493	kmp_real32 rhs);
494	// 8-byte add / sub fixed
495	void __kmpc_atomic_fixed8_add(ident_t *id_ref, int gtid, kmp_int64 *lhs,
496	kmp_int64 rhs);
497	void __kmpc_atomic_fixed8_sub(ident_t *id_ref, int gtid, kmp_int64 *lhs,
498	kmp_int64 rhs);
499	// 8-byte add / sub float
500	void __kmpc_atomic_float8_add(ident_t *id_ref, int gtid, kmp_real64 *lhs,
501	kmp_real64 rhs);
502	void __kmpc_atomic_float8_sub(ident_t *id_ref, int gtid, kmp_real64 *lhs,
503	kmp_real64 rhs);
504	// 4-byte fixed
505	void __kmpc_atomic_fixed4_andb(ident_t *id_ref, int gtid, kmp_int32 *lhs,
506	kmp_int32 rhs);
507	void __kmpc_atomic_fixed4_div(ident_t *id_ref, int gtid, kmp_int32 *lhs,
508	kmp_int32 rhs);
509	void __kmpc_atomic_fixed4u_div(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
510	kmp_uint32 rhs);
511	void __kmpc_atomic_fixed4_mul(ident_t *id_ref, int gtid, kmp_int32 *lhs,
512	kmp_int32 rhs);
513	void __kmpc_atomic_fixed4_orb(ident_t *id_ref, int gtid, kmp_int32 *lhs,
514	kmp_int32 rhs);
515	void __kmpc_atomic_fixed4_shl(ident_t *id_ref, int gtid, kmp_int32 *lhs,
516	kmp_int32 rhs);
517	void __kmpc_atomic_fixed4_shr(ident_t *id_ref, int gtid, kmp_int32 *lhs,
518	kmp_int32 rhs);
519	void __kmpc_atomic_fixed4u_shr(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
520	kmp_uint32 rhs);
521	void __kmpc_atomic_fixed4_xor(ident_t *id_ref, int gtid, kmp_int32 *lhs,
522	kmp_int32 rhs);
523	// 8-byte fixed
524	void __kmpc_atomic_fixed8_andb(ident_t *id_ref, int gtid, kmp_int64 *lhs,
525	kmp_int64 rhs);
526	void __kmpc_atomic_fixed8_div(ident_t *id_ref, int gtid, kmp_int64 *lhs,
527	kmp_int64 rhs);
528	void __kmpc_atomic_fixed8u_div(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
529	kmp_uint64 rhs);
530	void __kmpc_atomic_fixed8_mul(ident_t *id_ref, int gtid, kmp_int64 *lhs,
531	kmp_int64 rhs);
532	void __kmpc_atomic_fixed8_orb(ident_t *id_ref, int gtid, kmp_int64 *lhs,
533	kmp_int64 rhs);
534	void __kmpc_atomic_fixed8_shl(ident_t *id_ref, int gtid, kmp_int64 *lhs,
535	kmp_int64 rhs);
536	void __kmpc_atomic_fixed8_shr(ident_t *id_ref, int gtid, kmp_int64 *lhs,
537	kmp_int64 rhs);
538	void __kmpc_atomic_fixed8u_shr(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
539	kmp_uint64 rhs);
540	void __kmpc_atomic_fixed8_xor(ident_t *id_ref, int gtid, kmp_int64 *lhs,
541	kmp_int64 rhs);
542	// 4-byte float
543	void __kmpc_atomic_float4_div(ident_t *id_ref, int gtid, kmp_real32 *lhs,
544	kmp_real32 rhs);
545	void __kmpc_atomic_float4_mul(ident_t *id_ref, int gtid, kmp_real32 *lhs,
546	kmp_real32 rhs);
547	// 8-byte float
548	void __kmpc_atomic_float8_div(ident_t *id_ref, int gtid, kmp_real64 *lhs,
549	kmp_real64 rhs);
550	void __kmpc_atomic_float8_mul(ident_t *id_ref, int gtid, kmp_real64 *lhs,
551	kmp_real64 rhs);
552	// 1-, 2-, 4-, 8-byte logical (&&, ||)
553	void __kmpc_atomic_fixed1_andl(ident_t *id_ref, int gtid, char *lhs, char rhs);
554	void __kmpc_atomic_fixed1_orl(ident_t *id_ref, int gtid, char *lhs, char rhs);
555	void __kmpc_atomic_fixed2_andl(ident_t *id_ref, int gtid, short *lhs,
556	short rhs);
557	void __kmpc_atomic_fixed2_orl(ident_t *id_ref, int gtid, short *lhs, short rhs);
558	void __kmpc_atomic_fixed4_andl(ident_t *id_ref, int gtid, kmp_int32 *lhs,
559	kmp_int32 rhs);
560	void __kmpc_atomic_fixed4_orl(ident_t *id_ref, int gtid, kmp_int32 *lhs,
561	kmp_int32 rhs);
562	void __kmpc_atomic_fixed8_andl(ident_t *id_ref, int gtid, kmp_int64 *lhs,
563	kmp_int64 rhs);
564	void __kmpc_atomic_fixed8_orl(ident_t *id_ref, int gtid, kmp_int64 *lhs,
565	kmp_int64 rhs);
566	// MIN / MAX
567	void __kmpc_atomic_fixed1_max(ident_t *id_ref, int gtid, char *lhs, char rhs);
568	void __kmpc_atomic_fixed1_min(ident_t *id_ref, int gtid, char *lhs, char rhs);
569	void __kmpc_atomic_fixed2_max(ident_t *id_ref, int gtid, short *lhs, short rhs);
570	void __kmpc_atomic_fixed2_min(ident_t *id_ref, int gtid, short *lhs, short rhs);
571	void __kmpc_atomic_fixed4_max(ident_t *id_ref, int gtid, kmp_int32 *lhs,
572	kmp_int32 rhs);
573	void __kmpc_atomic_fixed4_min(ident_t *id_ref, int gtid, kmp_int32 *lhs,
574	kmp_int32 rhs);
575	void __kmpc_atomic_fixed8_max(ident_t *id_ref, int gtid, kmp_int64 *lhs,
576	kmp_int64 rhs);
577	void __kmpc_atomic_fixed8_min(ident_t *id_ref, int gtid, kmp_int64 *lhs,
578	kmp_int64 rhs);
579	void __kmpc_atomic_float4_max(ident_t *id_ref, int gtid, kmp_real32 *lhs,
580	kmp_real32 rhs);
581	void __kmpc_atomic_float4_min(ident_t *id_ref, int gtid, kmp_real32 *lhs,
582	kmp_real32 rhs);
583	void __kmpc_atomic_float8_max(ident_t *id_ref, int gtid, kmp_real64 *lhs,
584	kmp_real64 rhs);
585	void __kmpc_atomic_float8_min(ident_t *id_ref, int gtid, kmp_real64 *lhs,
586	kmp_real64 rhs);
587	void __kmpc_atomic_float10_max(ident_t *id_ref, int gtid, long double *lhs,
588	long double rhs);
589	void __kmpc_atomic_float10_min(ident_t *id_ref, int gtid, long double *lhs,
590	long double rhs);
591	#if KMP_HAVE_QUAD
592	void __kmpc_atomic_float16_max(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
593	QUAD_LEGACY rhs);
594	void __kmpc_atomic_float16_min(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
595	QUAD_LEGACY rhs);
596	#if (KMP_ARCH_X86)
597	// Routines with 16-byte arguments aligned to 16-byte boundary; IA-32
598	// architecture only
599	void __kmpc_atomic_float16_max_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
600	Quad_a16_t rhs);
601	void __kmpc_atomic_float16_min_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
602	Quad_a16_t rhs);
603	#endif
604	#endif
605	// .NEQV. (same as xor)
606	void __kmpc_atomic_fixed1_neqv(ident_t *id_ref, int gtid, char *lhs, char rhs);
607	void __kmpc_atomic_fixed2_neqv(ident_t *id_ref, int gtid, short *lhs,
608	short rhs);
609	void __kmpc_atomic_fixed4_neqv(ident_t *id_ref, int gtid, kmp_int32 *lhs,
610	kmp_int32 rhs);
611	void __kmpc_atomic_fixed8_neqv(ident_t *id_ref, int gtid, kmp_int64 *lhs,
612	kmp_int64 rhs);
613	// .EQV. (same as ~xor)
614	void __kmpc_atomic_fixed1_eqv(ident_t *id_ref, int gtid, char *lhs, char rhs);
615	void __kmpc_atomic_fixed2_eqv(ident_t *id_ref, int gtid, short *lhs, short rhs);
616	void __kmpc_atomic_fixed4_eqv(ident_t *id_ref, int gtid, kmp_int32 *lhs,
617	kmp_int32 rhs);
618	void __kmpc_atomic_fixed8_eqv(ident_t *id_ref, int gtid, kmp_int64 *lhs,
619	kmp_int64 rhs);
620	// long double type
621	void __kmpc_atomic_float10_add(ident_t *id_ref, int gtid, long double *lhs,
622	long double rhs);
623	void __kmpc_atomic_float10_sub(ident_t *id_ref, int gtid, long double *lhs,
624	long double rhs);
625	void __kmpc_atomic_float10_mul(ident_t *id_ref, int gtid, long double *lhs,
626	long double rhs);
627	void __kmpc_atomic_float10_div(ident_t *id_ref, int gtid, long double *lhs,
628	long double rhs);
629	// _Quad type
630	#if KMP_HAVE_QUAD
631	void __kmpc_atomic_float16_add(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
632	QUAD_LEGACY rhs);
633	void __kmpc_atomic_float16_sub(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
634	QUAD_LEGACY rhs);
635	void __kmpc_atomic_float16_mul(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
636	QUAD_LEGACY rhs);
637	void __kmpc_atomic_float16_div(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
638	QUAD_LEGACY rhs);
639	#if (KMP_ARCH_X86)
640	// Routines with 16-byte arguments aligned to 16-byte boundary
641	void __kmpc_atomic_float16_add_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
642	Quad_a16_t rhs);
643	void __kmpc_atomic_float16_sub_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
644	Quad_a16_t rhs);
645	void __kmpc_atomic_float16_mul_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
646	Quad_a16_t rhs);
647	void __kmpc_atomic_float16_div_a16(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
648	Quad_a16_t rhs);
649	#endif
650	#endif
651	// routines for complex types
652	void __kmpc_atomic_cmplx4_add(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
653	kmp_cmplx32 rhs);
654	void __kmpc_atomic_cmplx4_sub(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
655	kmp_cmplx32 rhs);
656	void __kmpc_atomic_cmplx4_mul(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
657	kmp_cmplx32 rhs);
658	void __kmpc_atomic_cmplx4_div(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
659	kmp_cmplx32 rhs);
660	void __kmpc_atomic_cmplx8_add(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
661	kmp_cmplx64 rhs);
662	void __kmpc_atomic_cmplx8_sub(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
663	kmp_cmplx64 rhs);
664	void __kmpc_atomic_cmplx8_mul(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
665	kmp_cmplx64 rhs);
666	void __kmpc_atomic_cmplx8_div(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
667	kmp_cmplx64 rhs);
668	void __kmpc_atomic_cmplx10_add(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
669	kmp_cmplx80 rhs);
670	void __kmpc_atomic_cmplx10_sub(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
671	kmp_cmplx80 rhs);
672	void __kmpc_atomic_cmplx10_mul(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
673	kmp_cmplx80 rhs);
674	void __kmpc_atomic_cmplx10_div(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
675	kmp_cmplx80 rhs);
676	#if KMP_HAVE_QUAD
677	void __kmpc_atomic_cmplx16_add(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
678	CPLX128_LEG rhs);
679	void __kmpc_atomic_cmplx16_sub(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
680	CPLX128_LEG rhs);
681	void __kmpc_atomic_cmplx16_mul(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
682	CPLX128_LEG rhs);
683	void __kmpc_atomic_cmplx16_div(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
684	CPLX128_LEG rhs);
685	#if (KMP_ARCH_X86)
686	// Routines with 16-byte arguments aligned to 16-byte boundary
687	void __kmpc_atomic_cmplx16_add_a16(ident_t *id_ref, int gtid,
688	kmp_cmplx128_a16_t *lhs,
689	kmp_cmplx128_a16_t rhs);
690	void __kmpc_atomic_cmplx16_sub_a16(ident_t *id_ref, int gtid,
691	kmp_cmplx128_a16_t *lhs,
692	kmp_cmplx128_a16_t rhs);
693	void __kmpc_atomic_cmplx16_mul_a16(ident_t *id_ref, int gtid,
694	kmp_cmplx128_a16_t *lhs,
695	kmp_cmplx128_a16_t rhs);
696	void __kmpc_atomic_cmplx16_div_a16(ident_t *id_ref, int gtid,
697	kmp_cmplx128_a16_t *lhs,
698	kmp_cmplx128_a16_t rhs);
699	#endif
700	#endif
701
702	// OpenMP 4.0: x = expr binop x for non-commutative operations.
703	// Supported only on IA-32 architecture and Intel(R) 64
704	#if KMP_ARCH_X86 || KMP_ARCH_X86_64
705
706	void __kmpc_atomic_fixed1_sub_rev(ident_t *id_ref, int gtid, char *lhs,
707	char rhs);
708	void __kmpc_atomic_fixed1_div_rev(ident_t *id_ref, int gtid, char *lhs,
709	char rhs);
710	void __kmpc_atomic_fixed1u_div_rev(ident_t *id_ref, int gtid,
711	unsigned char *lhs, unsigned char rhs);
712	void __kmpc_atomic_fixed1_shl_rev(ident_t *id_ref, int gtid, char *lhs,
713	char rhs);
714	void __kmpc_atomic_fixed1_shr_rev(ident_t *id_ref, int gtid, char *lhs,
715	char rhs);
716	void __kmpc_atomic_fixed1u_shr_rev(ident_t *id_ref, int gtid,
717	unsigned char *lhs, unsigned char rhs);
718	void __kmpc_atomic_fixed2_sub_rev(ident_t *id_ref, int gtid, short *lhs,
719	short rhs);
720	void __kmpc_atomic_fixed2_div_rev(ident_t *id_ref, int gtid, short *lhs,
721	short rhs);
722	void __kmpc_atomic_fixed2u_div_rev(ident_t *id_ref, int gtid,
723	unsigned short *lhs, unsigned short rhs);
724	void __kmpc_atomic_fixed2_shl_rev(ident_t *id_ref, int gtid, short *lhs,
725	short rhs);
726	void __kmpc_atomic_fixed2_shr_rev(ident_t *id_ref, int gtid, short *lhs,
727	short rhs);
728	void __kmpc_atomic_fixed2u_shr_rev(ident_t *id_ref, int gtid,
729	unsigned short *lhs, unsigned short rhs);
730	void __kmpc_atomic_fixed4_sub_rev(ident_t *id_ref, int gtid, kmp_int32 *lhs,
731	kmp_int32 rhs);
732	void __kmpc_atomic_fixed4_div_rev(ident_t *id_ref, int gtid, kmp_int32 *lhs,
733	kmp_int32 rhs);
734	void __kmpc_atomic_fixed4u_div_rev(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
735	kmp_uint32 rhs);
736	void __kmpc_atomic_fixed4_shl_rev(ident_t *id_ref, int gtid, kmp_int32 *lhs,
737	kmp_int32 rhs);
738	void __kmpc_atomic_fixed4_shr_rev(ident_t *id_ref, int gtid, kmp_int32 *lhs,
739	kmp_int32 rhs);
740	void __kmpc_atomic_fixed4u_shr_rev(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
741	kmp_uint32 rhs);
742	void __kmpc_atomic_fixed8_sub_rev(ident_t *id_ref, int gtid, kmp_int64 *lhs,
743	kmp_int64 rhs);
744	void __kmpc_atomic_fixed8_div_rev(ident_t *id_ref, int gtid, kmp_int64 *lhs,
745	kmp_int64 rhs);
746	void __kmpc_atomic_fixed8u_div_rev(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
747	kmp_uint64 rhs);
748	void __kmpc_atomic_fixed8_shl_rev(ident_t *id_ref, int gtid, kmp_int64 *lhs,
749	kmp_int64 rhs);
750	void __kmpc_atomic_fixed8_shr_rev(ident_t *id_ref, int gtid, kmp_int64 *lhs,
751	kmp_int64 rhs);
752	void __kmpc_atomic_fixed8u_shr_rev(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
753	kmp_uint64 rhs);
754	void __kmpc_atomic_float4_sub_rev(ident_t *id_ref, int gtid, float *lhs,
755	float rhs);
756	void __kmpc_atomic_float4_div_rev(ident_t *id_ref, int gtid, float *lhs,
757	float rhs);
758	void __kmpc_atomic_float8_sub_rev(ident_t *id_ref, int gtid, double *lhs,
759	double rhs);
760	void __kmpc_atomic_float8_div_rev(ident_t *id_ref, int gtid, double *lhs,
761	double rhs);
762	void __kmpc_atomic_float10_sub_rev(ident_t *id_ref, int gtid, long double *lhs,
763	long double rhs);
764	void __kmpc_atomic_float10_div_rev(ident_t *id_ref, int gtid, long double *lhs,
765	long double rhs);
766	#if KMP_HAVE_QUAD
767	void __kmpc_atomic_float16_sub_rev(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
768	QUAD_LEGACY rhs);
769	void __kmpc_atomic_float16_div_rev(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
770	QUAD_LEGACY rhs);
771	#endif
772	void __kmpc_atomic_cmplx4_sub_rev(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
773	kmp_cmplx32 rhs);
774	void __kmpc_atomic_cmplx4_div_rev(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
775	kmp_cmplx32 rhs);
776	void __kmpc_atomic_cmplx8_sub_rev(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
777	kmp_cmplx64 rhs);
778	void __kmpc_atomic_cmplx8_div_rev(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
779	kmp_cmplx64 rhs);
780	void __kmpc_atomic_cmplx10_sub_rev(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
781	kmp_cmplx80 rhs);
782	void __kmpc_atomic_cmplx10_div_rev(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
783	kmp_cmplx80 rhs);
784	#if KMP_HAVE_QUAD
785	void __kmpc_atomic_cmplx16_sub_rev(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
786	CPLX128_LEG rhs);
787	void __kmpc_atomic_cmplx16_div_rev(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
788	CPLX128_LEG rhs);
789	#if (KMP_ARCH_X86)
790	// Routines with 16-byte arguments aligned to 16-byte boundary
791	void __kmpc_atomic_float16_sub_a16_rev(ident_t *id_ref, int gtid,
792	Quad_a16_t *lhs, Quad_a16_t rhs);
793	void __kmpc_atomic_float16_div_a16_rev(ident_t *id_ref, int gtid,
794	Quad_a16_t *lhs, Quad_a16_t rhs);
795	void __kmpc_atomic_cmplx16_sub_a16_rev(ident_t *id_ref, int gtid,
796	kmp_cmplx128_a16_t *lhs,
797	kmp_cmplx128_a16_t rhs);
798	void __kmpc_atomic_cmplx16_div_a16_rev(ident_t *id_ref, int gtid,
799	kmp_cmplx128_a16_t *lhs,
800	kmp_cmplx128_a16_t rhs);
801	#endif
802	#endif // KMP_HAVE_QUAD
803
804	#endif // KMP_ARCH_X86 || KMP_ARCH_X86_64
805
806	// routines for mixed types
807
808	// RHS=float8
809	void __kmpc_atomic_fixed1_mul_float8(ident_t *id_ref, int gtid, char *lhs,
810	kmp_real64 rhs);
811	void __kmpc_atomic_fixed1_div_float8(ident_t *id_ref, int gtid, char *lhs,
812	kmp_real64 rhs);
813	void __kmpc_atomic_fixed2_mul_float8(ident_t *id_ref, int gtid, short *lhs,
814	kmp_real64 rhs);
815	void __kmpc_atomic_fixed2_div_float8(ident_t *id_ref, int gtid, short *lhs,
816	kmp_real64 rhs);
817	void __kmpc_atomic_fixed4_mul_float8(ident_t *id_ref, int gtid, kmp_int32 *lhs,
818	kmp_real64 rhs);
819	void __kmpc_atomic_fixed4_div_float8(ident_t *id_ref, int gtid, kmp_int32 *lhs,
820	kmp_real64 rhs);
821	void __kmpc_atomic_fixed8_mul_float8(ident_t *id_ref, int gtid, kmp_int64 *lhs,
822	kmp_real64 rhs);
823	void __kmpc_atomic_fixed8_div_float8(ident_t *id_ref, int gtid, kmp_int64 *lhs,
824	kmp_real64 rhs);
825	void __kmpc_atomic_float4_add_float8(ident_t *id_ref, int gtid, kmp_real32 *lhs,
826	kmp_real64 rhs);
827	void __kmpc_atomic_float4_sub_float8(ident_t *id_ref, int gtid, kmp_real32 *lhs,
828	kmp_real64 rhs);
829	void __kmpc_atomic_float4_mul_float8(ident_t *id_ref, int gtid, kmp_real32 *lhs,
830	kmp_real64 rhs);
831	void __kmpc_atomic_float4_div_float8(ident_t *id_ref, int gtid, kmp_real32 *lhs,
832	kmp_real64 rhs);
833
834	// RHS=float16 (deprecated, to be removed when we are sure the compiler does not
835	// use them)
836	#if KMP_HAVE_QUAD
837	void __kmpc_atomic_fixed1_add_fp(ident_t *id_ref, int gtid, char *lhs,
838	_Quad rhs);
839	void __kmpc_atomic_fixed1u_add_fp(ident_t *id_ref, int gtid, unsigned char *lhs,
840	_Quad rhs);
841	void __kmpc_atomic_fixed1_sub_fp(ident_t *id_ref, int gtid, char *lhs,
842	_Quad rhs);
843	void __kmpc_atomic_fixed1u_sub_fp(ident_t *id_ref, int gtid, unsigned char *lhs,
844	_Quad rhs);
845	void __kmpc_atomic_fixed1_mul_fp(ident_t *id_ref, int gtid, char *lhs,
846	_Quad rhs);
847	void __kmpc_atomic_fixed1u_mul_fp(ident_t *id_ref, int gtid, unsigned char *lhs,
848	_Quad rhs);
849	void __kmpc_atomic_fixed1_div_fp(ident_t *id_ref, int gtid, char *lhs,
850	_Quad rhs);
851	void __kmpc_atomic_fixed1u_div_fp(ident_t *id_ref, int gtid, unsigned char *lhs,
852	_Quad rhs);
853
854	void __kmpc_atomic_fixed2_add_fp(ident_t *id_ref, int gtid, short *lhs,
855	_Quad rhs);
856	void __kmpc_atomic_fixed2u_add_fp(ident_t *id_ref, int gtid,
857	unsigned short *lhs, _Quad rhs);
858	void __kmpc_atomic_fixed2_sub_fp(ident_t *id_ref, int gtid, short *lhs,
859	_Quad rhs);
860	void __kmpc_atomic_fixed2u_sub_fp(ident_t *id_ref, int gtid,
861	unsigned short *lhs, _Quad rhs);
862	void __kmpc_atomic_fixed2_mul_fp(ident_t *id_ref, int gtid, short *lhs,
863	_Quad rhs);
864	void __kmpc_atomic_fixed2u_mul_fp(ident_t *id_ref, int gtid,
865	unsigned short *lhs, _Quad rhs);
866	void __kmpc_atomic_fixed2_div_fp(ident_t *id_ref, int gtid, short *lhs,
867	_Quad rhs);
868	void __kmpc_atomic_fixed2u_div_fp(ident_t *id_ref, int gtid,
869	unsigned short *lhs, _Quad rhs);
870
871	void __kmpc_atomic_fixed4_add_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
872	_Quad rhs);
873	void __kmpc_atomic_fixed4u_add_fp(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
874	_Quad rhs);
875	void __kmpc_atomic_fixed4_sub_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
876	_Quad rhs);
877	void __kmpc_atomic_fixed4u_sub_fp(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
878	_Quad rhs);
879	void __kmpc_atomic_fixed4_mul_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
880	_Quad rhs);
881	void __kmpc_atomic_fixed4u_mul_fp(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
882	_Quad rhs);
883	void __kmpc_atomic_fixed4_div_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
884	_Quad rhs);
885	void __kmpc_atomic_fixed4u_div_fp(ident_t *id_ref, int gtid, kmp_uint32 *lhs,
886	_Quad rhs);
887
888	void __kmpc_atomic_fixed8_add_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
889	_Quad rhs);
890	void __kmpc_atomic_fixed8u_add_fp(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
891	_Quad rhs);
892	void __kmpc_atomic_fixed8_sub_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
893	_Quad rhs);
894	void __kmpc_atomic_fixed8u_sub_fp(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
895	_Quad rhs);
896	void __kmpc_atomic_fixed8_mul_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
897	_Quad rhs);
898	void __kmpc_atomic_fixed8u_mul_fp(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
899	_Quad rhs);
900	void __kmpc_atomic_fixed8_div_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
901	_Quad rhs);
902	void __kmpc_atomic_fixed8u_div_fp(ident_t *id_ref, int gtid, kmp_uint64 *lhs,
903	_Quad rhs);
904
905	void __kmpc_atomic_float4_add_fp(ident_t *id_ref, int gtid, kmp_real32 *lhs,
906	_Quad rhs);
907	void __kmpc_atomic_float4_sub_fp(ident_t *id_ref, int gtid, kmp_real32 *lhs,
908	_Quad rhs);
909	void __kmpc_atomic_float4_mul_fp(ident_t *id_ref, int gtid, kmp_real32 *lhs,
910	_Quad rhs);
911	void __kmpc_atomic_float4_div_fp(ident_t *id_ref, int gtid, kmp_real32 *lhs,
912	_Quad rhs);
913
914	void __kmpc_atomic_float8_add_fp(ident_t *id_ref, int gtid, kmp_real64 *lhs,
915	_Quad rhs);
916	void __kmpc_atomic_float8_sub_fp(ident_t *id_ref, int gtid, kmp_real64 *lhs,
917	_Quad rhs);
918	void __kmpc_atomic_float8_mul_fp(ident_t *id_ref, int gtid, kmp_real64 *lhs,
919	_Quad rhs);
920	void __kmpc_atomic_float8_div_fp(ident_t *id_ref, int gtid, kmp_real64 *lhs,
921	_Quad rhs);
922
923	void __kmpc_atomic_float10_add_fp(ident_t *id_ref, int gtid, long double *lhs,
924	_Quad rhs);
925	void __kmpc_atomic_float10_sub_fp(ident_t *id_ref, int gtid, long double *lhs,
926	_Quad rhs);
927	void __kmpc_atomic_float10_mul_fp(ident_t *id_ref, int gtid, long double *lhs,
928	_Quad rhs);
929	void __kmpc_atomic_float10_div_fp(ident_t *id_ref, int gtid, long double *lhs,
930	_Quad rhs);
931
932	// Reverse operations
933	void __kmpc_atomic_fixed1_sub_rev_fp(ident_t *id_ref, int gtid, char *lhs,
934	_Quad rhs);
935	void __kmpc_atomic_fixed1u_sub_rev_fp(ident_t *id_ref, int gtid,
936	unsigned char *lhs, _Quad rhs);
937	void __kmpc_atomic_fixed1_div_rev_fp(ident_t *id_ref, int gtid, char *lhs,
938	_Quad rhs);
939	void __kmpc_atomic_fixed1u_div_rev_fp(ident_t *id_ref, int gtid,
940	unsigned char *lhs, _Quad rhs);
941	void __kmpc_atomic_fixed2_sub_rev_fp(ident_t *id_ref, int gtid, short *lhs,
942	_Quad rhs);
943	void __kmpc_atomic_fixed2u_sub_rev_fp(ident_t *id_ref, int gtid,
944	unsigned short *lhs, _Quad rhs);
945	void __kmpc_atomic_fixed2_div_rev_fp(ident_t *id_ref, int gtid, short *lhs,
946	_Quad rhs);
947	void __kmpc_atomic_fixed2u_div_rev_fp(ident_t *id_ref, int gtid,
948	unsigned short *lhs, _Quad rhs);
949	void __kmpc_atomic_fixed4_sub_rev_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
950	_Quad rhs);
951	void __kmpc_atomic_fixed4u_sub_rev_fp(ident_t *id_ref, int gtid,
952	kmp_uint32 *lhs, _Quad rhs);
953	void __kmpc_atomic_fixed4_div_rev_fp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
954	_Quad rhs);
955	void __kmpc_atomic_fixed4u_div_rev_fp(ident_t *id_ref, int gtid,
956	kmp_uint32 *lhs, _Quad rhs);
957	void __kmpc_atomic_fixed8_sub_rev_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
958	_Quad rhs);
959	void __kmpc_atomic_fixed8u_sub_rev_fp(ident_t *id_ref, int gtid,
960	kmp_uint64 *lhs, _Quad rhs);
961	void __kmpc_atomic_fixed8_div_rev_fp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
962	_Quad rhs);
963	void __kmpc_atomic_fixed8u_div_rev_fp(ident_t *id_ref, int gtid,
964	kmp_uint64 *lhs, _Quad rhs);
965	void __kmpc_atomic_float4_sub_rev_fp(ident_t *id_ref, int gtid, float *lhs,
966	_Quad rhs);
967	void __kmpc_atomic_float4_div_rev_fp(ident_t *id_ref, int gtid, float *lhs,
968	_Quad rhs);
969	void __kmpc_atomic_float8_sub_rev_fp(ident_t *id_ref, int gtid, double *lhs,
970	_Quad rhs);
971	void __kmpc_atomic_float8_div_rev_fp(ident_t *id_ref, int gtid, double *lhs,
972	_Quad rhs);
973	void __kmpc_atomic_float10_sub_rev_fp(ident_t *id_ref, int gtid,
974	long double *lhs, _Quad rhs);
975	void __kmpc_atomic_float10_div_rev_fp(ident_t *id_ref, int gtid,
976	long double *lhs, _Quad rhs);
977
978	#endif // KMP_HAVE_QUAD
979
980	// RHS=cmplx8
981	void __kmpc_atomic_cmplx4_add_cmplx8(ident_t *id_ref, int gtid,
982	kmp_cmplx32 *lhs, kmp_cmplx64 rhs);
983	void __kmpc_atomic_cmplx4_sub_cmplx8(ident_t *id_ref, int gtid,
984	kmp_cmplx32 *lhs, kmp_cmplx64 rhs);
985	void __kmpc_atomic_cmplx4_mul_cmplx8(ident_t *id_ref, int gtid,
986	kmp_cmplx32 *lhs, kmp_cmplx64 rhs);
987	void __kmpc_atomic_cmplx4_div_cmplx8(ident_t *id_ref, int gtid,
988	kmp_cmplx32 *lhs, kmp_cmplx64 rhs);
989
990	// generic atomic routines
991	void __kmpc_atomic_1(ident_t *id_ref, int gtid, void *lhs, void *rhs,
992	void (*f)(void *, void *, void *));
993	void __kmpc_atomic_2(ident_t *id_ref, int gtid, void *lhs, void *rhs,
994	void (*f)(void *, void *, void *));
995	void __kmpc_atomic_4(ident_t *id_ref, int gtid, void *lhs, void *rhs,
996	void (*f)(void *, void *, void *));
997	void __kmpc_atomic_8(ident_t *id_ref, int gtid, void *lhs, void *rhs,
998	void (*f)(void *, void *, void *));
999	void __kmpc_atomic_10(ident_t *id_ref, int gtid, void *lhs, void *rhs,
1000	void (*f)(void *, void *, void *));
1001	void __kmpc_atomic_16(ident_t *id_ref, int gtid, void *lhs, void *rhs,
1002	void (*f)(void *, void *, void *));
1003	void __kmpc_atomic_20(ident_t *id_ref, int gtid, void *lhs, void *rhs,
1004	void (*f)(void *, void *, void *));
1005	void __kmpc_atomic_32(ident_t *id_ref, int gtid, void *lhs, void *rhs,
1006	void (*f)(void *, void *, void *));
1007
1008	// READ, WRITE, CAPTURE
1009
1010	// Below routines for atomic READ are listed
1011	char __kmpc_atomic_fixed1_rd(ident_t *id_ref, int gtid, char *loc);
1012	short __kmpc_atomic_fixed2_rd(ident_t *id_ref, int gtid, short *loc);
1013	kmp_int32 __kmpc_atomic_fixed4_rd(ident_t *id_ref, int gtid, kmp_int32 *loc);
1014	kmp_int64 __kmpc_atomic_fixed8_rd(ident_t *id_ref, int gtid, kmp_int64 *loc);
1015	kmp_real32 __kmpc_atomic_float4_rd(ident_t *id_ref, int gtid, kmp_real32 *loc);
1016	kmp_real64 __kmpc_atomic_float8_rd(ident_t *id_ref, int gtid, kmp_real64 *loc);
1017	long double __kmpc_atomic_float10_rd(ident_t *id_ref, int gtid,
1018	long double *loc);
1019	#if KMP_HAVE_QUAD
1020	QUAD_LEGACY __kmpc_atomic_float16_rd(ident_t *id_ref, int gtid,
1021	QUAD_LEGACY *loc);
1022	#endif
1023	// Fix for CQ220361: cmplx4 READ will return void on Windows* OS; read value
1024	// will be returned through an additional parameter
1025	#if (KMP_OS_WINDOWS)
1026	void __kmpc_atomic_cmplx4_rd(kmp_cmplx32 *out, ident_t *id_ref, int gtid,
1027	kmp_cmplx32 *loc);
1028	#else
1029	kmp_cmplx32 __kmpc_atomic_cmplx4_rd(ident_t *id_ref, int gtid,
1030	kmp_cmplx32 *loc);
1031	#endif
1032	kmp_cmplx64 __kmpc_atomic_cmplx8_rd(ident_t *id_ref, int gtid,
1033	kmp_cmplx64 *loc);
1034	kmp_cmplx80 __kmpc_atomic_cmplx10_rd(ident_t *id_ref, int gtid,
1035	kmp_cmplx80 *loc);
1036	#if KMP_HAVE_QUAD
1037	CPLX128_LEG __kmpc_atomic_cmplx16_rd(ident_t *id_ref, int gtid,
1038	CPLX128_LEG *loc);
1039	#if (KMP_ARCH_X86)
1040	// Routines with 16-byte arguments aligned to 16-byte boundary
1041	Quad_a16_t __kmpc_atomic_float16_a16_rd(ident_t *id_ref, int gtid,
1042	Quad_a16_t *loc);
1043	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_a16_rd(ident_t *id_ref, int gtid,
1044	kmp_cmplx128_a16_t *loc);
1045	#endif
1046	#endif
1047
1048	// Below routines for atomic WRITE are listed
1049	void __kmpc_atomic_fixed1_wr(ident_t *id_ref, int gtid, char *lhs, char rhs);
1050	void __kmpc_atomic_fixed2_wr(ident_t *id_ref, int gtid, short *lhs, short rhs);
1051	void __kmpc_atomic_fixed4_wr(ident_t *id_ref, int gtid, kmp_int32 *lhs,
1052	kmp_int32 rhs);
1053	void __kmpc_atomic_fixed8_wr(ident_t *id_ref, int gtid, kmp_int64 *lhs,
1054	kmp_int64 rhs);
1055	void __kmpc_atomic_float4_wr(ident_t *id_ref, int gtid, kmp_real32 *lhs,
1056	kmp_real32 rhs);
1057	void __kmpc_atomic_float8_wr(ident_t *id_ref, int gtid, kmp_real64 *lhs,
1058	kmp_real64 rhs);
1059	void __kmpc_atomic_float10_wr(ident_t *id_ref, int gtid, long double *lhs,
1060	long double rhs);
1061	#if KMP_HAVE_QUAD
1062	void __kmpc_atomic_float16_wr(ident_t *id_ref, int gtid, QUAD_LEGACY *lhs,
1063	QUAD_LEGACY rhs);
1064	#endif
1065	void __kmpc_atomic_cmplx4_wr(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1066	kmp_cmplx32 rhs);
1067	void __kmpc_atomic_cmplx8_wr(ident_t *id_ref, int gtid, kmp_cmplx64 *lhs,
1068	kmp_cmplx64 rhs);
1069	void __kmpc_atomic_cmplx10_wr(ident_t *id_ref, int gtid, kmp_cmplx80 *lhs,
1070	kmp_cmplx80 rhs);
1071	#if KMP_HAVE_QUAD
1072	void __kmpc_atomic_cmplx16_wr(ident_t *id_ref, int gtid, CPLX128_LEG *lhs,
1073	CPLX128_LEG rhs);
1074	#if (KMP_ARCH_X86)
1075	// Routines with 16-byte arguments aligned to 16-byte boundary
1076	void __kmpc_atomic_float16_a16_wr(ident_t *id_ref, int gtid, Quad_a16_t *lhs,
1077	Quad_a16_t rhs);
1078	void __kmpc_atomic_cmplx16_a16_wr(ident_t *id_ref, int gtid,
1079	kmp_cmplx128_a16_t *lhs,
1080	kmp_cmplx128_a16_t rhs);
1081	#endif
1082	#endif
1083
1084	// Below routines for atomic CAPTURE are listed
1085
1086	// 1-byte
1087	char __kmpc_atomic_fixed1_add_cpt(ident_t *id_ref, int gtid, char *lhs,
1088	char rhs, int flag);
1089	char __kmpc_atomic_fixed1_andb_cpt(ident_t *id_ref, int gtid, char *lhs,
1090	char rhs, int flag);
1091	char __kmpc_atomic_fixed1_div_cpt(ident_t *id_ref, int gtid, char *lhs,
1092	char rhs, int flag);
1093	unsigned char __kmpc_atomic_fixed1u_div_cpt(ident_t *id_ref, int gtid,
1094	unsigned char *lhs,
1095	unsigned char rhs, int flag);
1096	char __kmpc_atomic_fixed1_mul_cpt(ident_t *id_ref, int gtid, char *lhs,
1097	char rhs, int flag);
1098	char __kmpc_atomic_fixed1_orb_cpt(ident_t *id_ref, int gtid, char *lhs,
1099	char rhs, int flag);
1100	char __kmpc_atomic_fixed1_shl_cpt(ident_t *id_ref, int gtid, char *lhs,
1101	char rhs, int flag);
1102	char __kmpc_atomic_fixed1_shr_cpt(ident_t *id_ref, int gtid, char *lhs,
1103	char rhs, int flag);
1104	unsigned char __kmpc_atomic_fixed1u_shr_cpt(ident_t *id_ref, int gtid,
1105	unsigned char *lhs,
1106	unsigned char rhs, int flag);
1107	char __kmpc_atomic_fixed1_sub_cpt(ident_t *id_ref, int gtid, char *lhs,
1108	char rhs, int flag);
1109	char __kmpc_atomic_fixed1_xor_cpt(ident_t *id_ref, int gtid, char *lhs,
1110	char rhs, int flag);
1111	// 2-byte
1112	short __kmpc_atomic_fixed2_add_cpt(ident_t *id_ref, int gtid, short *lhs,
1113	short rhs, int flag);
1114	short __kmpc_atomic_fixed2_andb_cpt(ident_t *id_ref, int gtid, short *lhs,
1115	short rhs, int flag);
1116	short __kmpc_atomic_fixed2_div_cpt(ident_t *id_ref, int gtid, short *lhs,
1117	short rhs, int flag);
1118	unsigned short __kmpc_atomic_fixed2u_div_cpt(ident_t *id_ref, int gtid,
1119	unsigned short *lhs,
1120	unsigned short rhs, int flag);
1121	short __kmpc_atomic_fixed2_mul_cpt(ident_t *id_ref, int gtid, short *lhs,
1122	short rhs, int flag);
1123	short __kmpc_atomic_fixed2_orb_cpt(ident_t *id_ref, int gtid, short *lhs,
1124	short rhs, int flag);
1125	short __kmpc_atomic_fixed2_shl_cpt(ident_t *id_ref, int gtid, short *lhs,
1126	short rhs, int flag);
1127	short __kmpc_atomic_fixed2_shr_cpt(ident_t *id_ref, int gtid, short *lhs,
1128	short rhs, int flag);
1129	unsigned short __kmpc_atomic_fixed2u_shr_cpt(ident_t *id_ref, int gtid,
1130	unsigned short *lhs,
1131	unsigned short rhs, int flag);
1132	short __kmpc_atomic_fixed2_sub_cpt(ident_t *id_ref, int gtid, short *lhs,
1133	short rhs, int flag);
1134	short __kmpc_atomic_fixed2_xor_cpt(ident_t *id_ref, int gtid, short *lhs,
1135	short rhs, int flag);
1136	// 4-byte add / sub fixed
1137	kmp_int32 __kmpc_atomic_fixed4_add_cpt(ident_t *id_ref, int gtid,
1138	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1139	kmp_int32 __kmpc_atomic_fixed4_sub_cpt(ident_t *id_ref, int gtid,
1140	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1141	// 4-byte add / sub float
1142	kmp_real32 __kmpc_atomic_float4_add_cpt(ident_t *id_ref, int gtid,
1143	kmp_real32 *lhs, kmp_real32 rhs,
1144	int flag);
1145	kmp_real32 __kmpc_atomic_float4_sub_cpt(ident_t *id_ref, int gtid,
1146	kmp_real32 *lhs, kmp_real32 rhs,
1147	int flag);
1148	// 8-byte add / sub fixed
1149	kmp_int64 __kmpc_atomic_fixed8_add_cpt(ident_t *id_ref, int gtid,
1150	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1151	kmp_int64 __kmpc_atomic_fixed8_sub_cpt(ident_t *id_ref, int gtid,
1152	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1153	// 8-byte add / sub float
1154	kmp_real64 __kmpc_atomic_float8_add_cpt(ident_t *id_ref, int gtid,
1155	kmp_real64 *lhs, kmp_real64 rhs,
1156	int flag);
1157	kmp_real64 __kmpc_atomic_float8_sub_cpt(ident_t *id_ref, int gtid,
1158	kmp_real64 *lhs, kmp_real64 rhs,
1159	int flag);
1160	// 4-byte fixed
1161	kmp_int32 __kmpc_atomic_fixed4_andb_cpt(ident_t *id_ref, int gtid,
1162	kmp_int32 *lhs, kmp_int32 rhs,
1163	int flag);
1164	kmp_int32 __kmpc_atomic_fixed4_div_cpt(ident_t *id_ref, int gtid,
1165	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1166	kmp_uint32 __kmpc_atomic_fixed4u_div_cpt(ident_t *id_ref, int gtid,
1167	kmp_uint32 *lhs, kmp_uint32 rhs,
1168	int flag);
1169	kmp_int32 __kmpc_atomic_fixed4_mul_cpt(ident_t *id_ref, int gtid,
1170	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1171	kmp_int32 __kmpc_atomic_fixed4_orb_cpt(ident_t *id_ref, int gtid,
1172	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1173	kmp_int32 __kmpc_atomic_fixed4_shl_cpt(ident_t *id_ref, int gtid,
1174	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1175	kmp_int32 __kmpc_atomic_fixed4_shr_cpt(ident_t *id_ref, int gtid,
1176	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1177	kmp_uint32 __kmpc_atomic_fixed4u_shr_cpt(ident_t *id_ref, int gtid,
1178	kmp_uint32 *lhs, kmp_uint32 rhs,
1179	int flag);
1180	kmp_int32 __kmpc_atomic_fixed4_xor_cpt(ident_t *id_ref, int gtid,
1181	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1182	// 8-byte fixed
1183	kmp_int64 __kmpc_atomic_fixed8_andb_cpt(ident_t *id_ref, int gtid,
1184	kmp_int64 *lhs, kmp_int64 rhs,
1185	int flag);
1186	kmp_int64 __kmpc_atomic_fixed8_div_cpt(ident_t *id_ref, int gtid,
1187	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1188	kmp_uint64 __kmpc_atomic_fixed8u_div_cpt(ident_t *id_ref, int gtid,
1189	kmp_uint64 *lhs, kmp_uint64 rhs,
1190	int flag);
1191	kmp_int64 __kmpc_atomic_fixed8_mul_cpt(ident_t *id_ref, int gtid,
1192	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1193	kmp_int64 __kmpc_atomic_fixed8_orb_cpt(ident_t *id_ref, int gtid,
1194	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1195	kmp_int64 __kmpc_atomic_fixed8_shl_cpt(ident_t *id_ref, int gtid,
1196	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1197	kmp_int64 __kmpc_atomic_fixed8_shr_cpt(ident_t *id_ref, int gtid,
1198	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1199	kmp_uint64 __kmpc_atomic_fixed8u_shr_cpt(ident_t *id_ref, int gtid,
1200	kmp_uint64 *lhs, kmp_uint64 rhs,
1201	int flag);
1202	kmp_int64 __kmpc_atomic_fixed8_xor_cpt(ident_t *id_ref, int gtid,
1203	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1204	// 4-byte float
1205	kmp_real32 __kmpc_atomic_float4_div_cpt(ident_t *id_ref, int gtid,
1206	kmp_real32 *lhs, kmp_real32 rhs,
1207	int flag);
1208	kmp_real32 __kmpc_atomic_float4_mul_cpt(ident_t *id_ref, int gtid,
1209	kmp_real32 *lhs, kmp_real32 rhs,
1210	int flag);
1211	// 8-byte float
1212	kmp_real64 __kmpc_atomic_float8_div_cpt(ident_t *id_ref, int gtid,
1213	kmp_real64 *lhs, kmp_real64 rhs,
1214	int flag);
1215	kmp_real64 __kmpc_atomic_float8_mul_cpt(ident_t *id_ref, int gtid,
1216	kmp_real64 *lhs, kmp_real64 rhs,
1217	int flag);
1218	// 1-, 2-, 4-, 8-byte logical (&&, ||)
1219	char __kmpc_atomic_fixed1_andl_cpt(ident_t *id_ref, int gtid, char *lhs,
1220	char rhs, int flag);
1221	char __kmpc_atomic_fixed1_orl_cpt(ident_t *id_ref, int gtid, char *lhs,
1222	char rhs, int flag);
1223	short __kmpc_atomic_fixed2_andl_cpt(ident_t *id_ref, int gtid, short *lhs,
1224	short rhs, int flag);
1225	short __kmpc_atomic_fixed2_orl_cpt(ident_t *id_ref, int gtid, short *lhs,
1226	short rhs, int flag);
1227	kmp_int32 __kmpc_atomic_fixed4_andl_cpt(ident_t *id_ref, int gtid,
1228	kmp_int32 *lhs, kmp_int32 rhs,
1229	int flag);
1230	kmp_int32 __kmpc_atomic_fixed4_orl_cpt(ident_t *id_ref, int gtid,
1231	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1232	kmp_int64 __kmpc_atomic_fixed8_andl_cpt(ident_t *id_ref, int gtid,
1233	kmp_int64 *lhs, kmp_int64 rhs,
1234	int flag);
1235	kmp_int64 __kmpc_atomic_fixed8_orl_cpt(ident_t *id_ref, int gtid,
1236	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1237	// MIN / MAX
1238	char __kmpc_atomic_fixed1_max_cpt(ident_t *id_ref, int gtid, char *lhs,
1239	char rhs, int flag);
1240	char __kmpc_atomic_fixed1_min_cpt(ident_t *id_ref, int gtid, char *lhs,
1241	char rhs, int flag);
1242	short __kmpc_atomic_fixed2_max_cpt(ident_t *id_ref, int gtid, short *lhs,
1243	short rhs, int flag);
1244	short __kmpc_atomic_fixed2_min_cpt(ident_t *id_ref, int gtid, short *lhs,
1245	short rhs, int flag);
1246	kmp_int32 __kmpc_atomic_fixed4_max_cpt(ident_t *id_ref, int gtid,
1247	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1248	kmp_int32 __kmpc_atomic_fixed4_min_cpt(ident_t *id_ref, int gtid,
1249	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1250	kmp_int64 __kmpc_atomic_fixed8_max_cpt(ident_t *id_ref, int gtid,
1251	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1252	kmp_int64 __kmpc_atomic_fixed8_min_cpt(ident_t *id_ref, int gtid,
1253	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1254	kmp_real32 __kmpc_atomic_float4_max_cpt(ident_t *id_ref, int gtid,
1255	kmp_real32 *lhs, kmp_real32 rhs,
1256	int flag);
1257	kmp_real32 __kmpc_atomic_float4_min_cpt(ident_t *id_ref, int gtid,
1258	kmp_real32 *lhs, kmp_real32 rhs,
1259	int flag);
1260	kmp_real64 __kmpc_atomic_float8_max_cpt(ident_t *id_ref, int gtid,
1261	kmp_real64 *lhs, kmp_real64 rhs,
1262	int flag);
1263	kmp_real64 __kmpc_atomic_float8_min_cpt(ident_t *id_ref, int gtid,
1264	kmp_real64 *lhs, kmp_real64 rhs,
1265	int flag);
1266	long double __kmpc_atomic_float10_max_cpt(ident_t *id_ref, int gtid,
1267	long double *lhs, long double rhs,
1268	int flag);
1269	long double __kmpc_atomic_float10_min_cpt(ident_t *id_ref, int gtid,
1270	long double *lhs, long double rhs,
1271	int flag);
1272	#if KMP_HAVE_QUAD
1273	QUAD_LEGACY __kmpc_atomic_float16_max_cpt(ident_t *id_ref, int gtid,
1274	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1275	int flag);
1276	QUAD_LEGACY __kmpc_atomic_float16_min_cpt(ident_t *id_ref, int gtid,
1277	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1278	int flag);
1279	#endif
1280	// .NEQV. (same as xor)
1281	char __kmpc_atomic_fixed1_neqv_cpt(ident_t *id_ref, int gtid, char *lhs,
1282	char rhs, int flag);
1283	short __kmpc_atomic_fixed2_neqv_cpt(ident_t *id_ref, int gtid, short *lhs,
1284	short rhs, int flag);
1285	kmp_int32 __kmpc_atomic_fixed4_neqv_cpt(ident_t *id_ref, int gtid,
1286	kmp_int32 *lhs, kmp_int32 rhs,
1287	int flag);
1288	kmp_int64 __kmpc_atomic_fixed8_neqv_cpt(ident_t *id_ref, int gtid,
1289	kmp_int64 *lhs, kmp_int64 rhs,
1290	int flag);
1291	// .EQV. (same as ~xor)
1292	char __kmpc_atomic_fixed1_eqv_cpt(ident_t *id_ref, int gtid, char *lhs,
1293	char rhs, int flag);
1294	short __kmpc_atomic_fixed2_eqv_cpt(ident_t *id_ref, int gtid, short *lhs,
1295	short rhs, int flag);
1296	kmp_int32 __kmpc_atomic_fixed4_eqv_cpt(ident_t *id_ref, int gtid,
1297	kmp_int32 *lhs, kmp_int32 rhs, int flag);
1298	kmp_int64 __kmpc_atomic_fixed8_eqv_cpt(ident_t *id_ref, int gtid,
1299	kmp_int64 *lhs, kmp_int64 rhs, int flag);
1300	// long double type
1301	long double __kmpc_atomic_float10_add_cpt(ident_t *id_ref, int gtid,
1302	long double *lhs, long double rhs,
1303	int flag);
1304	long double __kmpc_atomic_float10_sub_cpt(ident_t *id_ref, int gtid,
1305	long double *lhs, long double rhs,
1306	int flag);
1307	long double __kmpc_atomic_float10_mul_cpt(ident_t *id_ref, int gtid,
1308	long double *lhs, long double rhs,
1309	int flag);
1310	long double __kmpc_atomic_float10_div_cpt(ident_t *id_ref, int gtid,
1311	long double *lhs, long double rhs,
1312	int flag);
1313	#if KMP_HAVE_QUAD
1314	// _Quad type
1315	QUAD_LEGACY __kmpc_atomic_float16_add_cpt(ident_t *id_ref, int gtid,
1316	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1317	int flag);
1318	QUAD_LEGACY __kmpc_atomic_float16_sub_cpt(ident_t *id_ref, int gtid,
1319	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1320	int flag);
1321	QUAD_LEGACY __kmpc_atomic_float16_mul_cpt(ident_t *id_ref, int gtid,
1322	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1323	int flag);
1324	QUAD_LEGACY __kmpc_atomic_float16_div_cpt(ident_t *id_ref, int gtid,
1325	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1326	int flag);
1327	#endif
1328	// routines for complex types
1329	// Workaround for cmplx4 routines - return void; captured value is returned via
1330	// the argument
1331	void __kmpc_atomic_cmplx4_add_cpt(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1332	kmp_cmplx32 rhs, kmp_cmplx32 *out, int flag);
1333	void __kmpc_atomic_cmplx4_sub_cpt(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1334	kmp_cmplx32 rhs, kmp_cmplx32 *out, int flag);
1335	void __kmpc_atomic_cmplx4_mul_cpt(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1336	kmp_cmplx32 rhs, kmp_cmplx32 *out, int flag);
1337	void __kmpc_atomic_cmplx4_div_cpt(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1338	kmp_cmplx32 rhs, kmp_cmplx32 *out, int flag);
1339	kmp_cmplx64 __kmpc_atomic_cmplx8_add_cpt(ident_t *id_ref, int gtid,
1340	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1341	int flag);
1342	kmp_cmplx64 __kmpc_atomic_cmplx8_sub_cpt(ident_t *id_ref, int gtid,
1343	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1344	int flag);
1345	kmp_cmplx64 __kmpc_atomic_cmplx8_mul_cpt(ident_t *id_ref, int gtid,
1346	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1347	int flag);
1348	kmp_cmplx64 __kmpc_atomic_cmplx8_div_cpt(ident_t *id_ref, int gtid,
1349	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1350	int flag);
1351	kmp_cmplx80 __kmpc_atomic_cmplx10_add_cpt(ident_t *id_ref, int gtid,
1352	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1353	int flag);
1354	kmp_cmplx80 __kmpc_atomic_cmplx10_sub_cpt(ident_t *id_ref, int gtid,
1355	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1356	int flag);
1357	kmp_cmplx80 __kmpc_atomic_cmplx10_mul_cpt(ident_t *id_ref, int gtid,
1358	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1359	int flag);
1360	kmp_cmplx80 __kmpc_atomic_cmplx10_div_cpt(ident_t *id_ref, int gtid,
1361	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1362	int flag);
1363	#if KMP_HAVE_QUAD
1364	CPLX128_LEG __kmpc_atomic_cmplx16_add_cpt(ident_t *id_ref, int gtid,
1365	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1366	int flag);
1367	CPLX128_LEG __kmpc_atomic_cmplx16_sub_cpt(ident_t *id_ref, int gtid,
1368	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1369	int flag);
1370	CPLX128_LEG __kmpc_atomic_cmplx16_mul_cpt(ident_t *id_ref, int gtid,
1371	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1372	int flag);
1373	CPLX128_LEG __kmpc_atomic_cmplx16_div_cpt(ident_t *id_ref, int gtid,
1374	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1375	int flag);
1376	#if (KMP_ARCH_X86)
1377	// Routines with 16-byte arguments aligned to 16-byte boundary
1378	Quad_a16_t __kmpc_atomic_float16_add_a16_cpt(ident_t *id_ref, int gtid,
1379	Quad_a16_t *lhs, Quad_a16_t rhs,
1380	int flag);
1381	Quad_a16_t __kmpc_atomic_float16_sub_a16_cpt(ident_t *id_ref, int gtid,
1382	Quad_a16_t *lhs, Quad_a16_t rhs,
1383	int flag);
1384	Quad_a16_t __kmpc_atomic_float16_mul_a16_cpt(ident_t *id_ref, int gtid,
1385	Quad_a16_t *lhs, Quad_a16_t rhs,
1386	int flag);
1387	Quad_a16_t __kmpc_atomic_float16_div_a16_cpt(ident_t *id_ref, int gtid,
1388	Quad_a16_t *lhs, Quad_a16_t rhs,
1389	int flag);
1390	Quad_a16_t __kmpc_atomic_float16_max_a16_cpt(ident_t *id_ref, int gtid,
1391	Quad_a16_t *lhs, Quad_a16_t rhs,
1392	int flag);
1393	Quad_a16_t __kmpc_atomic_float16_min_a16_cpt(ident_t *id_ref, int gtid,
1394	Quad_a16_t *lhs, Quad_a16_t rhs,
1395	int flag);
1396	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_add_a16_cpt(ident_t *id_ref, int gtid,
1397	kmp_cmplx128_a16_t *lhs,
1398	kmp_cmplx128_a16_t rhs,
1399	int flag);
1400	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_sub_a16_cpt(ident_t *id_ref, int gtid,
1401	kmp_cmplx128_a16_t *lhs,
1402	kmp_cmplx128_a16_t rhs,
1403	int flag);
1404	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_mul_a16_cpt(ident_t *id_ref, int gtid,
1405	kmp_cmplx128_a16_t *lhs,
1406	kmp_cmplx128_a16_t rhs,
1407	int flag);
1408	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_div_a16_cpt(ident_t *id_ref, int gtid,
1409	kmp_cmplx128_a16_t *lhs,
1410	kmp_cmplx128_a16_t rhs,
1411	int flag);
1412	#endif
1413	#endif
1414
1415	void __kmpc_atomic_start(void);
1416	void __kmpc_atomic_end(void);
1417
1418	// OpenMP 4.0: v = x = expr binop x; { v = x; x = expr binop x; } { x = expr
1419	// binop x; v = x; } for non-commutative operations.
1420	#if KMP_ARCH_X86 || KMP_ARCH_X86_64
1421	char __kmpc_atomic_fixed1_sub_cpt_rev(ident_t *id_ref, int gtid, char *lhs,
1422	char rhs, int flag);
1423	char __kmpc_atomic_fixed1_div_cpt_rev(ident_t *id_ref, int gtid, char *lhs,
1424	char rhs, int flag);
1425	unsigned char __kmpc_atomic_fixed1u_div_cpt_rev(ident_t *id_ref, int gtid,
1426	unsigned char *lhs,
1427	unsigned char rhs, int flag);
1428	char __kmpc_atomic_fixed1_shl_cpt_rev(ident_t *id_ref, int gtid, char *lhs,
1429	char rhs, int flag);
1430	char __kmpc_atomic_fixed1_shr_cpt_rev(ident_t *id_ref, int gtid, char *lhs,
1431	char rhs, int flag);
1432	unsigned char __kmpc_atomic_fixed1u_shr_cpt_rev(ident_t *id_ref, int gtid,
1433	unsigned char *lhs,
1434	unsigned char rhs, int flag);
1435	short __kmpc_atomic_fixed2_sub_cpt_rev(ident_t *id_ref, int gtid, short *lhs,
1436	short rhs, int flag);
1437	short __kmpc_atomic_fixed2_div_cpt_rev(ident_t *id_ref, int gtid, short *lhs,
1438	short rhs, int flag);
1439	unsigned short __kmpc_atomic_fixed2u_div_cpt_rev(ident_t *id_ref, int gtid,
1440	unsigned short *lhs,
1441	unsigned short rhs, int flag);
1442	short __kmpc_atomic_fixed2_shl_cpt_rev(ident_t *id_ref, int gtid, short *lhs,
1443	short rhs, int flag);
1444	short __kmpc_atomic_fixed2_shr_cpt_rev(ident_t *id_ref, int gtid, short *lhs,
1445	short rhs, int flag);
1446	unsigned short __kmpc_atomic_fixed2u_shr_cpt_rev(ident_t *id_ref, int gtid,
1447	unsigned short *lhs,
1448	unsigned short rhs, int flag);
1449	kmp_int32 __kmpc_atomic_fixed4_sub_cpt_rev(ident_t *id_ref, int gtid,
1450	kmp_int32 *lhs, kmp_int32 rhs,
1451	int flag);
1452	kmp_int32 __kmpc_atomic_fixed4_div_cpt_rev(ident_t *id_ref, int gtid,
1453	kmp_int32 *lhs, kmp_int32 rhs,
1454	int flag);
1455	kmp_uint32 __kmpc_atomic_fixed4u_div_cpt_rev(ident_t *id_ref, int gtid,
1456	kmp_uint32 *lhs, kmp_uint32 rhs,
1457	int flag);
1458	kmp_int32 __kmpc_atomic_fixed4_shl_cpt_rev(ident_t *id_ref, int gtid,
1459	kmp_int32 *lhs, kmp_int32 rhs,
1460	int flag);
1461	kmp_int32 __kmpc_atomic_fixed4_shr_cpt_rev(ident_t *id_ref, int gtid,
1462	kmp_int32 *lhs, kmp_int32 rhs,
1463	int flag);
1464	kmp_uint32 __kmpc_atomic_fixed4u_shr_cpt_rev(ident_t *id_ref, int gtid,
1465	kmp_uint32 *lhs, kmp_uint32 rhs,
1466	int flag);
1467	kmp_int64 __kmpc_atomic_fixed8_sub_cpt_rev(ident_t *id_ref, int gtid,
1468	kmp_int64 *lhs, kmp_int64 rhs,
1469	int flag);
1470	kmp_int64 __kmpc_atomic_fixed8_div_cpt_rev(ident_t *id_ref, int gtid,
1471	kmp_int64 *lhs, kmp_int64 rhs,
1472	int flag);
1473	kmp_uint64 __kmpc_atomic_fixed8u_div_cpt_rev(ident_t *id_ref, int gtid,
1474	kmp_uint64 *lhs, kmp_uint64 rhs,
1475	int flag);
1476	kmp_int64 __kmpc_atomic_fixed8_shl_cpt_rev(ident_t *id_ref, int gtid,
1477	kmp_int64 *lhs, kmp_int64 rhs,
1478	int flag);
1479	kmp_int64 __kmpc_atomic_fixed8_shr_cpt_rev(ident_t *id_ref, int gtid,
1480	kmp_int64 *lhs, kmp_int64 rhs,
1481	int flag);
1482	kmp_uint64 __kmpc_atomic_fixed8u_shr_cpt_rev(ident_t *id_ref, int gtid,
1483	kmp_uint64 *lhs, kmp_uint64 rhs,
1484	int flag);
1485	float __kmpc_atomic_float4_sub_cpt_rev(ident_t *id_ref, int gtid, float *lhs,
1486	float rhs, int flag);
1487	float __kmpc_atomic_float4_div_cpt_rev(ident_t *id_ref, int gtid, float *lhs,
1488	float rhs, int flag);
1489	double __kmpc_atomic_float8_sub_cpt_rev(ident_t *id_ref, int gtid, double *lhs,
1490	double rhs, int flag);
1491	double __kmpc_atomic_float8_div_cpt_rev(ident_t *id_ref, int gtid, double *lhs,
1492	double rhs, int flag);
1493	long double __kmpc_atomic_float10_sub_cpt_rev(ident_t *id_ref, int gtid,
1494	long double *lhs, long double rhs,
1495	int flag);
1496	long double __kmpc_atomic_float10_div_cpt_rev(ident_t *id_ref, int gtid,
1497	long double *lhs, long double rhs,
1498	int flag);
1499	#if KMP_HAVE_QUAD
1500	QUAD_LEGACY __kmpc_atomic_float16_sub_cpt_rev(ident_t *id_ref, int gtid,
1501	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1502	int flag);
1503	QUAD_LEGACY __kmpc_atomic_float16_div_cpt_rev(ident_t *id_ref, int gtid,
1504	QUAD_LEGACY *lhs, QUAD_LEGACY rhs,
1505	int flag);
1506	#endif
1507	// Workaround for cmplx4 routines - return void; captured value is returned via
1508	// the argument
1509	void __kmpc_atomic_cmplx4_sub_cpt_rev(ident_t *id_ref, int gtid,
1510	kmp_cmplx32 *lhs, kmp_cmplx32 rhs,
1511	kmp_cmplx32 *out, int flag);
1512	void __kmpc_atomic_cmplx4_div_cpt_rev(ident_t *id_ref, int gtid,
1513	kmp_cmplx32 *lhs, kmp_cmplx32 rhs,
1514	kmp_cmplx32 *out, int flag);
1515	kmp_cmplx64 __kmpc_atomic_cmplx8_sub_cpt_rev(ident_t *id_ref, int gtid,
1516	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1517	int flag);
1518	kmp_cmplx64 __kmpc_atomic_cmplx8_div_cpt_rev(ident_t *id_ref, int gtid,
1519	kmp_cmplx64 *lhs, kmp_cmplx64 rhs,
1520	int flag);
1521	kmp_cmplx80 __kmpc_atomic_cmplx10_sub_cpt_rev(ident_t *id_ref, int gtid,
1522	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1523	int flag);
1524	kmp_cmplx80 __kmpc_atomic_cmplx10_div_cpt_rev(ident_t *id_ref, int gtid,
1525	kmp_cmplx80 *lhs, kmp_cmplx80 rhs,
1526	int flag);
1527	#if KMP_HAVE_QUAD
1528	CPLX128_LEG __kmpc_atomic_cmplx16_sub_cpt_rev(ident_t *id_ref, int gtid,
1529	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1530	int flag);
1531	CPLX128_LEG __kmpc_atomic_cmplx16_div_cpt_rev(ident_t *id_ref, int gtid,
1532	CPLX128_LEG *lhs, CPLX128_LEG rhs,
1533	int flag);
1534	#if (KMP_ARCH_X86)
1535	Quad_a16_t __kmpc_atomic_float16_sub_a16_cpt_rev(ident_t *id_ref, int gtid,
1536	Quad_a16_t *lhs,
1537	Quad_a16_t rhs, int flag);
1538	Quad_a16_t __kmpc_atomic_float16_div_a16_cpt_rev(ident_t *id_ref, int gtid,
1539	Quad_a16_t *lhs,
1540	Quad_a16_t rhs, int flag);
1541	kmp_cmplx128_a16_t
1542	__kmpc_atomic_cmplx16_sub_a16_cpt_rev(ident_t *id_ref, int gtid,
1543	kmp_cmplx128_a16_t *lhs,
1544	kmp_cmplx128_a16_t rhs, int flag);
1545	kmp_cmplx128_a16_t
1546	__kmpc_atomic_cmplx16_div_a16_cpt_rev(ident_t *id_ref, int gtid,
1547	kmp_cmplx128_a16_t *lhs,
1548	kmp_cmplx128_a16_t rhs, int flag);
1549	#endif
1550	#endif
1551
1552	// OpenMP 4.0 Capture-write (swap): {v = x; x = expr;}
1553	char __kmpc_atomic_fixed1_swp(ident_t *id_ref, int gtid, char *lhs, char rhs);
1554	short __kmpc_atomic_fixed2_swp(ident_t *id_ref, int gtid, short *lhs,
1555	short rhs);
1556	kmp_int32 __kmpc_atomic_fixed4_swp(ident_t *id_ref, int gtid, kmp_int32 *lhs,
1557	kmp_int32 rhs);
1558	kmp_int64 __kmpc_atomic_fixed8_swp(ident_t *id_ref, int gtid, kmp_int64 *lhs,
1559	kmp_int64 rhs);
1560	float __kmpc_atomic_float4_swp(ident_t *id_ref, int gtid, float *lhs,
1561	float rhs);
1562	double __kmpc_atomic_float8_swp(ident_t *id_ref, int gtid, double *lhs,
1563	double rhs);
1564	long double __kmpc_atomic_float10_swp(ident_t *id_ref, int gtid,
1565	long double *lhs, long double rhs);
1566	#if KMP_HAVE_QUAD
1567	QUAD_LEGACY __kmpc_atomic_float16_swp(ident_t *id_ref, int gtid,
1568	QUAD_LEGACY *lhs, QUAD_LEGACY rhs);
1569	#endif
1570	// !!! TODO: check if we need a workaround here
1571	void __kmpc_atomic_cmplx4_swp(ident_t *id_ref, int gtid, kmp_cmplx32 *lhs,
1572	kmp_cmplx32 rhs, kmp_cmplx32 *out);
1573	// kmp_cmplx32 __kmpc_atomic_cmplx4_swp( ident_t *id_ref, int gtid,
1574	// kmp_cmplx32 * lhs, kmp_cmplx32 rhs );
1575
1576	kmp_cmplx64 __kmpc_atomic_cmplx8_swp(ident_t *id_ref, int gtid,
1577	kmp_cmplx64 *lhs, kmp_cmplx64 rhs);
1578	kmp_cmplx80 __kmpc_atomic_cmplx10_swp(ident_t *id_ref, int gtid,
1579	kmp_cmplx80 *lhs, kmp_cmplx80 rhs);
1580	#if KMP_HAVE_QUAD
1581	CPLX128_LEG __kmpc_atomic_cmplx16_swp(ident_t *id_ref, int gtid,
1582	CPLX128_LEG *lhs, CPLX128_LEG rhs);
1583	#if (KMP_ARCH_X86)
1584	Quad_a16_t __kmpc_atomic_float16_a16_swp(ident_t *id_ref, int gtid,
1585	Quad_a16_t *lhs, Quad_a16_t rhs);
1586	kmp_cmplx128_a16_t __kmpc_atomic_cmplx16_a16_swp(ident_t *id_ref, int gtid,
1587	kmp_cmplx128_a16_t *lhs,
1588	kmp_cmplx128_a16_t rhs);
1589	#endif
1590	#endif
1591
1592	// Capture routines for mixed types (RHS=float16)
1593	#if KMP_HAVE_QUAD
1594
1595	char __kmpc_atomic_fixed1_add_cpt_fp(ident_t *id_ref, int gtid, char *lhs,
1596	_Quad rhs, int flag);
1597	char __kmpc_atomic_fixed1_sub_cpt_fp(ident_t *id_ref, int gtid, char *lhs,
1598	_Quad rhs, int flag);
1599	char __kmpc_atomic_fixed1_mul_cpt_fp(ident_t *id_ref, int gtid, char *lhs,
1600	_Quad rhs, int flag);
1601	char __kmpc_atomic_fixed1_div_cpt_fp(ident_t *id_ref, int gtid, char *lhs,
1602	_Quad rhs, int flag);
1603	unsigned char __kmpc_atomic_fixed1u_add_cpt_fp(ident_t *id_ref, int gtid,
1604	unsigned char *lhs, _Quad rhs,
1605	int flag);
1606	unsigned char __kmpc_atomic_fixed1u_sub_cpt_fp(ident_t *id_ref, int gtid,
1607	unsigned char *lhs, _Quad rhs,
1608	int flag);
1609	unsigned char __kmpc_atomic_fixed1u_mul_cpt_fp(ident_t *id_ref, int gtid,
1610	unsigned char *lhs, _Quad rhs,
1611	int flag);
1612	unsigned char __kmpc_atomic_fixed1u_div_cpt_fp(ident_t *id_ref, int gtid,
1613	unsigned char *lhs, _Quad rhs,
1614	int flag);
1615
1616	short __kmpc_atomic_fixed2_add_cpt_fp(ident_t *id_ref, int gtid, short *lhs,
1617	_Quad rhs, int flag);
1618	short __kmpc_atomic_fixed2_sub_cpt_fp(ident_t *id_ref, int gtid, short *lhs,
1619	_Quad rhs, int flag);
1620	short __kmpc_atomic_fixed2_mul_cpt_fp(ident_t *id_ref, int gtid, short *lhs,
1621	_Quad rhs, int flag);
1622	short __kmpc_atomic_fixed2_div_cpt_fp(ident_t *id_ref, int gtid, short *lhs,
1623	_Quad rhs, int flag);
1624	unsigned short __kmpc_atomic_fixed2u_add_cpt_fp(ident_t *id_ref, int gtid,
1625	unsigned short *lhs, _Quad rhs,
1626	int flag);
1627	unsigned short __kmpc_atomic_fixed2u_sub_cpt_fp(ident_t *id_ref, int gtid,
1628	unsigned short *lhs, _Quad rhs,
1629	int flag);
1630	unsigned short __kmpc_atomic_fixed2u_mul_cpt_fp(ident_t *id_ref, int gtid,
1631	unsigned short *lhs, _Quad rhs,
1632	int flag);
1633	unsigned short __kmpc_atomic_fixed2u_div_cpt_fp(ident_t *id_ref, int gtid,
1634	unsigned short *lhs, _Quad rhs,
1635	int flag);
1636
1637	kmp_int32 __kmpc_atomic_fixed4_add_cpt_fp(ident_t *id_ref, int gtid,
1638	kmp_int32 *lhs, _Quad rhs, int flag);
1639	kmp_int32 __kmpc_atomic_fixed4_sub_cpt_fp(ident_t *id_ref, int gtid,
1640	kmp_int32 *lhs, _Quad rhs, int flag);
1641	kmp_int32 __kmpc_atomic_fixed4_mul_cpt_fp(ident_t *id_ref, int gtid,
1642	kmp_int32 *lhs, _Quad rhs, int flag);
1643	kmp_int32 __kmpc_atomic_fixed4_div_cpt_fp(ident_t *id_ref, int gtid,
1644	kmp_int32 *lhs, _Quad rhs, int flag);
1645	kmp_uint32 __kmpc_atomic_fixed4u_add_cpt_fp(ident_t *id_ref, int gtid,
1646	kmp_uint32 *lhs, _Quad rhs,
1647	int flag);
1648	kmp_uint32 __kmpc_atomic_fixed4u_sub_cpt_fp(ident_t *id_ref, int gtid,
1649	kmp_uint32 *lhs, _Quad rhs,
1650	int flag);
1651	kmp_uint32 __kmpc_atomic_fixed4u_mul_cpt_fp(ident_t *id_ref, int gtid,
1652	kmp_uint32 *lhs, _Quad rhs,
1653	int flag);
1654	kmp_uint32 __kmpc_atomic_fixed4u_div_cpt_fp(ident_t *id_ref, int gtid,
1655	kmp_uint32 *lhs, _Quad rhs,
1656	int flag);
1657
1658	kmp_int64 __kmpc_atomic_fixed8_add_cpt_fp(ident_t *id_ref, int gtid,
1659	kmp_int64 *lhs, _Quad rhs, int flag);
1660	kmp_int64 __kmpc_atomic_fixed8_sub_cpt_fp(ident_t *id_ref, int gtid,
1661	kmp_int64 *lhs, _Quad rhs, int flag);
1662	kmp_int64 __kmpc_atomic_fixed8_mul_cpt_fp(ident_t *id_ref, int gtid,
1663	kmp_int64 *lhs, _Quad rhs, int flag);
1664	kmp_int64 __kmpc_atomic_fixed8_div_cpt_fp(ident_t *id_ref, int gtid,
1665	kmp_int64 *lhs, _Quad rhs, int flag);
1666	kmp_uint64 __kmpc_atomic_fixed8u_add_cpt_fp(ident_t *id_ref, int gtid,
1667	kmp_uint64 *lhs, _Quad rhs,
1668	int flag);
1669	kmp_uint64 __kmpc_atomic_fixed8u_sub_cpt_fp(ident_t *id_ref, int gtid,
1670	kmp_uint64 *lhs, _Quad rhs,
1671	int flag);
1672	kmp_uint64 __kmpc_atomic_fixed8u_mul_cpt_fp(ident_t *id_ref, int gtid,
1673	kmp_uint64 *lhs, _Quad rhs,
1674	int flag);
1675	kmp_uint64 __kmpc_atomic_fixed8u_div_cpt_fp(ident_t *id_ref, int gtid,
1676	kmp_uint64 *lhs, _Quad rhs,
1677	int flag);
1678
1679	float __kmpc_atomic_float4_add_cpt_fp(ident_t *id_ref, int gtid,
1680	kmp_real32 *lhs, _Quad rhs, int flag);
1681	float __kmpc_atomic_float4_sub_cpt_fp(ident_t *id_ref, int gtid,
1682	kmp_real32 *lhs, _Quad rhs, int flag);
1683	float __kmpc_atomic_float4_mul_cpt_fp(ident_t *id_ref, int gtid,
1684	kmp_real32 *lhs, _Quad rhs, int flag);
1685	float __kmpc_atomic_float4_div_cpt_fp(ident_t *id_ref, int gtid,
1686	kmp_real32 *lhs, _Quad rhs, int flag);
1687
1688	double __kmpc_atomic_float8_add_cpt_fp(ident_t *id_ref, int gtid,
1689	kmp_real64 *lhs, _Quad rhs, int flag);
1690	double __kmpc_atomic_float8_sub_cpt_fp(ident_t *id_ref, int gtid,
1691	kmp_real64 *lhs, _Quad rhs, int flag);
1692	double __kmpc_atomic_float8_mul_cpt_fp(ident_t *id_ref, int gtid,
1693	kmp_real64 *lhs, _Quad rhs, int flag);
1694	double __kmpc_atomic_float8_div_cpt_fp(ident_t *id_ref, int gtid,
1695	kmp_real64 *lhs, _Quad rhs, int flag);
1696
1697	long double __kmpc_atomic_float10_add_cpt_fp(ident_t *id_ref, int gtid,
1698	long double *lhs, _Quad rhs,
1699	int flag);
1700	long double __kmpc_atomic_float10_sub_cpt_fp(ident_t *id_ref, int gtid,
1701	long double *lhs, _Quad rhs,
1702	int flag);
1703	long double __kmpc_atomic_float10_mul_cpt_fp(ident_t *id_ref, int gtid,
1704	long double *lhs, _Quad rhs,
1705	int flag);
1706	long double __kmpc_atomic_float10_div_cpt_fp(ident_t *id_ref, int gtid,
1707	long double *lhs, _Quad rhs,
1708	int flag);
1709
1710	char __kmpc_atomic_fixed1_sub_cpt_rev_fp(ident_t *id_ref, int gtid, char *lhs,
1711	_Quad rhs, int flag);
1712	unsigned char __kmpc_atomic_fixed1u_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1713	unsigned char *lhs,
1714	_Quad rhs, int flag);
1715	char __kmpc_atomic_fixed1_div_cpt_rev_fp(ident_t *id_ref, int gtid, char *lhs,
1716	_Quad rhs, int flag);
1717	unsigned char __kmpc_atomic_fixed1u_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1718	unsigned char *lhs,
1719	_Quad rhs, int flag);
1720	short __kmpc_atomic_fixed2_sub_cpt_rev_fp(ident_t *id_ref, int gtid, short *lhs,
1721	_Quad rhs, int flag);
1722	unsigned short __kmpc_atomic_fixed2u_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1723	unsigned short *lhs,
1724	_Quad rhs, int flag);
1725	short __kmpc_atomic_fixed2_div_cpt_rev_fp(ident_t *id_ref, int gtid, short *lhs,
1726	_Quad rhs, int flag);
1727	unsigned short __kmpc_atomic_fixed2u_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1728	unsigned short *lhs,
1729	_Quad rhs, int flag);
1730	kmp_int32 __kmpc_atomic_fixed4_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1731	kmp_int32 *lhs, _Quad rhs,
1732	int flag);
1733	kmp_uint32 __kmpc_atomic_fixed4u_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1734	kmp_uint32 *lhs, _Quad rhs,
1735	int flag);
1736	kmp_int32 __kmpc_atomic_fixed4_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1737	kmp_int32 *lhs, _Quad rhs,
1738	int flag);
1739	kmp_uint32 __kmpc_atomic_fixed4u_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1740	kmp_uint32 *lhs, _Quad rhs,
1741	int flag);
1742	kmp_int64 __kmpc_atomic_fixed8_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1743	kmp_int64 *lhs, _Quad rhs,
1744	int flag);
1745	kmp_uint64 __kmpc_atomic_fixed8u_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1746	kmp_uint64 *lhs, _Quad rhs,
1747	int flag);
1748	kmp_int64 __kmpc_atomic_fixed8_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1749	kmp_int64 *lhs, _Quad rhs,
1750	int flag);
1751	kmp_uint64 __kmpc_atomic_fixed8u_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1752	kmp_uint64 *lhs, _Quad rhs,
1753	int flag);
1754	float __kmpc_atomic_float4_sub_cpt_rev_fp(ident_t *id_ref, int gtid, float *lhs,
1755	_Quad rhs, int flag);
1756	float __kmpc_atomic_float4_div_cpt_rev_fp(ident_t *id_ref, int gtid, float *lhs,
1757	_Quad rhs, int flag);
1758	double __kmpc_atomic_float8_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1759	double *lhs, _Quad rhs, int flag);
1760	double __kmpc_atomic_float8_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1761	double *lhs, _Quad rhs, int flag);
1762	long double __kmpc_atomic_float10_sub_cpt_rev_fp(ident_t *id_ref, int gtid,
1763	long double *lhs, _Quad rhs,
1764	int flag);
1765	long double __kmpc_atomic_float10_div_cpt_rev_fp(ident_t *id_ref, int gtid,
1766	long double *lhs, _Quad rhs,
1767	int flag);
1768
1769	#endif // KMP_HAVE_QUAD
1770
1771	// End of OpenMP 4.0 capture
1772
1773	// OpenMP 5.1 compare and swap
1774	/*
1775	__kmpc_atomic_bool_1_cas
1776	__kmpc_atomic_bool_2_cas
1777	__kmpc_atomic_bool_4_cas
1778	__kmpc_atomic_bool_8_cas
1779	__kmpc_atomic_val_1_cas
1780	__kmpc_atomic_val_2_cas
1781	__kmpc_atomic_val_4_cas
1782	__kmpc_atomic_val_8_cas
1783	__kmpc_atomic_bool_1_cas_cpt
1784	__kmpc_atomic_bool_2_cas_cpt
1785	__kmpc_atomic_bool_4_cas_cpt
1786	__kmpc_atomic_bool_8_cas_cpt
1787	__kmpc_atomic_val_1_cas_cpt
1788	__kmpc_atomic_val_2_cas_cpt
1789	__kmpc_atomic_val_4_cas_cpt
1790	__kmpc_atomic_val_8_cas_cpt
1791	*/
1792	// In all interfaces of CAS (Compare And Swap):
1793	// r is the boolean result of comparison
1794	// x is memory location to operate on
1795	// e is expected (old) value
1796	// d is desired (new) value
1797	// pv is pointer to captured value v whose location may coincide with e
1798
1799	// { r = x == e; if(r) { x = d; } }
1800	// functions return result of comparison
1801	bool __kmpc_atomic_bool_1_cas(ident_t *loc, int gtid, char *x, char e, char d);
1802	bool __kmpc_atomic_bool_2_cas(ident_t *loc, int gtid, short *x, short e,
1803	short d);
1804	bool __kmpc_atomic_bool_4_cas(ident_t *loc, int gtid, kmp_int32 *x, kmp_int32 e,
1805	kmp_int32 d);
1806	bool __kmpc_atomic_bool_8_cas(ident_t *loc, int gtid, kmp_int64 *x, kmp_int64 e,
1807	kmp_int64 d);
1808
1809	// { v = x; if (x == e) { x = d; } }
1810	// functions return old value
1811	char __kmpc_atomic_val_1_cas(ident_t *loc, int gtid, char *x, char e, char d);
1812	short __kmpc_atomic_val_2_cas(ident_t *loc, int gtid, short *x, short e,
1813	short d);
1814	kmp_int32 __kmpc_atomic_val_4_cas(ident_t *loc, int gtid, kmp_int32 *x,
1815	kmp_int32 e, kmp_int32 d);
1816	kmp_int64 __kmpc_atomic_val_8_cas(ident_t *loc, int gtid, kmp_int64 *x,
1817	kmp_int64 e, kmp_int64 d);
1818
1819	// { r = x == e; if(r) { x = d; } else { v = x; } }
1820	// v gets old value if comparison failed, untouched otherwise
1821	// functions return result of comparison
1822	bool __kmpc_atomic_bool_1_cas_cpt(ident_t *loc, int gtid, char *x, char e,
1823	char d, char *pv);
1824	bool __kmpc_atomic_bool_2_cas_cpt(ident_t *loc, int gtid, short *x, short e,
1825	short d, short *pv);
1826	bool __kmpc_atomic_bool_4_cas_cpt(ident_t *loc, int gtid, kmp_int32 *x,
1827	kmp_int32 e, kmp_int32 d, kmp_int32 *pv);
1828	bool __kmpc_atomic_bool_8_cas_cpt(ident_t *loc, int gtid, kmp_int64 *x,
1829	kmp_int64 e, kmp_int64 d, kmp_int64 *pv);
1830
1831	// { if (x == e) { x = d; }; v = x; }
1832	// v gets old value if comparison failed, new value otherwise
1833	// functions return old value
1834	char __kmpc_atomic_val_1_cas_cpt(ident_t *loc, int gtid, char *x, char e,
1835	char d, char *pv);
1836	short __kmpc_atomic_val_2_cas_cpt(ident_t *loc, int gtid, short *x, short e,
1837	short d, short *pv);
1838	kmp_int32 __kmpc_atomic_val_4_cas_cpt(ident_t *loc, int gtid, kmp_int32 *x,
1839	kmp_int32 e, kmp_int32 d, kmp_int32 *pv);
1840	kmp_int64 __kmpc_atomic_val_8_cas_cpt(ident_t *loc, int gtid, kmp_int64 *x,
1841	kmp_int64 e, kmp_int64 d, kmp_int64 *pv);
1842
1843	// End OpenMP 5.1 compare + capture
1844
1845	#endif // KMP_ARCH_X86 || KMP_ARCH_X86_64
1846
1847	/* ------------------------------------------------------------------------ */
1848
1849	#ifdef __cplusplus
1850	} // extern "C"
1851	#endif
1852
1853	#endif /* KMP_ATOMIC_H */
1854
1855	// end of file
1856