/build/source/openmp/runtime/src/kmp

Bug Summary

File:	build/source/openmp/runtime/src/kmp_settings.cpp
Warning:	line 2262, column 7 Value stored to 'buf' is never read

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name kmp_settings.cpp -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -analyzer-config-compatibility-mode=true -mrelocation-model pic -pic-level 2 -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -ffunction-sections -fdata-sections -fcoverage-compilation-dir=/build/source/build-llvm/tools/clang/stage2-bins -resource-dir /usr/lib/llvm-17/lib/clang/17 -D _DEBUG -D _GLIBCXX_ASSERTIONS -D _GNU_SOURCE -D _LIBCPP_ENABLE_ASSERTIONS -D __STDC_CONSTANT_MACROS -D __STDC_FORMAT_MACROS -D __STDC_LIMIT_MACROS -D omp_EXPORTS -I projects/openmp/runtime/src -I /build/source/openmp/runtime/src -I include -I /build/source/llvm/include -I /build/source/openmp/runtime/src/i18n -I /build/source/openmp/runtime/src/include -I /build/source/openmp/runtime/src/thirdparty/ittnotify -D _FORTIFY_SOURCE=2 -D NDEBUG -D _GNU_SOURCE -D _REENTRANT -D _FORTIFY_SOURCE=2 -U NDEBUG -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/10/../../../../include/c++/10 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/10/../../../../include/x86_64-linux-gnu/c++/10 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/10/../../../../include/c++/10/backward -internal-isystem /usr/lib/llvm-17/lib/clang/17/include -internal-isystem /usr/local/include -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/10/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -fmacro-prefix-map=/build/source/build-llvm/tools/clang/stage2-bins=build-llvm/tools/clang/stage2-bins -fmacro-prefix-map=/build/source/= -fcoverage-prefix-map=/build/source/build-llvm/tools/clang/stage2-bins=build-llvm/tools/clang/stage2-bins -fcoverage-prefix-map=/build/source/= -source-date-epoch 1683717183 -O2 -Wno-unused-command-line-argument -Wno-unused-parameter -Wwrite-strings -Wno-missing-field-initializers -Wno-long-long -Wno-maybe-uninitialized -Wno-class-memaccess -Wno-redundant-move -Wno-pessimizing-move -Wno-noexcept-type -Wno-comment -Wno-misleading-indentation -Wno-extra -Wno-pedantic -Wno-maybe-uninitialized -Wno-class-memaccess -Wno-frame-address -Wno-strict-aliasing -Wno-stringop-truncation -Wno-switch -Wno-uninitialized -Wno-cast-qual -std=c++17 -fdeprecated-macro -fdebug-compilation-dir=/build/source/build-llvm/tools/clang/stage2-bins -fdebug-prefix-map=/build/source/build-llvm/tools/clang/stage2-bins=build-llvm/tools/clang/stage2-bins -fdebug-prefix-map=/build/source/= -ferror-limit 19 -fvisibility-inlines-hidden -stack-protector 2 -fno-rtti -fgnuc-version=4.2.1 -fcolor-diagnostics -vectorize-loops -vectorize-slp -analyzer-output=html -analyzer-config stable-report-filename=true -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /tmp/scan-build-2023-05-10-133810-16478-1 -x c++ /build/source/openmp/runtime/src/kmp_settings.cpp

1	/*
2	* kmp_settings.cpp -- Initialize environment variables
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	#include "kmp.h"
14	#include "kmp_affinity.h"
15	#include "kmp_atomic.h"
16	#if KMP_USE_HIER_SCHED0
17	#include "kmp_dispatch_hier.h"
18	#endif
19	#include "kmp_environment.h"
20	#include "kmp_i18n.h"
21	#include "kmp_io.h"
22	#include "kmp_itt.h"
23	#include "kmp_lock.h"
24	#include "kmp_settings.h"
25	#include "kmp_str.h"
26	#include "kmp_wrapper_getpid.h"
27	#include <ctype.h> // toupper()
28	#if OMPD_SUPPORT1
29	#include "ompd-specific.h"
30	#endif
31
32	static int __kmp_env_toPrint(char const *name, int flag);
33
34	bool __kmp_env_format = 0; // 0 - old format; 1 - new format
35
36	// -----------------------------------------------------------------------------
37	// Helper string functions. Subject to move to kmp_str.
38
39	#ifdef USE_LOAD_BALANCE1
40	static double __kmp_convert_to_double(char const *s) {
41	double result;
42
43	if (KMP_SSCANFsscanf(s, "%lf", &result) < 1) {
44	result = 0.0;
45	}
46
47	return result;
48	}
49	#endif
50
51	#ifdef KMP_DEBUG1
52	static unsigned int __kmp_readstr_with_sentinel(char dest, char const src,
53	size_t len, char sentinel) {
54	unsigned int i;
55	for (i = 0; i < len; i++) {
56	if ((src == '\0') \|\| (src == sentinel)) {
57	break;
58	}
59	(dest++) = (src++);
60	}
61	*dest = '\0';
62	return i;
63	}
64	#endif
65
66	static int __kmp_match_with_sentinel(char const a, char const b, size_t len,
67	char sentinel) {
68	size_t l = 0;
69
70	if (a == NULL__null)
71	a = "";
72	if (b == NULL__null)
73	b = "";
74	while (a && b && *b != sentinel) {
75	char ca = a, cb = b;
76
77	if (ca >= 'a' && ca <= 'z')
78	ca -= 'a' - 'A';
79	if (cb >= 'a' && cb <= 'z')
80	cb -= 'a' - 'A';
81	if (ca != cb)
82	return FALSE0;
83	++l;
84	++a;
85	++b;
86	}
87	return l >= len;
88	}
89
90	// Expected usage:
91	// token is the token to check for.
92	// buf is the string being parsed.
93	// *end returns the char after the end of the token.
94	// it is not modified unless a match occurs.
95	//
96	// Example 1:
97	//
98	// if (__kmp_match_str("token", buf, *end) {
99	// <do something>
100	// buf = end;
101	// }
102	//
103	// Example 2:
104	//
105	// if (__kmp_match_str("token", buf, *end) {
106	// char save = *end;
107	// **end = sentinel;
108	// <use any of the __kmp*_with_sentinel() functions>
109	// **end = save;
110	// buf = end;
111	// }
112
113	static int __kmp_match_str(char const token, char const buf,
114	const char **end) {
115
116	KMP_ASSERT(token != NULL)if (!(token != __null)) { __kmp_debug_assert("token != NULL", "openmp/runtime/src/kmp_settings.cpp", 116); };
117	KMP_ASSERT(buf != NULL)if (!(buf != __null)) { __kmp_debug_assert("buf != NULL", "openmp/runtime/src/kmp_settings.cpp" , 117); };
118	KMP_ASSERT(end != NULL)if (!(end != __null)) { __kmp_debug_assert("end != NULL", "openmp/runtime/src/kmp_settings.cpp" , 118); };
119
120	while (token && buf) {
121	char ct = token, cb = buf;
122
123	if (ct >= 'a' && ct <= 'z')
124	ct -= 'a' - 'A';
125	if (cb >= 'a' && cb <= 'z')
126	cb -= 'a' - 'A';
127	if (ct != cb)
128	return FALSE0;
129	++token;
130	++buf;
131	}
132	if (*token) {
133	return FALSE0;
134	}
135	*end = buf;
136	return TRUE(!0);
137	}
138
139	#if KMP_OS_DARWIN0
140	static size_t __kmp_round4k(size_t size) {
141	size_t _4k = 4 * 1024;
142	if (size & (_4k - 1)) {
143	size &= ~(_4k - 1);
144	if (size <= KMP_SIZE_T_MAX(0xFFFFFFFFFFFFFFFF) - _4k) {
145	size += _4k; // Round up if there is no overflow.
146	}
147	}
148	return size;
149	} // __kmp_round4k
150	#endif
151
152	/* Here, multipliers are like __kmp_convert_to_seconds, but floating-point
153	values are allowed, and the return value is in milliseconds. The default
154	multiplier is milliseconds. Returns INT_MAX only if the value specified
155	matches "infinit". Returns -1 if specified string is invalid. /
156	int __kmp_convert_to_milliseconds(char const *data) {
157	int ret, nvalues, factor;
158	char mult, extra;
159	double value;
160
161	if (data == NULL__null)
162	return (-1);
163	if (__kmp_str_match("infinit", -1, data))
164	return (INT_MAX2147483647);
165	value = (double)0.0;
166	mult = '\0';
167	#if KMP_OS_WINDOWS0 && KMP_MSVC_COMPAT0
168	// On Windows, each %c parameter needs additional size parameter for sscanf_s
169	nvalues = KMP_SSCANFsscanf(data, "%lf%c%c", &value, &mult, 1, &extra, 1);
170	#else
171	nvalues = KMP_SSCANFsscanf(data, "%lf%c%c", &value, &mult, &extra);
172	#endif
173	if (nvalues < 1)
174	return (-1);
175	if (nvalues == 1)
176	mult = '\0';
177	if (nvalues == 3)
178	return (-1);
179
180	if (value < 0)
181	return (-1);
182
183	switch (mult) {
184	case '\0':
185	/* default is milliseconds */
186	factor = 1;
187	break;
188	case 's':
189	case 'S':
190	factor = 1000;
191	break;
192	case 'm':
193	case 'M':
194	factor = 1000 * 60;
195	break;
196	case 'h':
197	case 'H':
198	factor = 1000 * 60 * 60;
199	break;
200	case 'd':
201	case 'D':
202	factor = 1000 * 24 * 60 * 60;
203	break;
204	default:
205	return (-1);
206	}
207
208	if (value >= ((INT_MAX2147483647 - 1) / factor))
209	ret = INT_MAX2147483647 - 1; /* Don't allow infinite value here */
210	else
211	ret = (int)(value * (double)factor); /* truncate to int */
212
213	return ret;
214	}
215
216	static int __kmp_strcasecmp_with_sentinel(char const a, char const b,
217	char sentinel) {
218	if (a == NULL__null)
219	a = "";
220	if (b == NULL__null)
221	b = "";
222	while (a && b && *b != sentinel) {
223	char ca = a, cb = b;
224
225	if (ca >= 'a' && ca <= 'z')
226	ca -= 'a' - 'A';
227	if (cb >= 'a' && cb <= 'z')
228	cb -= 'a' - 'A';
229	if (ca != cb)
230	return (int)(unsigned char)a - (int)(unsigned char)b;
231	++a;
232	++b;
233	}
234	return a ? (b && *b != sentinel)
235	? (int)(unsigned char)a - (int)(unsigned char)b
236	: 1
237	: (b && b != sentinel) ? -1
238	: 0;
239	}
240
241	// =============================================================================
242	// Table structures and helper functions.
243
244	typedef struct __kmp_setting kmp_setting_t;
245	typedef struct __kmp_stg_ss_data kmp_stg_ss_data_t;
246	typedef struct __kmp_stg_wp_data kmp_stg_wp_data_t;
247	typedef struct __kmp_stg_fr_data kmp_stg_fr_data_t;
248
249	typedef void (kmp_stg_parse_func_t)(char const name, char const *value,
250	void *data);
251	typedef void (kmp_stg_print_func_t)(kmp_str_buf_t buffer, char const *name,
252	void *data);
253
254	struct __kmp_setting {
255	char const *name; // Name of setting (environment variable).
256	kmp_stg_parse_func_t parse; // Parser function.
257	kmp_stg_print_func_t print; // Print function.
258	void *data; // Data passed to parser and printer.
259	int set; // Variable set during this "session"
260	// (__kmp_env_initialize() or kmp_set_defaults() call).
261	int defined; // Variable set in any "session".
262	}; // struct __kmp_setting
263
264	struct __kmp_stg_ss_data {
265	size_t factor; // Default factor: 1 for KMP_STACKSIZE, 1024 for others.
266	kmp_setting_t **rivals; // Array of pointers to rivals (including itself).
267	}; // struct __kmp_stg_ss_data
268
269	struct __kmp_stg_wp_data {
270	int omp; // 0 -- KMP_LIBRARY, 1 -- OMP_WAIT_POLICY.
271	kmp_setting_t **rivals; // Array of pointers to rivals (including itself).
272	}; // struct __kmp_stg_wp_data
273
274	struct __kmp_stg_fr_data {
275	int force; // 0 -- KMP_DETERMINISTIC_REDUCTION, 1 -- KMP_FORCE_REDUCTION.
276	kmp_setting_t **rivals; // Array of pointers to rivals (including itself).
277	}; // struct __kmp_stg_fr_data
278
279	static int __kmp_stg_check_rivals( // 0 -- Ok, 1 -- errors found.
280	char const *name, // Name of variable.
281	char const *value, // Value of the variable.
282	kmp_setting_t **rivals // List of rival settings (must include current one).
283	);
284
285	// -----------------------------------------------------------------------------
286	// Helper parse functions.
287
288	static void __kmp_stg_parse_bool(char const name, char const value,
289	int *out) {
290	if (__kmp_str_match_true(value)) {
291	*out = TRUE(!0);
292	} else if (__kmp_str_match_false(value)) {
293	*out = FALSE0;
294	} else {
295	__kmp_msg(kmp_ms_warning, KMP_MSG(BadBoolValue, name, value)__kmp_msg_format(kmp_i18n_msg_BadBoolValue, name, value),
296	KMP_HNT(ValidBoolValues)__kmp_msg_format(kmp_i18n_hnt_ValidBoolValues), __kmp_msg_null);
297	}
298	} // __kmp_stg_parse_bool
299
300	// placed here in order to use __kmp_round4k static function
301	void __kmp_check_stksize(size_t *val) {
302	// if system stack size is too big then limit the size for worker threads
303	if (val > KMP_DEFAULT_STKSIZE((size_t)(4 1024 * 1024)) * 16) // just a heuristics...
304	val = KMP_DEFAULT_STKSIZE((size_t)(4 1024 * 1024)) * 16;
305	if (*val < __kmp_sys_min_stksize)
306	*val = __kmp_sys_min_stksize;
307	if (val > KMP_MAX_STKSIZE(~((size_t)1 << ((sizeof(size_t) (1 << 3)) - 1) )))
308	val = KMP_MAX_STKSIZE(~((size_t)1 << ((sizeof(size_t) (1 << 3)) - 1) )); // dead code currently, but may work in future
309	#if KMP_OS_DARWIN0
310	val = __kmp_round4k(val);
311	#endif // KMP_OS_DARWIN
312	}
313
314	static void __kmp_stg_parse_size(char const name, char const value,
315	size_t size_min, size_t size_max,
316	int is_specified, size_t out,
317	size_t factor) {
318	char const *msg = NULL__null;
319	#if KMP_OS_DARWIN0
320	size_min = __kmp_round4k(size_min);
321	size_max = __kmp_round4k(size_max);
322	#endif // KMP_OS_DARWIN
323	if (value) {
324	if (is_specified != NULL__null) {
325	*is_specified = 1;
326	}
327	__kmp_str_to_size(value, out, factor, &msg);
328	if (msg == NULL__null) {
329	if (*out > size_max) {
330	*out = size_max;
331	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
332	} else if (*out < size_min) {
333	*out = size_min;
334	msg = KMP_I18N_STR(ValueTooSmall)__kmp_i18n_catgets(kmp_i18n_str_ValueTooSmall);
335	} else {
336	#if KMP_OS_DARWIN0
337	size_t round4k = __kmp_round4k(*out);
338	if (*out != round4k) {
339	*out = round4k;
340	msg = KMP_I18N_STR(NotMultiple4K)__kmp_i18n_catgets(kmp_i18n_str_NotMultiple4K);
341	}
342	#endif
343	}
344	} else {
345	// If integer overflow occurred, * out == KMP_SIZE_T_MAX. Cut it to
346	// size_max silently.
347	if (*out < size_min) {
348	*out = size_max;
349	} else if (*out > size_max) {
350	*out = size_max;
351	}
352	}
353	if (msg != NULL__null) {
354	// Message is not empty. Print warning.
355	kmp_str_buf_t buf;
356	__kmp_str_buf_init(&buf){ (&buf)->str = (&buf)->bulk; (&buf)->size = sizeof((&buf)->bulk); (&buf)->used = 0; (& buf)->bulk[0] = 0; };
357	__kmp_str_buf_print_size(&buf, *out);
358	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
359	KMP_INFORM(Using_str_Value, name, buf.str)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_str_Value , name, buf.str), __kmp_msg_null);
360	__kmp_str_buf_free(&buf);
361	}
362	}
363	} // __kmp_stg_parse_size
364
365	static void __kmp_stg_parse_str(char const name, char const value,
366	char **out) {
367	__kmp_str_free(out);
368	*out = __kmp_str_format("%s", value);
369	} // __kmp_stg_parse_str
370
371	static void __kmp_stg_parse_int(
372	char const
373	*name, // I: Name of environment variable (used in warning messages).
374	char const *value, // I: Value of environment variable to parse.
375	int min, // I: Minimum allowed value.
376	int max, // I: Maximum allowed value.
377	int *out // O: Output (parsed) value.
378	) {
379	char const *msg = NULL__null;
380	kmp_uint64 uint = *out;
381	__kmp_str_to_uint(value, &uint, &msg);
382	if (msg == NULL__null) {
383	if (uint < (unsigned int)min) {
384	msg = KMP_I18N_STR(ValueTooSmall)__kmp_i18n_catgets(kmp_i18n_str_ValueTooSmall);
385	uint = min;
386	} else if (uint > (unsigned int)max) {
387	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
388	uint = max;
389	}
390	} else {
391	// If overflow occurred msg contains error message and uint is very big. Cut
392	// tmp it to INT_MAX.
393	if (uint < (unsigned int)min) {
394	uint = min;
395	} else if (uint > (unsigned int)max) {
396	uint = max;
397	}
398	}
399	if (msg != NULL__null) {
400	// Message is not empty. Print warning.
401	kmp_str_buf_t buf;
402	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
403	__kmp_str_buf_init(&buf){ (&buf)->str = (&buf)->bulk; (&buf)->size = sizeof((&buf)->bulk); (&buf)->used = 0; (& buf)->bulk[0] = 0; };
404	__kmp_str_buf_print(&buf, "%" KMP_UINT64_SPEC"llu" "", uint);
405	KMP_INFORM(Using_uint64_Value, name, buf.str)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_uint64_Value , name, buf.str), __kmp_msg_null);
406	__kmp_str_buf_free(&buf);
407	}
408	__kmp_type_convert(uint, out);
409	} // __kmp_stg_parse_int
410
411	#if KMP_DEBUG_ADAPTIVE_LOCKS0
412	static void __kmp_stg_parse_file(char const name, char const value,
413	const char suffix, char *out) {
414	char buffer[256];
415	char *t;
416	int hasSuffix;
417	__kmp_str_free(out);
418	t = (char *)strrchr(value, '.');
419	hasSuffix = t && __kmp_str_eqf(t, suffix);
420	t = __kmp_str_format("%s%s", value, hasSuffix ? "" : suffix);
421	__kmp_expand_file_name(buffer, sizeof(buffer), t);
422	__kmp_str_free(&t);
423	*out = __kmp_str_format("%s", buffer);
424	} // __kmp_stg_parse_file
425	#endif
426
427	#ifdef KMP_DEBUG1
428	static char *par_range_to_print = NULL__null;
429
430	static void __kmp_stg_parse_par_range(char const name, char const value,
431	int out_range, char out_routine,
432	char out_file, int out_lb,
433	int *out_ub) {
434	const char *par_range_value;
435	size_t len = KMP_STRLENstrlen(value) + 1;
436	par_range_to_print = (char *)KMP_INTERNAL_MALLOC(len + 1)malloc(len + 1);
437	KMP_STRNCPY_S(par_range_to_print, len + 1, value, len + 1)strncpy(par_range_to_print, value, len + 1);
438	__kmp_par_range = +1;
439	__kmp_par_range_lb = 0;
440	__kmp_par_range_ub = INT_MAX2147483647;
441	for (;;) {
442	unsigned int len;
443	if (!value \|\| *value == '\0') {
444	break;
445	}
446	if (!__kmp_strcasecmp_with_sentinel("routine", value, '=')) {
447	par_range_value = strchr(value, '=') + 1;
448	if (!par_range_value)
449	goto par_range_error;
450	value = par_range_value;
451	len = __kmp_readstr_with_sentinel(out_routine, value,
452	KMP_PAR_RANGE_ROUTINE_LEN1024 - 1, ',');
453	if (len == 0) {
454	goto par_range_error;
455	}
456	value = strchr(value, ',');
457	if (value != NULL__null) {
458	value++;
459	}
460	continue;
461	}
462	if (!__kmp_strcasecmp_with_sentinel("filename", value, '=')) {
463	par_range_value = strchr(value, '=') + 1;
464	if (!par_range_value)
465	goto par_range_error;
466	value = par_range_value;
467	len = __kmp_readstr_with_sentinel(out_file, value,
468	KMP_PAR_RANGE_FILENAME_LEN1024 - 1, ',');
469	if (len == 0) {
470	goto par_range_error;
471	}
472	value = strchr(value, ',');
473	if (value != NULL__null) {
474	value++;
475	}
476	continue;
477	}
478	if ((!__kmp_strcasecmp_with_sentinel("range", value, '=')) \|\|
479	(!__kmp_strcasecmp_with_sentinel("incl_range", value, '='))) {
480	par_range_value = strchr(value, '=') + 1;
481	if (!par_range_value)
482	goto par_range_error;
483	value = par_range_value;
484	if (KMP_SSCANFsscanf(value, "%d:%d", out_lb, out_ub) != 2) {
485	goto par_range_error;
486	}
487	*out_range = +1;
488	value = strchr(value, ',');
489	if (value != NULL__null) {
490	value++;
491	}
492	continue;
493	}
494	if (!__kmp_strcasecmp_with_sentinel("excl_range", value, '=')) {
495	par_range_value = strchr(value, '=') + 1;
496	if (!par_range_value)
497	goto par_range_error;
498	value = par_range_value;
499	if (KMP_SSCANFsscanf(value, "%d:%d", out_lb, out_ub) != 2) {
500	goto par_range_error;
501	}
502	*out_range = -1;
503	value = strchr(value, ',');
504	if (value != NULL__null) {
505	value++;
506	}
507	continue;
508	}
509	par_range_error:
510	KMP_WARNING(ParRangeSyntax, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParRangeSyntax , name), __kmp_msg_null);
511	__kmp_par_range = 0;
512	break;
513	}
514	} // __kmp_stg_parse_par_range
515	#endif
516
517	int __kmp_initial_threads_capacity(int req_nproc) {
518	int nth = 32;
519
520	/* MIN( MAX( 32, 4 * $OMP_NUM_THREADS, 4 * omp_get_num_procs() ),
521	* __kmp_max_nth) */
522	if (nth < (4 * req_nproc))
523	nth = (4 * req_nproc);
524	if (nth < (4 * __kmp_xproc))
525	nth = (4 * __kmp_xproc);
526
527	// If hidden helper task is enabled, we initialize the thread capacity with
528	// extra __kmp_hidden_helper_threads_num.
529	if (__kmp_enable_hidden_helper) {
530	nth += __kmp_hidden_helper_threads_num;
531	}
532
533	if (nth > __kmp_max_nth)
534	nth = __kmp_max_nth;
535
536	return nth;
537	}
538
539	int __kmp_default_tp_capacity(int req_nproc, int max_nth,
540	int all_threads_specified) {
541	int nth = 128;
542
543	if (all_threads_specified)
544	return max_nth;
545	/* MIN( MAX (128, 4 * $OMP_NUM_THREADS, 4 * omp_get_num_procs() ),
546	* __kmp_max_nth ) */
547	if (nth < (4 * req_nproc))
548	nth = (4 * req_nproc);
549	if (nth < (4 * __kmp_xproc))
550	nth = (4 * __kmp_xproc);
551
552	if (nth > __kmp_max_nth)
553	nth = __kmp_max_nth;
554
555	return nth;
556	}
557
558	// -----------------------------------------------------------------------------
559	// Helper print functions.
560
561	static void __kmp_stg_print_bool(kmp_str_buf_t buffer, char const name,
562	int value) {
563	if (__kmp_env_format) {
564	KMP_STR_BUF_PRINT_BOOL__kmp_str_buf_print(buffer, " %s %s='%s'\n", __kmp_i18n_catgets (kmp_i18n_str_Host), name, (value) ? "TRUE" : "FALSE");
565	} else {
566	__kmp_str_buf_print(buffer, " %s=%s\n", name, value ? "true" : "false");
567	}
568	} // __kmp_stg_print_bool
569
570	static void __kmp_stg_print_int(kmp_str_buf_t buffer, char const name,
571	int value) {
572	if (__kmp_env_format) {
573	KMP_STR_BUF_PRINT_INT__kmp_str_buf_print(buffer, " %s %s='%d'\n", __kmp_i18n_catgets (kmp_i18n_str_Host), name, value);
574	} else {
575	__kmp_str_buf_print(buffer, " %s=%d\n", name, value);
576	}
577	} // __kmp_stg_print_int
578
579	static void __kmp_stg_print_uint64(kmp_str_buf_t buffer, char const name,
580	kmp_uint64 value) {
581	if (__kmp_env_format) {
582	KMP_STR_BUF_PRINT_UINT64__kmp_str_buf_print(buffer, " %s %s='%" "llu" "'\n", __kmp_i18n_catgets (kmp_i18n_str_Host), name, value);;
583	} else {
584	__kmp_str_buf_print(buffer, " %s=%" KMP_UINT64_SPEC"llu" "\n", name, value);
585	}
586	} // __kmp_stg_print_uint64
587
588	static void __kmp_stg_print_str(kmp_str_buf_t buffer, char const name,
589	char const *value) {
590	if (__kmp_env_format) {
591	KMP_STR_BUF_PRINT_STR__kmp_str_buf_print(buffer, " %s %s='%s'\n", __kmp_i18n_catgets (kmp_i18n_str_Host), name, value);
592	} else {
593	__kmp_str_buf_print(buffer, " %s=%s\n", name, value);
594	}
595	} // __kmp_stg_print_str
596
597	static void __kmp_stg_print_size(kmp_str_buf_t buffer, char const name,
598	size_t value) {
599	if (__kmp_env_format) {
600	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
601	__kmp_str_buf_print_size(buffer, value);
602	__kmp_str_buf_print(buffer, "'\n");
603	} else {
604	__kmp_str_buf_print(buffer, " %s=", name);
605	__kmp_str_buf_print_size(buffer, value);
606	__kmp_str_buf_print(buffer, "\n");
607	return;
608	}
609	} // __kmp_stg_print_size
610
611	// =============================================================================
612	// Parse and print functions.
613
614	// -----------------------------------------------------------------------------
615	// KMP_DEVICE_THREAD_LIMIT, KMP_ALL_THREADS
616
617	static void __kmp_stg_parse_device_thread_limit(char const *name,
618	char const value, void data) {
619	kmp_setting_t rivals = (kmp_setting_t )data;
620	int rc;
621	if (strcmp(name, "KMP_ALL_THREADS") == 0) {
622	KMP_INFORM(EnvVarDeprecated, name, "KMP_DEVICE_THREAD_LIMIT")__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_EnvVarDeprecated , name, "KMP_DEVICE_THREAD_LIMIT"), __kmp_msg_null);
623	}
624	rc = __kmp_stg_check_rivals(name, value, rivals);
625	if (rc) {
626	return;
627	}
628	if (!__kmp_strcasecmp_with_sentinel("all", value, 0)) {
629	__kmp_max_nth = __kmp_xproc;
630	__kmp_allThreadsSpecified = 1;
631	} else {
632	__kmp_stg_parse_int(name, value, 1, __kmp_sys_max_nth, &__kmp_max_nth);
633	__kmp_allThreadsSpecified = 0;
634	}
635	K_DIAG(1, ("__kmp_max_nth == %d\n", __kmp_max_nth)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_max_nth == %d\n" , __kmp_max_nth); } };
636
637	} // __kmp_stg_parse_device_thread_limit
638
639	static void __kmp_stg_print_device_thread_limit(kmp_str_buf_t *buffer,
640	char const name, void data) {
641	__kmp_stg_print_int(buffer, name, __kmp_max_nth);
642	} // __kmp_stg_print_device_thread_limit
643
644	// -----------------------------------------------------------------------------
645	// OMP_THREAD_LIMIT
646	static void __kmp_stg_parse_thread_limit(char const name, char const value,
647	void *data) {
648	__kmp_stg_parse_int(name, value, 1, __kmp_sys_max_nth, &__kmp_cg_max_nth);
649	K_DIAG(1, ("__kmp_cg_max_nth == %d\n", __kmp_cg_max_nth)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_cg_max_nth == %d\n" , __kmp_cg_max_nth); } };
650
651	} // __kmp_stg_parse_thread_limit
652
653	static void __kmp_stg_print_thread_limit(kmp_str_buf_t *buffer,
654	char const name, void data) {
655	__kmp_stg_print_int(buffer, name, __kmp_cg_max_nth);
656	} // __kmp_stg_print_thread_limit
657
658	// -----------------------------------------------------------------------------
659	// OMP_NUM_TEAMS
660	static void __kmp_stg_parse_nteams(char const name, char const value,
661	void *data) {
662	__kmp_stg_parse_int(name, value, 1, __kmp_sys_max_nth, &__kmp_nteams);
663	K_DIAG(1, ("__kmp_nteams == %d\n", __kmp_nteams)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_nteams == %d\n" , __kmp_nteams); } };
664	} // __kmp_stg_parse_nteams
665
666	static void __kmp_stg_print_nteams(kmp_str_buf_t buffer, char const name,
667	void *data) {
668	__kmp_stg_print_int(buffer, name, __kmp_nteams);
669	} // __kmp_stg_print_nteams
670
671	// -----------------------------------------------------------------------------
672	// OMP_TEAMS_THREAD_LIMIT
673	static void __kmp_stg_parse_teams_th_limit(char const name, char const value,
674	void *data) {
675	__kmp_stg_parse_int(name, value, 1, __kmp_sys_max_nth,
676	&__kmp_teams_thread_limit);
677	K_DIAG(1, ("__kmp_teams_thread_limit == %d\n", __kmp_teams_thread_limit)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_teams_thread_limit == %d\n" , __kmp_teams_thread_limit); } };
678	} // __kmp_stg_parse_teams_th_limit
679
680	static void __kmp_stg_print_teams_th_limit(kmp_str_buf_t *buffer,
681	char const name, void data) {
682	__kmp_stg_print_int(buffer, name, __kmp_teams_thread_limit);
683	} // __kmp_stg_print_teams_th_limit
684
685	// -----------------------------------------------------------------------------
686	// KMP_TEAMS_THREAD_LIMIT
687	static void __kmp_stg_parse_teams_thread_limit(char const *name,
688	char const value, void data) {
689	__kmp_stg_parse_int(name, value, 1, __kmp_sys_max_nth, &__kmp_teams_max_nth);
690	} // __kmp_stg_teams_thread_limit
691
692	static void __kmp_stg_print_teams_thread_limit(kmp_str_buf_t *buffer,
693	char const name, void data) {
694	__kmp_stg_print_int(buffer, name, __kmp_teams_max_nth);
695	} // __kmp_stg_print_teams_thread_limit
696
697	// -----------------------------------------------------------------------------
698	// KMP_USE_YIELD
699	static void __kmp_stg_parse_use_yield(char const name, char const value,
700	void *data) {
701	__kmp_stg_parse_int(name, value, 0, 2, &__kmp_use_yield);
702	__kmp_use_yield_exp_set = 1;
703	} // __kmp_stg_parse_use_yield
704
705	static void __kmp_stg_print_use_yield(kmp_str_buf_t buffer, char const name,
706	void *data) {
707	__kmp_stg_print_int(buffer, name, __kmp_use_yield);
708	} // __kmp_stg_print_use_yield
709
710	// -----------------------------------------------------------------------------
711	// KMP_BLOCKTIME
712
713	static void __kmp_stg_parse_blocktime(char const name, char const value,
714	void *data) {
715	__kmp_dflt_blocktime = __kmp_convert_to_milliseconds(value);
716	if (__kmp_dflt_blocktime < 0) {
717	__kmp_dflt_blocktime = KMP_DEFAULT_BLOCKTIME(__kmp_is_hybrid_cpu() ? (0) : (200));
718	__kmp_msg(kmp_ms_warning, KMP_MSG(InvalidValue, name, value)__kmp_msg_format(kmp_i18n_msg_InvalidValue, name, value),
719	__kmp_msg_null);
720	KMP_INFORM(Using_int_Value, name, __kmp_dflt_blocktime)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , name, __kmp_dflt_blocktime), __kmp_msg_null);
721	__kmp_env_blocktime = FALSE0; // Revert to default as if var not set.
722	} else {
723	if (__kmp_dflt_blocktime < KMP_MIN_BLOCKTIME(0)) {
724	__kmp_dflt_blocktime = KMP_MIN_BLOCKTIME(0);
725	__kmp_msg(kmp_ms_warning, KMP_MSG(SmallValue, name, value)__kmp_msg_format(kmp_i18n_msg_SmallValue, name, value),
726	__kmp_msg_null);
727	KMP_INFORM(MinValueUsing, name, __kmp_dflt_blocktime)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_MinValueUsing , name, __kmp_dflt_blocktime), __kmp_msg_null);
728	} else if (__kmp_dflt_blocktime > KMP_MAX_BLOCKTIME(2147483647)) {
729	__kmp_dflt_blocktime = KMP_MAX_BLOCKTIME(2147483647);
730	__kmp_msg(kmp_ms_warning, KMP_MSG(LargeValue, name, value)__kmp_msg_format(kmp_i18n_msg_LargeValue, name, value),
731	__kmp_msg_null);
732	KMP_INFORM(MaxValueUsing, name, __kmp_dflt_blocktime)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_MaxValueUsing , name, __kmp_dflt_blocktime), __kmp_msg_null);
733	}
734	__kmp_env_blocktime = TRUE(!0); // KMP_BLOCKTIME was specified.
735	}
736	#if KMP_USE_MONITOR
737	// calculate number of monitor thread wakeup intervals corresponding to
738	// blocktime.
739	__kmp_monitor_wakeups =
740	KMP_WAKEUPS_FROM_BLOCKTIME(__kmp_dflt_blocktime, __kmp_monitor_wakeups);
741	__kmp_bt_intervals =
742	KMP_INTERVALS_FROM_BLOCKTIME(__kmp_dflt_blocktime, __kmp_monitor_wakeups);
743	#endif
744	K_DIAG(1, ("__kmp_env_blocktime == %d\n", __kmp_env_blocktime)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_env_blocktime == %d\n" , __kmp_env_blocktime); } };
745	if (__kmp_env_blocktime) {
746	K_DIAG(1, ("__kmp_dflt_blocktime == %d\n", __kmp_dflt_blocktime)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_dflt_blocktime == %d\n" , __kmp_dflt_blocktime); } };
747	}
748	} // __kmp_stg_parse_blocktime
749
750	static void __kmp_stg_print_blocktime(kmp_str_buf_t buffer, char const name,
751	void *data) {
752	__kmp_stg_print_int(buffer, name, __kmp_dflt_blocktime);
753	} // __kmp_stg_print_blocktime
754
755	// -----------------------------------------------------------------------------
756	// KMP_DUPLICATE_LIB_OK
757
758	static void __kmp_stg_parse_duplicate_lib_ok(char const *name,
759	char const value, void data) {
760	/* actually this variable is not supported, put here for compatibility with
761	earlier builds and for static/dynamic combination */
762	__kmp_stg_parse_bool(name, value, &__kmp_duplicate_library_ok);
763	} // __kmp_stg_parse_duplicate_lib_ok
764
765	static void __kmp_stg_print_duplicate_lib_ok(kmp_str_buf_t *buffer,
766	char const name, void data) {
767	__kmp_stg_print_bool(buffer, name, __kmp_duplicate_library_ok);
768	} // __kmp_stg_print_duplicate_lib_ok
769
770	// -----------------------------------------------------------------------------
771	// KMP_INHERIT_FP_CONTROL
772
773	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
774
775	static void __kmp_stg_parse_inherit_fp_control(char const *name,
776	char const value, void data) {
777	__kmp_stg_parse_bool(name, value, &__kmp_inherit_fp_control);
778	} // __kmp_stg_parse_inherit_fp_control
779
780	static void __kmp_stg_print_inherit_fp_control(kmp_str_buf_t *buffer,
781	char const name, void data) {
782	#if KMP_DEBUG1
783	__kmp_stg_print_bool(buffer, name, __kmp_inherit_fp_control);
784	#endif /* KMP_DEBUG */
785	} // __kmp_stg_print_inherit_fp_control
786
787	#endif /* KMP_ARCH_X86 \|\| KMP_ARCH_X86_64 */
788
789	// Used for OMP_WAIT_POLICY
790	static char const *blocktime_str = NULL__null;
791
792	// -----------------------------------------------------------------------------
793	// KMP_LIBRARY, OMP_WAIT_POLICY
794
795	static void __kmp_stg_parse_wait_policy(char const name, char const value,
796	void *data) {
797
798	kmp_stg_wp_data_t wait = (kmp_stg_wp_data_t )data;
799	int rc;
800
801	rc = __kmp_stg_check_rivals(name, value, wait->rivals);
802	if (rc) {
803	return;
804	}
805
806	if (wait->omp) {
807	if (__kmp_str_match("ACTIVE", 1, value)) {
808	__kmp_library = library_turnaround;
809	if (blocktime_str == NULL__null) {
810	// KMP_BLOCKTIME not specified, so set default to "infinite".
811	__kmp_dflt_blocktime = KMP_MAX_BLOCKTIME(2147483647);
812	}
813	} else if (__kmp_str_match("PASSIVE", 1, value)) {
814	__kmp_library = library_throughput;
815	__kmp_wpolicy_passive = true; /* allow sleep while active tasking */
816	if (blocktime_str == NULL__null) {
817	// KMP_BLOCKTIME not specified, so set default to 0.
818	__kmp_dflt_blocktime = 0;
819	}
820	} else {
821	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
822	}
823	} else {
824	if (__kmp_str_match("serial", 1, value)) { /* S */
825	__kmp_library = library_serial;
826	} else if (__kmp_str_match("throughput", 2, value)) { /* TH */
827	__kmp_library = library_throughput;
828	if (blocktime_str == NULL__null) {
829	// KMP_BLOCKTIME not specified, so set default to 0.
830	__kmp_dflt_blocktime = 0;
831	}
832	} else if (__kmp_str_match("turnaround", 2, value)) { /* TU */
833	__kmp_library = library_turnaround;
834	} else if (__kmp_str_match("dedicated", 1, value)) { /* D */
835	__kmp_library = library_turnaround;
836	} else if (__kmp_str_match("multiuser", 1, value)) { /* M */
837	__kmp_library = library_throughput;
838	if (blocktime_str == NULL__null) {
839	// KMP_BLOCKTIME not specified, so set default to 0.
840	__kmp_dflt_blocktime = 0;
841	}
842	} else {
843	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
844	}
845	}
846	} // __kmp_stg_parse_wait_policy
847
848	static void __kmp_stg_print_wait_policy(kmp_str_buf_t buffer, char const name,
849	void *data) {
850
851	kmp_stg_wp_data_t wait = (kmp_stg_wp_data_t )data;
852	char const *value = NULL__null;
853
854	if (wait->omp) {
855	switch (__kmp_library) {
856	case library_turnaround: {
857	value = "ACTIVE";
858	} break;
859	case library_throughput: {
860	value = "PASSIVE";
861	} break;
862	}
863	} else {
864	switch (__kmp_library) {
865	case library_serial: {
866	value = "serial";
867	} break;
868	case library_turnaround: {
869	value = "turnaround";
870	} break;
871	case library_throughput: {
872	value = "throughput";
873	} break;
874	}
875	}
876	if (value != NULL__null) {
877	__kmp_stg_print_str(buffer, name, value);
878	}
879
880	} // __kmp_stg_print_wait_policy
881
882	#if KMP_USE_MONITOR
883	// -----------------------------------------------------------------------------
884	// KMP_MONITOR_STACKSIZE
885
886	static void __kmp_stg_parse_monitor_stacksize(char const *name,
887	char const value, void data) {
888	__kmp_stg_parse_size(name, value, __kmp_sys_min_stksize, KMP_MAX_STKSIZE(~((size_t)1 << ((sizeof(size_t) * (1 << 3)) - 1) )),
889	NULL__null, &__kmp_monitor_stksize, 1);
890	} // __kmp_stg_parse_monitor_stacksize
891
892	static void __kmp_stg_print_monitor_stacksize(kmp_str_buf_t *buffer,
893	char const name, void data) {
894	if (__kmp_env_format) {
895	if (__kmp_monitor_stksize > 0)
896	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
897	else
898	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
899	} else {
900	__kmp_str_buf_print(buffer, " %s", name);
901	}
902	if (__kmp_monitor_stksize > 0) {
903	__kmp_str_buf_print_size(buffer, __kmp_monitor_stksize);
904	} else {
905	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
906	}
907	if (__kmp_env_format && __kmp_monitor_stksize) {
908	__kmp_str_buf_print(buffer, "'\n");
909	}
910	} // __kmp_stg_print_monitor_stacksize
911	#endif // KMP_USE_MONITOR
912
913	// -----------------------------------------------------------------------------
914	// KMP_SETTINGS
915
916	static void __kmp_stg_parse_settings(char const name, char const value,
917	void *data) {
918	__kmp_stg_parse_bool(name, value, &__kmp_settings);
919	} // __kmp_stg_parse_settings
920
921	static void __kmp_stg_print_settings(kmp_str_buf_t buffer, char const name,
922	void *data) {
923	__kmp_stg_print_bool(buffer, name, __kmp_settings);
924	} // __kmp_stg_print_settings
925
926	// -----------------------------------------------------------------------------
927	// KMP_STACKPAD
928
929	static void __kmp_stg_parse_stackpad(char const name, char const value,
930	void *data) {
931	__kmp_stg_parse_int(name, // Env var name
932	value, // Env var value
933	KMP_MIN_STKPADDING(0), // Min value
934	KMP_MAX_STKPADDING(2 * 1024 * 1024), // Max value
935	&__kmp_stkpadding // Var to initialize
936	);
937	} // __kmp_stg_parse_stackpad
938
939	static void __kmp_stg_print_stackpad(kmp_str_buf_t buffer, char const name,
940	void *data) {
941	__kmp_stg_print_int(buffer, name, __kmp_stkpadding);
942	} // __kmp_stg_print_stackpad
943
944	// -----------------------------------------------------------------------------
945	// KMP_STACKOFFSET
946
947	static void __kmp_stg_parse_stackoffset(char const name, char const value,
948	void *data) {
949	__kmp_stg_parse_size(name, // Env var name
950	value, // Env var value
951	KMP_MIN_STKOFFSET(0), // Min value
952	KMP_MAX_STKOFFSET(~((size_t)1 << ((sizeof(size_t) * (1 << 3)) - 1) )), // Max value
953	NULL__null, //
954	&__kmp_stkoffset, // Var to initialize
955	1);
956	} // __kmp_stg_parse_stackoffset
957
958	static void __kmp_stg_print_stackoffset(kmp_str_buf_t buffer, char const name,
959	void *data) {
960	__kmp_stg_print_size(buffer, name, __kmp_stkoffset);
961	} // __kmp_stg_print_stackoffset
962
963	// -----------------------------------------------------------------------------
964	// KMP_STACKSIZE, OMP_STACKSIZE, GOMP_STACKSIZE
965
966	static void __kmp_stg_parse_stacksize(char const name, char const value,
967	void *data) {
968
969	kmp_stg_ss_data_t stacksize = (kmp_stg_ss_data_t )data;
970	int rc;
971
972	rc = __kmp_stg_check_rivals(name, value, stacksize->rivals);
973	if (rc) {
974	return;
975	}
976	__kmp_stg_parse_size(name, // Env var name
977	value, // Env var value
978	__kmp_sys_min_stksize, // Min value
979	KMP_MAX_STKSIZE(~((size_t)1 << ((sizeof(size_t) * (1 << 3)) - 1) )), // Max value
980	&__kmp_env_stksize, //
981	&__kmp_stksize, // Var to initialize
982	stacksize->factor);
983
984	} // __kmp_stg_parse_stacksize
985
986	// This function is called for printing both KMP_STACKSIZE (factor is 1) and
987	// OMP_STACKSIZE (factor is 1024). Currently it is not possible to print
988	// OMP_STACKSIZE value in bytes. We can consider adding this possibility by a
989	// customer request in future.
990	static void __kmp_stg_print_stacksize(kmp_str_buf_t buffer, char const name,
991	void *data) {
992	kmp_stg_ss_data_t stacksize = (kmp_stg_ss_data_t )data;
993	if (__kmp_env_format) {
994	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
995	__kmp_str_buf_print_size(buffer, (__kmp_stksize % 1024)
996	? __kmp_stksize / stacksize->factor
997	: __kmp_stksize);
998	__kmp_str_buf_print(buffer, "'\n");
999	} else {
1000	__kmp_str_buf_print(buffer, " %s=", name);
1001	__kmp_str_buf_print_size(buffer, (__kmp_stksize % 1024)
1002	? __kmp_stksize / stacksize->factor
1003	: __kmp_stksize);
1004	__kmp_str_buf_print(buffer, "\n");
1005	}
1006	} // __kmp_stg_print_stacksize
1007
1008	// -----------------------------------------------------------------------------
1009	// KMP_VERSION
1010
1011	static void __kmp_stg_parse_version(char const name, char const value,
1012	void *data) {
1013	__kmp_stg_parse_bool(name, value, &__kmp_version);
1014	} // __kmp_stg_parse_version
1015
1016	static void __kmp_stg_print_version(kmp_str_buf_t buffer, char const name,
1017	void *data) {
1018	__kmp_stg_print_bool(buffer, name, __kmp_version);
1019	} // __kmp_stg_print_version
1020
1021	// -----------------------------------------------------------------------------
1022	// KMP_WARNINGS
1023
1024	static void __kmp_stg_parse_warnings(char const name, char const value,
1025	void *data) {
1026	__kmp_stg_parse_bool(name, value, &__kmp_generate_warnings);
1027	if (__kmp_generate_warnings != kmp_warnings_off) {
1028	// AC: only 0/1 values documented, so reset to explicit to distinguish from
1029	// default setting
1030	__kmp_generate_warnings = kmp_warnings_explicit;
1031	}
1032	} // __kmp_stg_parse_warnings
1033
1034	static void __kmp_stg_print_warnings(kmp_str_buf_t buffer, char const name,
1035	void *data) {
1036	// AC: TODO: change to print_int? (needs documentation change)
1037	__kmp_stg_print_bool(buffer, name, __kmp_generate_warnings);
1038	} // __kmp_stg_print_warnings
1039
1040	// -----------------------------------------------------------------------------
1041	// KMP_NESTING_MODE
1042
1043	static void __kmp_stg_parse_nesting_mode(char const name, char const value,
1044	void *data) {
1045	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &__kmp_nesting_mode);
1046	#if KMP_AFFINITY_SUPPORTED1 && KMP_USE_HWLOC0
1047	if (__kmp_nesting_mode > 0)
1048	__kmp_affinity_top_method = affinity_top_method_hwloc;
1049	#endif
1050	} // __kmp_stg_parse_nesting_mode
1051
1052	static void __kmp_stg_print_nesting_mode(kmp_str_buf_t *buffer,
1053	char const name, void data) {
1054	if (__kmp_env_format) {
1055	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1056	} else {
1057	__kmp_str_buf_print(buffer, " %s", name);
1058	}
1059	__kmp_str_buf_print(buffer, "=%d\n", __kmp_nesting_mode);
1060	} // __kmp_stg_print_nesting_mode
1061
1062	// -----------------------------------------------------------------------------
1063	// OMP_NESTED, OMP_NUM_THREADS
1064
1065	static void __kmp_stg_parse_nested(char const name, char const value,
1066	void *data) {
1067	int nested;
1068	KMP_INFORM(EnvVarDeprecated, name, "OMP_MAX_ACTIVE_LEVELS")__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_EnvVarDeprecated , name, "OMP_MAX_ACTIVE_LEVELS"), __kmp_msg_null);
1069	__kmp_stg_parse_bool(name, value, &nested);
1070	if (nested) {
1071	if (!__kmp_dflt_max_active_levels_set)
1072	__kmp_dflt_max_active_levels = KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647;
1073	} else { // nesting explicitly turned off
1074	__kmp_dflt_max_active_levels = 1;
1075	__kmp_dflt_max_active_levels_set = true;
1076	}
1077	} // __kmp_stg_parse_nested
1078
1079	static void __kmp_stg_print_nested(kmp_str_buf_t buffer, char const name,
1080	void *data) {
1081	if (__kmp_env_format) {
1082	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1083	} else {
1084	__kmp_str_buf_print(buffer, " %s", name);
1085	}
1086	__kmp_str_buf_print(buffer, ": deprecated; max-active-levels-var=%d\n",
1087	__kmp_dflt_max_active_levels);
1088	} // __kmp_stg_print_nested
1089
1090	static void __kmp_parse_nested_num_threads(const char var, const char env,
1091	kmp_nested_nthreads_t *nth_array) {
1092	const char *next = env;
1093	const char *scan = next;
1094
1095	int total = 0; // Count elements that were set. It'll be used as an array size
1096	int prev_comma = FALSE0; // For correct processing sequential commas
1097
1098	// Count the number of values in the env. var string
1099	for (;;) {
1100	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
1101
1102	if (*next == '\0') {
1103	break;
1104	}
1105	// Next character is not an integer or not a comma => end of list
1106	if (((next < '0') \|\| (next > '9')) && (*next != ',')) {
1107	KMP_WARNING(NthSyntaxError, var, env)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_NthSyntaxError , var, env), __kmp_msg_null);
1108	return;
1109	}
1110	// The next character is ','
1111	if (*next == ',') {
1112	// ',' is the first character
1113	if (total == 0 \|\| prev_comma) {
1114	total++;
1115	}
1116	prev_comma = TRUE(!0);
1117	next++; // skip ','
1118	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
1119	}
1120	// Next character is a digit
1121	if (next >= '0' && next <= '9') {
1122	prev_comma = FALSE0;
1123	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
1124	total++;
1125	const char *tmp = next;
1126	SKIP_WS(tmp){ while ((tmp) == ' ' \|\| (tmp) == '\t') (tmp)++; };
1127	if ((next == ' ' \|\| next == '\t') && (tmp >= '0' && tmp <= '9')) {
1128	KMP_WARNING(NthSpacesNotAllowed, var, env)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_NthSpacesNotAllowed , var, env), __kmp_msg_null);
1129	return;
1130	}
1131	}
1132	}
1133	if (!__kmp_dflt_max_active_levels_set && total > 1)
1134	__kmp_dflt_max_active_levels = KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647;
1135	KMP_DEBUG_ASSERT(total > 0)if (!(total > 0)) { __kmp_debug_assert("total > 0", "openmp/runtime/src/kmp_settings.cpp" , 1135); };
1136	if (total <= 0) {
1137	KMP_WARNING(NthSyntaxError, var, env)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_NthSyntaxError , var, env), __kmp_msg_null);
1138	return;
1139	}
1140
1141	// Check if the nested nthreads array exists
1142	if (!nth_array->nth) {
1143	// Allocate an array of double size
1144	nth_array->nth = (int )KMP_INTERNAL_MALLOC(sizeof(int) total * 2)malloc(sizeof(int) * total * 2);
1145	if (nth_array->nth == NULL__null) {
1146	KMP_FATAL(MemoryAllocFailed)__kmp_fatal(__kmp_msg_format(kmp_i18n_msg_MemoryAllocFailed), __kmp_msg_null);
1147	}
1148	nth_array->size = total * 2;
1149	} else {
1150	if (nth_array->size < total) {
1151	// Increase the array size
1152	do {
1153	nth_array->size *= 2;
1154	} while (nth_array->size < total);
1155
1156	nth_array->nth = (int )KMP_INTERNAL_REALLOC(realloc((nth_array->nth), (sizeof(int) nth_array->size ))
1157	nth_array->nth, sizeof(int) * nth_array->size)realloc((nth_array->nth), (sizeof(int) * nth_array->size ));
1158	if (nth_array->nth == NULL__null) {
1159	KMP_FATAL(MemoryAllocFailed)__kmp_fatal(__kmp_msg_format(kmp_i18n_msg_MemoryAllocFailed), __kmp_msg_null);
1160	}
1161	}
1162	}
1163	nth_array->used = total;
1164	int i = 0;
1165
1166	prev_comma = FALSE0;
1167	total = 0;
1168	// Save values in the array
1169	for (;;) {
1170	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
1171	if (*scan == '\0') {
1172	break;
1173	}
1174	// The next character is ','
1175	if (*scan == ',') {
1176	// ',' in the beginning of the list
1177	if (total == 0) {
1178	// The value is supposed to be equal to __kmp_avail_proc but it is
1179	// unknown at the moment.
1180	// So let's put a placeholder (#threads = 0) to correct it later.
1181	nth_array->nth[i++] = 0;
1182	total++;
1183	} else if (prev_comma) {
1184	// Num threads is inherited from the previous level
1185	nth_array->nth[i] = nth_array->nth[i - 1];
1186	i++;
1187	total++;
1188	}
1189	prev_comma = TRUE(!0);
1190	scan++; // skip ','
1191	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
1192	}
1193	// Next character is a digit
1194	if (scan >= '0' && scan <= '9') {
1195	int num;
1196	const char *buf = scan;
1197	char const *msg = NULL__null;
1198	prev_comma = FALSE0;
1199	SKIP_DIGITS(scan){ while ((scan) >= '0' && (scan) <= '9') (scan )++; };
1200	total++;
1201
1202	num = __kmp_str_to_int(buf, *scan);
1203	if (num < KMP_MIN_NTH1) {
1204	msg = KMP_I18N_STR(ValueTooSmall)__kmp_i18n_catgets(kmp_i18n_str_ValueTooSmall);
1205	num = KMP_MIN_NTH1;
1206	} else if (num > __kmp_sys_max_nth) {
1207	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
1208	num = __kmp_sys_max_nth;
1209	}
1210	if (msg != NULL__null) {
1211	// Message is not empty. Print warning.
1212	KMP_WARNING(ParseSizeIntWarn, var, env, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , var, env, msg), __kmp_msg_null);
1213	KMP_INFORM(Using_int_Value, var, num)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , var, num), __kmp_msg_null);
1214	}
1215	nth_array->nth[i++] = num;
1216	}
1217	}
1218	}
1219
1220	static void __kmp_stg_parse_num_threads(char const name, char const value,
1221	void *data) {
1222	// TODO: Remove this option. OMP_NUM_THREADS is a list of positive integers!
1223	if (!__kmp_strcasecmp_with_sentinel("all", value, 0)) {
1224	// The array of 1 element
1225	__kmp_nested_nth.nth = (int *)KMP_INTERNAL_MALLOC(sizeof(int))malloc(sizeof(int));
1226	__kmp_nested_nth.size = __kmp_nested_nth.used = 1;
1227	__kmp_nested_nth.nth[0] = __kmp_dflt_team_nth = __kmp_dflt_team_nth_ub =
1228	__kmp_xproc;
1229	} else {
1230	__kmp_parse_nested_num_threads(name, value, &__kmp_nested_nth);
1231	if (__kmp_nested_nth.nth) {
1232	__kmp_dflt_team_nth = __kmp_nested_nth.nth[0];
1233	if (__kmp_dflt_team_nth_ub < __kmp_dflt_team_nth) {
1234	__kmp_dflt_team_nth_ub = __kmp_dflt_team_nth;
1235	}
1236	}
1237	}
1238	K_DIAG(1, ("__kmp_dflt_team_nth == %d\n", __kmp_dflt_team_nth)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_dflt_team_nth == %d\n" , __kmp_dflt_team_nth); } };
1239	} // __kmp_stg_parse_num_threads
1240
1241	static void __kmp_stg_parse_num_hidden_helper_threads(char const *name,
1242	char const *value,
1243	void *data) {
1244	__kmp_stg_parse_int(name, value, 0, 16, &__kmp_hidden_helper_threads_num);
1245	// If the number of hidden helper threads is zero, we disable hidden helper
1246	// task
1247	if (__kmp_hidden_helper_threads_num == 0) {
1248	__kmp_enable_hidden_helper = FALSE0;
1249	} else {
1250	// Since the main thread of hidden helper team does not participate
1251	// in tasks execution let's increment the number of threads by one
1252	// so that requested number of threads do actual job.
1253	__kmp_hidden_helper_threads_num++;
1254	}
1255	} // __kmp_stg_parse_num_hidden_helper_threads
1256
1257	static void __kmp_stg_print_num_hidden_helper_threads(kmp_str_buf_t *buffer,
1258	char const *name,
1259	void *data) {
1260	if (__kmp_hidden_helper_threads_num == 0) {
1261	__kmp_stg_print_int(buffer, name, __kmp_hidden_helper_threads_num);
1262	} else {
1263	KMP_DEBUG_ASSERT(__kmp_hidden_helper_threads_num > 1)if (!(__kmp_hidden_helper_threads_num > 1)) { __kmp_debug_assert ("__kmp_hidden_helper_threads_num > 1", "openmp/runtime/src/kmp_settings.cpp" , 1263); };
1264	// Let's exclude the main thread of hidden helper team and print
1265	// number of worker threads those do actual job.
1266	__kmp_stg_print_int(buffer, name, __kmp_hidden_helper_threads_num - 1);
1267	}
1268	} // __kmp_stg_print_num_hidden_helper_threads
1269
1270	static void __kmp_stg_parse_use_hidden_helper(char const *name,
1271	char const value, void data) {
1272	__kmp_stg_parse_bool(name, value, &__kmp_enable_hidden_helper);
1273	#if !KMP_OS_LINUX1
1274	__kmp_enable_hidden_helper = FALSE0;
1275	K_DIAG(1,{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_stg_parse_use_hidden_helper: Disable hidden helper task on " "non-Linux platform although it is enabled by user explicitly.\n" ); } }
1276	("__kmp_stg_parse_use_hidden_helper: Disable hidden helper task on "{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_stg_parse_use_hidden_helper: Disable hidden helper task on " "non-Linux platform although it is enabled by user explicitly.\n" ); } }
1277	"non-Linux platform although it is enabled by user explicitly.\n")){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_stg_parse_use_hidden_helper: Disable hidden helper task on " "non-Linux platform although it is enabled by user explicitly.\n" ); } };
1278	#endif
1279	} // __kmp_stg_parse_use_hidden_helper
1280
1281	static void __kmp_stg_print_use_hidden_helper(kmp_str_buf_t *buffer,
1282	char const name, void data) {
1283	__kmp_stg_print_bool(buffer, name, __kmp_enable_hidden_helper);
1284	} // __kmp_stg_print_use_hidden_helper
1285
1286	static void __kmp_stg_print_num_threads(kmp_str_buf_t buffer, char const name,
1287	void *data) {
1288	if (__kmp_env_format) {
1289	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1290	} else {
1291	__kmp_str_buf_print(buffer, " %s", name);
1292	}
1293	if (__kmp_nested_nth.used) {
1294	kmp_str_buf_t buf;
1295	__kmp_str_buf_init(&buf){ (&buf)->str = (&buf)->bulk; (&buf)->size = sizeof((&buf)->bulk); (&buf)->used = 0; (& buf)->bulk[0] = 0; };
1296	for (int i = 0; i < __kmp_nested_nth.used; i++) {
1297	__kmp_str_buf_print(&buf, "%d", __kmp_nested_nth.nth[i]);
1298	if (i < __kmp_nested_nth.used - 1) {
1299	__kmp_str_buf_print(&buf, ",");
1300	}
1301	}
1302	__kmp_str_buf_print(buffer, "='%s'\n", buf.str);
1303	__kmp_str_buf_free(&buf);
1304	} else {
1305	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
1306	}
1307	} // __kmp_stg_print_num_threads
1308
1309	// -----------------------------------------------------------------------------
1310	// OpenMP 3.0: KMP_TASKING, OMP_MAX_ACTIVE_LEVELS,
1311
1312	static void __kmp_stg_parse_tasking(char const name, char const value,
1313	void *data) {
1314	__kmp_stg_parse_int(name, value, 0, (int)tskm_max,
1315	(int *)&__kmp_tasking_mode);
1316	} // __kmp_stg_parse_tasking
1317
1318	static void __kmp_stg_print_tasking(kmp_str_buf_t buffer, char const name,
1319	void *data) {
1320	__kmp_stg_print_int(buffer, name, __kmp_tasking_mode);
1321	} // __kmp_stg_print_tasking
1322
1323	static void __kmp_stg_parse_task_stealing(char const name, char const value,
1324	void *data) {
1325	__kmp_stg_parse_int(name, value, 0, 1,
1326	(int *)&__kmp_task_stealing_constraint);
1327	} // __kmp_stg_parse_task_stealing
1328
1329	static void __kmp_stg_print_task_stealing(kmp_str_buf_t *buffer,
1330	char const name, void data) {
1331	__kmp_stg_print_int(buffer, name, __kmp_task_stealing_constraint);
1332	} // __kmp_stg_print_task_stealing
1333
1334	static void __kmp_stg_parse_max_active_levels(char const *name,
1335	char const value, void data) {
1336	kmp_uint64 tmp_dflt = 0;
1337	char const *msg = NULL__null;
1338	if (!__kmp_dflt_max_active_levels_set) {
1339	// Don't overwrite __kmp_dflt_max_active_levels if we get an invalid setting
1340	__kmp_str_to_uint(value, &tmp_dflt, &msg);
1341	if (msg != NULL__null) { // invalid setting; print warning and ignore
1342	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
1343	} else if (tmp_dflt > KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647) {
1344	// invalid setting; print warning and ignore
1345	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
1346	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
1347	} else { // valid setting
1348	__kmp_type_convert(tmp_dflt, &(__kmp_dflt_max_active_levels));
1349	__kmp_dflt_max_active_levels_set = true;
1350	}
1351	}
1352	} // __kmp_stg_parse_max_active_levels
1353
1354	static void __kmp_stg_print_max_active_levels(kmp_str_buf_t *buffer,
1355	char const name, void data) {
1356	__kmp_stg_print_int(buffer, name, __kmp_dflt_max_active_levels);
1357	} // __kmp_stg_print_max_active_levels
1358
1359	// -----------------------------------------------------------------------------
1360	// OpenMP 4.0: OMP_DEFAULT_DEVICE
1361	static void __kmp_stg_parse_default_device(char const name, char const value,
1362	void *data) {
1363	__kmp_stg_parse_int(name, value, 0, KMP_MAX_DEFAULT_DEVICE_LIMIT2147483647,
1364	&__kmp_default_device);
1365	} // __kmp_stg_parse_default_device
1366
1367	static void __kmp_stg_print_default_device(kmp_str_buf_t *buffer,
1368	char const name, void data) {
1369	__kmp_stg_print_int(buffer, name, __kmp_default_device);
1370	} // __kmp_stg_print_default_device
1371
1372	// -----------------------------------------------------------------------------
1373	// OpenMP 5.0: OMP_TARGET_OFFLOAD
1374	static void __kmp_stg_parse_target_offload(char const name, char const value,
1375	void *data) {
1376	const char *next = value;
1377	const char *scan = next;
1378
1379	__kmp_target_offload = tgt_default;
1380	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
1381	if (*next == '\0')
1382	return;
1383	scan = next;
1384	if (!__kmp_strcasecmp_with_sentinel("mandatory", scan, 0)) {
1385	__kmp_target_offload = tgt_mandatory;
1386	} else if (!__kmp_strcasecmp_with_sentinel("disabled", scan, 0)) {
1387	__kmp_target_offload = tgt_disabled;
1388	} else if (!__kmp_strcasecmp_with_sentinel("default", scan, 0)) {
1389	__kmp_target_offload = tgt_default;
1390	} else {
1391	KMP_WARNING(SyntaxErrorUsing, name, "DEFAULT")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_SyntaxErrorUsing , name, "DEFAULT"), __kmp_msg_null);
1392	}
1393
1394	} // __kmp_stg_parse_target_offload
1395
1396	static void __kmp_stg_print_target_offload(kmp_str_buf_t *buffer,
1397	char const name, void data) {
1398	const char *value = NULL__null;
1399	if (__kmp_target_offload == tgt_default)
1400	value = "DEFAULT";
1401	else if (__kmp_target_offload == tgt_mandatory)
1402	value = "MANDATORY";
1403	else if (__kmp_target_offload == tgt_disabled)
1404	value = "DISABLED";
1405	KMP_DEBUG_ASSERT(value)if (!(value)) { __kmp_debug_assert("value", "openmp/runtime/src/kmp_settings.cpp" , 1405); };
1406	if (__kmp_env_format) {
1407	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1408	} else {
1409	__kmp_str_buf_print(buffer, " %s", name);
1410	}
1411	__kmp_str_buf_print(buffer, "=%s\n", value);
1412	} // __kmp_stg_print_target_offload
1413
1414	// -----------------------------------------------------------------------------
1415	// OpenMP 4.5: OMP_MAX_TASK_PRIORITY
1416	static void __kmp_stg_parse_max_task_priority(char const *name,
1417	char const value, void data) {
1418	__kmp_stg_parse_int(name, value, 0, KMP_MAX_TASK_PRIORITY_LIMIT2147483647,
1419	&__kmp_max_task_priority);
1420	} // __kmp_stg_parse_max_task_priority
1421
1422	static void __kmp_stg_print_max_task_priority(kmp_str_buf_t *buffer,
1423	char const name, void data) {
1424	__kmp_stg_print_int(buffer, name, __kmp_max_task_priority);
1425	} // __kmp_stg_print_max_task_priority
1426
1427	// KMP_TASKLOOP_MIN_TASKS
1428	// taskloop threshold to switch from recursive to linear tasks creation
1429	static void __kmp_stg_parse_taskloop_min_tasks(char const *name,
1430	char const value, void data) {
1431	int tmp;
1432	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &tmp);
1433	__kmp_taskloop_min_tasks = tmp;
1434	} // __kmp_stg_parse_taskloop_min_tasks
1435
1436	static void __kmp_stg_print_taskloop_min_tasks(kmp_str_buf_t *buffer,
1437	char const name, void data) {
1438	__kmp_stg_print_uint64(buffer, name, __kmp_taskloop_min_tasks);
1439	} // __kmp_stg_print_taskloop_min_tasks
1440
1441	// -----------------------------------------------------------------------------
1442	// KMP_DISP_NUM_BUFFERS
1443	static void __kmp_stg_parse_disp_buffers(char const name, char const value,
1444	void *data) {
1445	if (TCR_4(__kmp_init_serial)(__kmp_init_serial)) {
1446	KMP_WARNING(EnvSerialWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSerialWarn , name), __kmp_msg_null);
1447	return;
1448	} // read value before serial initialization only
1449	__kmp_stg_parse_int(name, value, KMP_MIN_DISP_NUM_BUFF1, KMP_MAX_DISP_NUM_BUFF4096,
1450	&__kmp_dispatch_num_buffers);
1451	} // __kmp_stg_parse_disp_buffers
1452
1453	static void __kmp_stg_print_disp_buffers(kmp_str_buf_t *buffer,
1454	char const name, void data) {
1455	__kmp_stg_print_int(buffer, name, __kmp_dispatch_num_buffers);
1456	} // __kmp_stg_print_disp_buffers
1457
1458	#if KMP_NESTED_HOT_TEAMS1
1459	// -----------------------------------------------------------------------------
1460	// KMP_HOT_TEAMS_MAX_LEVEL, KMP_HOT_TEAMS_MODE
1461
1462	static void __kmp_stg_parse_hot_teams_level(char const name, char const value,
1463	void *data) {
1464	if (TCR_4(__kmp_init_parallel)(__kmp_init_parallel)) {
1465	KMP_WARNING(EnvParallelWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvParallelWarn , name), __kmp_msg_null);
1466	return;
1467	} // read value before first parallel only
1468	__kmp_stg_parse_int(name, value, 0, KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647,
1469	&__kmp_hot_teams_max_level);
1470	} // __kmp_stg_parse_hot_teams_level
1471
1472	static void __kmp_stg_print_hot_teams_level(kmp_str_buf_t *buffer,
1473	char const name, void data) {
1474	__kmp_stg_print_int(buffer, name, __kmp_hot_teams_max_level);
1475	} // __kmp_stg_print_hot_teams_level
1476
1477	static void __kmp_stg_parse_hot_teams_mode(char const name, char const value,
1478	void *data) {
1479	if (TCR_4(__kmp_init_parallel)(__kmp_init_parallel)) {
1480	KMP_WARNING(EnvParallelWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvParallelWarn , name), __kmp_msg_null);
1481	return;
1482	} // read value before first parallel only
1483	__kmp_stg_parse_int(name, value, 0, KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647,
1484	&__kmp_hot_teams_mode);
1485	} // __kmp_stg_parse_hot_teams_mode
1486
1487	static void __kmp_stg_print_hot_teams_mode(kmp_str_buf_t *buffer,
1488	char const name, void data) {
1489	__kmp_stg_print_int(buffer, name, __kmp_hot_teams_mode);
1490	} // __kmp_stg_print_hot_teams_mode
1491
1492	#endif // KMP_NESTED_HOT_TEAMS
1493
1494	// -----------------------------------------------------------------------------
1495	// KMP_HANDLE_SIGNALS
1496
1497	#if KMP_HANDLE_SIGNALS(1 \|\| 0)
1498
1499	static void __kmp_stg_parse_handle_signals(char const name, char const value,
1500	void *data) {
1501	__kmp_stg_parse_bool(name, value, &__kmp_handle_signals);
1502	} // __kmp_stg_parse_handle_signals
1503
1504	static void __kmp_stg_print_handle_signals(kmp_str_buf_t *buffer,
1505	char const name, void data) {
1506	__kmp_stg_print_bool(buffer, name, __kmp_handle_signals);
1507	} // __kmp_stg_print_handle_signals
1508
1509	#endif // KMP_HANDLE_SIGNALS
1510
1511	// -----------------------------------------------------------------------------
1512	// KMP_X_DEBUG, KMP_DEBUG, KMP_DEBUG_BUF_*, KMP_DIAG
1513
1514	#ifdef KMP_DEBUG1
1515
1516	#define KMP_STG_X_DEBUG(x) \
1517	static void __kmp_stg_parse_##x##_debug(char const name, char const value, \
1518	void *data) { \
1519	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &kmp_##x##_debug); \
1520	} /* __kmp_stg_parse_x_debug */ \
1521	static void __kmp_stg_print_##x##_debug(kmp_str_buf_t *buffer, \
1522	char const name, void data) { \
1523	__kmp_stg_print_int(buffer, name, kmp_##x##_debug); \
1524	} /* __kmp_stg_print_x_debug */
1525
1526	KMP_STG_X_DEBUG(a)
1527	KMP_STG_X_DEBUG(b)
1528	KMP_STG_X_DEBUG(c)
1529	KMP_STG_X_DEBUG(d)
1530	KMP_STG_X_DEBUG(e)
1531	KMP_STG_X_DEBUG(f)
1532
1533	#undef KMP_STG_X_DEBUG
1534
1535	static void __kmp_stg_parse_debug(char const name, char const value,
1536	void *data) {
1537	int debug = 0;
1538	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &debug);
1539	if (kmp_a_debug < debug) {
1540	kmp_a_debug = debug;
1541	}
1542	if (kmp_b_debug < debug) {
1543	kmp_b_debug = debug;
1544	}
1545	if (kmp_c_debug < debug) {
1546	kmp_c_debug = debug;
1547	}
1548	if (kmp_d_debug < debug) {
1549	kmp_d_debug = debug;
1550	}
1551	if (kmp_e_debug < debug) {
1552	kmp_e_debug = debug;
1553	}
1554	if (kmp_f_debug < debug) {
1555	kmp_f_debug = debug;
1556	}
1557	} // __kmp_stg_parse_debug
1558
1559	static void __kmp_stg_parse_debug_buf(char const name, char const value,
1560	void *data) {
1561	__kmp_stg_parse_bool(name, value, &__kmp_debug_buf);
1562	// !!! TODO: Move buffer initialization of of this file! It may works
1563	// incorrectly if KMP_DEBUG_BUF is parsed before KMP_DEBUG_BUF_LINES or
1564	// KMP_DEBUG_BUF_CHARS.
1565	if (__kmp_debug_buf) {
1566	int i;
1567	int elements = __kmp_debug_buf_lines * __kmp_debug_buf_chars;
1568
1569	/* allocate and initialize all entries in debug buffer to empty */
1570	__kmp_debug_buffer = (char )__kmp_page_allocate(elements sizeof(char))___kmp_page_allocate((elements * sizeof(char)), "openmp/runtime/src/kmp_settings.cpp" , 1570);
1571	for (i = 0; i < elements; i += __kmp_debug_buf_chars)
1572	__kmp_debug_buffer[i] = '\0';
1573
1574	__kmp_debug_count = 0;
1575	}
1576	K_DIAG(1, ("__kmp_debug_buf = %d\n", __kmp_debug_buf)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_debug_buf = %d\n" , __kmp_debug_buf); } };
1577	} // __kmp_stg_parse_debug_buf
1578
1579	static void __kmp_stg_print_debug_buf(kmp_str_buf_t buffer, char const name,
1580	void *data) {
1581	__kmp_stg_print_bool(buffer, name, __kmp_debug_buf);
1582	} // __kmp_stg_print_debug_buf
1583
1584	static void __kmp_stg_parse_debug_buf_atomic(char const *name,
1585	char const value, void data) {
1586	__kmp_stg_parse_bool(name, value, &__kmp_debug_buf_atomic);
1587	} // __kmp_stg_parse_debug_buf_atomic
1588
1589	static void __kmp_stg_print_debug_buf_atomic(kmp_str_buf_t *buffer,
1590	char const name, void data) {
1591	__kmp_stg_print_bool(buffer, name, __kmp_debug_buf_atomic);
1592	} // __kmp_stg_print_debug_buf_atomic
1593
1594	static void __kmp_stg_parse_debug_buf_chars(char const name, char const value,
1595	void *data) {
1596	__kmp_stg_parse_int(name, value, KMP_DEBUG_BUF_CHARS_MIN2, INT_MAX2147483647,
1597	&__kmp_debug_buf_chars);
1598	} // __kmp_stg_debug_parse_buf_chars
1599
1600	static void __kmp_stg_print_debug_buf_chars(kmp_str_buf_t *buffer,
1601	char const name, void data) {
1602	__kmp_stg_print_int(buffer, name, __kmp_debug_buf_chars);
1603	} // __kmp_stg_print_debug_buf_chars
1604
1605	static void __kmp_stg_parse_debug_buf_lines(char const name, char const value,
1606	void *data) {
1607	__kmp_stg_parse_int(name, value, KMP_DEBUG_BUF_LINES_MIN1, INT_MAX2147483647,
1608	&__kmp_debug_buf_lines);
1609	} // __kmp_stg_parse_debug_buf_lines
1610
1611	static void __kmp_stg_print_debug_buf_lines(kmp_str_buf_t *buffer,
1612	char const name, void data) {
1613	__kmp_stg_print_int(buffer, name, __kmp_debug_buf_lines);
1614	} // __kmp_stg_print_debug_buf_lines
1615
1616	static void __kmp_stg_parse_diag(char const name, char const value,
1617	void *data) {
1618	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &kmp_diag);
1619	} // __kmp_stg_parse_diag
1620
1621	static void __kmp_stg_print_diag(kmp_str_buf_t buffer, char const name,
1622	void *data) {
1623	__kmp_stg_print_int(buffer, name, kmp_diag);
1624	} // __kmp_stg_print_diag
1625
1626	#endif // KMP_DEBUG
1627
1628	// -----------------------------------------------------------------------------
1629	// KMP_ALIGN_ALLOC
1630
1631	static void __kmp_stg_parse_align_alloc(char const name, char const value,
1632	void *data) {
1633	__kmp_stg_parse_size(name, value, CACHE_LINE64, INT_MAX2147483647, NULL__null,
1634	&__kmp_align_alloc, 1);
1635	} // __kmp_stg_parse_align_alloc
1636
1637	static void __kmp_stg_print_align_alloc(kmp_str_buf_t buffer, char const name,
1638	void *data) {
1639	__kmp_stg_print_size(buffer, name, __kmp_align_alloc);
1640	} // __kmp_stg_print_align_alloc
1641
1642	// -----------------------------------------------------------------------------
1643	// KMP_PLAIN_BARRIER, KMP_FORKJOIN_BARRIER, KMP_REDUCTION_BARRIER
1644
1645	// TODO: Remove __kmp_barrier_branch_bit_env_name varibale, remove loops from
1646	// parse and print functions, pass required info through data argument.
1647
1648	static void __kmp_stg_parse_barrier_branch_bit(char const *name,
1649	char const value, void data) {
1650	const char *var;
1651
1652	/* ---------- Barrier branch bit control ------------ */
1653	for (int i = bs_plain_barrier; i < bs_last_barrier; i++) {
1654	var = __kmp_barrier_branch_bit_env_name[i];
1655	if ((strcmp(var, name) == 0) && (value != 0)) {
1656	char *comma;
1657
1658	comma = CCAST(char , strchr(value, ','))const_cast<char >(strchr(value, ','));
1659	__kmp_barrier_gather_branch_bits[i] =
1660	(kmp_uint32)__kmp_str_to_int(value, ',');
1661	/* is there a specified release parameter? */
1662	if (comma == NULL__null) {
1663	__kmp_barrier_release_branch_bits[i] = __kmp_barrier_release_bb_dflt;
1664	} else {
1665	__kmp_barrier_release_branch_bits[i] =
1666	(kmp_uint32)__kmp_str_to_int(comma + 1, 0);
1667
1668	if (__kmp_barrier_release_branch_bits[i] > KMP_MAX_BRANCH_BITS31) {
1669	__kmp_msg(kmp_ms_warning,
1670	KMP_MSG(BarrReleaseValueInvalid, name, comma + 1)__kmp_msg_format(kmp_i18n_msg_BarrReleaseValueInvalid, name, comma + 1),
1671	__kmp_msg_null);
1672	__kmp_barrier_release_branch_bits[i] = __kmp_barrier_release_bb_dflt;
1673	}
1674	}
1675	if (__kmp_barrier_gather_branch_bits[i] > KMP_MAX_BRANCH_BITS31) {
1676	KMP_WARNING(BarrGatherValueInvalid, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_BarrGatherValueInvalid , name, value), __kmp_msg_null);
1677	KMP_INFORM(Using_uint_Value, name, __kmp_barrier_gather_bb_dflt)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_uint_Value , name, __kmp_barrier_gather_bb_dflt), __kmp_msg_null);
1678	__kmp_barrier_gather_branch_bits[i] = __kmp_barrier_gather_bb_dflt;
1679	}
1680	}
1681	K_DIAG(1, ("%s == %d,%d\n", __kmp_barrier_branch_bit_env_name[i],{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("%s == %d,%d\n" , __kmp_barrier_branch_bit_env_name[i], __kmp_barrier_gather_branch_bits [i], __kmp_barrier_release_branch_bits[i]); } }
1682	__kmp_barrier_gather_branch_bits[i],{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("%s == %d,%d\n" , __kmp_barrier_branch_bit_env_name[i], __kmp_barrier_gather_branch_bits [i], __kmp_barrier_release_branch_bits[i]); } }
1683	__kmp_barrier_release_branch_bits[i])){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("%s == %d,%d\n" , __kmp_barrier_branch_bit_env_name[i], __kmp_barrier_gather_branch_bits [i], __kmp_barrier_release_branch_bits[i]); } }
1684	}
1685	} // __kmp_stg_parse_barrier_branch_bit
1686
1687	static void __kmp_stg_print_barrier_branch_bit(kmp_str_buf_t *buffer,
1688	char const name, void data) {
1689	const char *var;
1690	for (int i = bs_plain_barrier; i < bs_last_barrier; i++) {
1691	var = __kmp_barrier_branch_bit_env_name[i];
1692	if (strcmp(var, name) == 0) {
1693	if (__kmp_env_format) {
1694	KMP_STR_BUF_PRINT_NAME_EX(__kmp_barrier_branch_bit_env_name[i])__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), __kmp_barrier_branch_bit_env_name[i]);
1695	} else {
1696	__kmp_str_buf_print(buffer, " %s='",
1697	__kmp_barrier_branch_bit_env_name[i]);
1698	}
1699	__kmp_str_buf_print(buffer, "%d,%d'\n",
1700	__kmp_barrier_gather_branch_bits[i],
1701	__kmp_barrier_release_branch_bits[i]);
1702	}
1703	}
1704	} // __kmp_stg_print_barrier_branch_bit
1705
1706	// ----------------------------------------------------------------------------
1707	// KMP_PLAIN_BARRIER_PATTERN, KMP_FORKJOIN_BARRIER_PATTERN,
1708	// KMP_REDUCTION_BARRIER_PATTERN
1709
1710	// TODO: Remove __kmp_barrier_pattern_name variable, remove loops from parse and
1711	// print functions, pass required data to functions through data argument.
1712
1713	static void __kmp_stg_parse_barrier_pattern(char const name, char const value,
1714	void *data) {
1715	const char *var;
1716	/* ---------- Barrier method control ------------ */
1717
1718	static int dist_req = 0, non_dist_req = 0;
1719	static bool warn = 1;
1720	for (int i = bs_plain_barrier; i < bs_last_barrier; i++) {
1721	var = __kmp_barrier_pattern_env_name[i];
1722
1723	if ((strcmp(var, name) == 0) && (value != 0)) {
1724	int j;
1725	char comma = CCAST(char , strchr(value, ','))const_cast<char *>(strchr(value, ','));
1726
1727	/* handle first parameter: gather pattern */
1728	for (j = bp_linear_bar; j < bp_last_bar; j++) {
1729	if (__kmp_match_with_sentinel(__kmp_barrier_pattern_name[j], value, 1,
1730	',')) {
1731	if (j == bp_dist_bar) {
1732	dist_req++;
1733	} else {
1734	non_dist_req++;
1735	}
1736	__kmp_barrier_gather_pattern[i] = (kmp_bar_pat_e)j;
1737	break;
1738	}
1739	}
1740	if (j == bp_last_bar) {
1741	KMP_WARNING(BarrGatherValueInvalid, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_BarrGatherValueInvalid , name, value), __kmp_msg_null);
1742	KMP_INFORM(Using_str_Value, name,__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_str_Value , name, __kmp_barrier_pattern_name[bp_linear_bar]), __kmp_msg_null )
1743	__kmp_barrier_pattern_name[bp_linear_bar])__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_str_Value , name, __kmp_barrier_pattern_name[bp_linear_bar]), __kmp_msg_null );
1744	}
1745
1746	/* handle second parameter: release pattern */
1747	if (comma != NULL__null) {
1748	for (j = bp_linear_bar; j < bp_last_bar; j++) {
1749	if (__kmp_str_match(__kmp_barrier_pattern_name[j], 1, comma + 1)) {
1750	if (j == bp_dist_bar) {
1751	dist_req++;
1752	} else {
1753	non_dist_req++;
1754	}
1755	__kmp_barrier_release_pattern[i] = (kmp_bar_pat_e)j;
1756	break;
1757	}
1758	}
1759	if (j == bp_last_bar) {
1760	__kmp_msg(kmp_ms_warning,
1761	KMP_MSG(BarrReleaseValueInvalid, name, comma + 1)__kmp_msg_format(kmp_i18n_msg_BarrReleaseValueInvalid, name, comma + 1),
1762	__kmp_msg_null);
1763	KMP_INFORM(Using_str_Value, name,__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_str_Value , name, __kmp_barrier_pattern_name[bp_linear_bar]), __kmp_msg_null )
1764	__kmp_barrier_pattern_name[bp_linear_bar])__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_str_Value , name, __kmp_barrier_pattern_name[bp_linear_bar]), __kmp_msg_null );
1765	}
1766	}
1767	}
1768	}
1769	if (dist_req != 0) {
1770	// set all barriers to dist
1771	if ((non_dist_req != 0) && warn) {
1772	KMP_INFORM(BarrierPatternOverride, name,__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_BarrierPatternOverride , name, __kmp_barrier_pattern_name[bp_dist_bar]), __kmp_msg_null )
1773	__kmp_barrier_pattern_name[bp_dist_bar])__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_BarrierPatternOverride , name, __kmp_barrier_pattern_name[bp_dist_bar]), __kmp_msg_null );
1774	warn = 0;
1775	}
1776	for (int i = bs_plain_barrier; i < bs_last_barrier; i++) {
1777	if (__kmp_barrier_release_pattern[i] != bp_dist_bar)
1778	__kmp_barrier_release_pattern[i] = bp_dist_bar;
1779	if (__kmp_barrier_gather_pattern[i] != bp_dist_bar)
1780	__kmp_barrier_gather_pattern[i] = bp_dist_bar;
1781	}
1782	}
1783	} // __kmp_stg_parse_barrier_pattern
1784
1785	static void __kmp_stg_print_barrier_pattern(kmp_str_buf_t *buffer,
1786	char const name, void data) {
1787	const char *var;
1788	for (int i = bs_plain_barrier; i < bs_last_barrier; i++) {
1789	var = __kmp_barrier_pattern_env_name[i];
1790	if (strcmp(var, name) == 0) {
1791	int j = __kmp_barrier_gather_pattern[i];
1792	int k = __kmp_barrier_release_pattern[i];
1793	if (__kmp_env_format) {
1794	KMP_STR_BUF_PRINT_NAME_EX(__kmp_barrier_pattern_env_name[i])__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), __kmp_barrier_pattern_env_name[i]);
1795	} else {
1796	__kmp_str_buf_print(buffer, " %s='",
1797	__kmp_barrier_pattern_env_name[i]);
1798	}
1799	KMP_DEBUG_ASSERT(j < bp_last_bar && k < bp_last_bar)if (!(j < bp_last_bar && k < bp_last_bar)) { __kmp_debug_assert ("j < bp_last_bar && k < bp_last_bar", "openmp/runtime/src/kmp_settings.cpp" , 1799); };
1800	__kmp_str_buf_print(buffer, "%s,%s'\n", __kmp_barrier_pattern_name[j],
1801	__kmp_barrier_pattern_name[k]);
1802	}
1803	}
1804	} // __kmp_stg_print_barrier_pattern
1805
1806	// -----------------------------------------------------------------------------
1807	// KMP_ABORT_DELAY
1808
1809	static void __kmp_stg_parse_abort_delay(char const name, char const value,
1810	void *data) {
1811	// Units of KMP_DELAY_ABORT are seconds, units of __kmp_abort_delay is
1812	// milliseconds.
1813	int delay = __kmp_abort_delay / 1000;
1814	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647 / 1000, &delay);
1815	__kmp_abort_delay = delay * 1000;
1816	} // __kmp_stg_parse_abort_delay
1817
1818	static void __kmp_stg_print_abort_delay(kmp_str_buf_t buffer, char const name,
1819	void *data) {
1820	__kmp_stg_print_int(buffer, name, __kmp_abort_delay);
1821	} // __kmp_stg_print_abort_delay
1822
1823	// -----------------------------------------------------------------------------
1824	// KMP_CPUINFO_FILE
1825
1826	static void __kmp_stg_parse_cpuinfo_file(char const name, char const value,
1827	void *data) {
1828	#if KMP_AFFINITY_SUPPORTED1
1829	__kmp_stg_parse_str(name, value, &__kmp_cpuinfo_file);
1830	K_DIAG(1, ("__kmp_cpuinfo_file == %s\n", __kmp_cpuinfo_file)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_cpuinfo_file == %s\n" , __kmp_cpuinfo_file); } };
1831	#endif
1832	} //__kmp_stg_parse_cpuinfo_file
1833
1834	static void __kmp_stg_print_cpuinfo_file(kmp_str_buf_t *buffer,
1835	char const name, void data) {
1836	#if KMP_AFFINITY_SUPPORTED1
1837	if (__kmp_env_format) {
1838	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1839	} else {
1840	__kmp_str_buf_print(buffer, " %s", name);
1841	}
1842	if (__kmp_cpuinfo_file) {
1843	__kmp_str_buf_print(buffer, "='%s'\n", __kmp_cpuinfo_file);
1844	} else {
1845	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
1846	}
1847	#endif
1848	} //__kmp_stg_print_cpuinfo_file
1849
1850	// -----------------------------------------------------------------------------
1851	// KMP_FORCE_REDUCTION, KMP_DETERMINISTIC_REDUCTION
1852
1853	static void __kmp_stg_parse_force_reduction(char const name, char const value,
1854	void *data) {
1855	kmp_stg_fr_data_t reduction = (kmp_stg_fr_data_t )data;
1856	int rc;
1857
1858	rc = __kmp_stg_check_rivals(name, value, reduction->rivals);
1859	if (rc) {
1860	return;
1861	}
1862	if (reduction->force) {
1863	if (value != 0) {
1864	if (__kmp_str_match("critical", 0, value))
1865	__kmp_force_reduction_method = critical_reduce_block;
1866	else if (__kmp_str_match("atomic", 0, value))
1867	__kmp_force_reduction_method = atomic_reduce_block;
1868	else if (__kmp_str_match("tree", 0, value))
1869	__kmp_force_reduction_method = tree_reduce_block;
1870	else {
1871	KMP_FATAL(UnknownForceReduction, name, value)__kmp_fatal(__kmp_msg_format(kmp_i18n_msg_UnknownForceReduction , name, value), __kmp_msg_null);
1872	}
1873	}
1874	} else {
1875	__kmp_stg_parse_bool(name, value, &__kmp_determ_red);
1876	if (__kmp_determ_red) {
1877	__kmp_force_reduction_method = tree_reduce_block;
1878	} else {
1879	__kmp_force_reduction_method = reduction_method_not_defined;
1880	}
1881	}
1882	K_DIAG(1, ("__kmp_force_reduction_method == %d\n",{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_force_reduction_method == %d\n" , __kmp_force_reduction_method); } }
1883	__kmp_force_reduction_method)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_force_reduction_method == %d\n" , __kmp_force_reduction_method); } };
1884	} // __kmp_stg_parse_force_reduction
1885
1886	static void __kmp_stg_print_force_reduction(kmp_str_buf_t *buffer,
1887	char const name, void data) {
1888
1889	kmp_stg_fr_data_t reduction = (kmp_stg_fr_data_t )data;
1890	if (reduction->force) {
1891	if (__kmp_force_reduction_method == critical_reduce_block) {
1892	__kmp_stg_print_str(buffer, name, "critical");
1893	} else if (__kmp_force_reduction_method == atomic_reduce_block) {
1894	__kmp_stg_print_str(buffer, name, "atomic");
1895	} else if (__kmp_force_reduction_method == tree_reduce_block) {
1896	__kmp_stg_print_str(buffer, name, "tree");
1897	} else {
1898	if (__kmp_env_format) {
1899	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
1900	} else {
1901	__kmp_str_buf_print(buffer, " %s", name);
1902	}
1903	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
1904	}
1905	} else {
1906	__kmp_stg_print_bool(buffer, name, __kmp_determ_red);
1907	}
1908
1909	} // __kmp_stg_print_force_reduction
1910
1911	// -----------------------------------------------------------------------------
1912	// KMP_STORAGE_MAP
1913
1914	static void __kmp_stg_parse_storage_map(char const name, char const value,
1915	void *data) {
1916	if (__kmp_str_match("verbose", 1, value)) {
1917	__kmp_storage_map = TRUE(!0);
1918	__kmp_storage_map_verbose = TRUE(!0);
1919	__kmp_storage_map_verbose_specified = TRUE(!0);
1920
1921	} else {
1922	__kmp_storage_map_verbose = FALSE0;
1923	__kmp_stg_parse_bool(name, value, &__kmp_storage_map); // !!!
1924	}
1925	} // __kmp_stg_parse_storage_map
1926
1927	static void __kmp_stg_print_storage_map(kmp_str_buf_t buffer, char const name,
1928	void *data) {
1929	if (__kmp_storage_map_verbose \|\| __kmp_storage_map_verbose_specified) {
1930	__kmp_stg_print_str(buffer, name, "verbose");
1931	} else {
1932	__kmp_stg_print_bool(buffer, name, __kmp_storage_map);
1933	}
1934	} // __kmp_stg_print_storage_map
1935
1936	// -----------------------------------------------------------------------------
1937	// KMP_ALL_THREADPRIVATE
1938
1939	static void __kmp_stg_parse_all_threadprivate(char const *name,
1940	char const value, void data) {
1941	__kmp_stg_parse_int(name, value,
1942	__kmp_allThreadsSpecified ? __kmp_max_nth : 1,
1943	__kmp_max_nth, &__kmp_tp_capacity);
1944	} // __kmp_stg_parse_all_threadprivate
1945
1946	static void __kmp_stg_print_all_threadprivate(kmp_str_buf_t *buffer,
1947	char const name, void data) {
1948	__kmp_stg_print_int(buffer, name, __kmp_tp_capacity);
1949	}
1950
1951	// -----------------------------------------------------------------------------
1952	// KMP_FOREIGN_THREADS_THREADPRIVATE
1953
1954	static void __kmp_stg_parse_foreign_threads_threadprivate(char const *name,
1955	char const *value,
1956	void *data) {
1957	__kmp_stg_parse_bool(name, value, &__kmp_foreign_tp);
1958	} // __kmp_stg_parse_foreign_threads_threadprivate
1959
1960	static void __kmp_stg_print_foreign_threads_threadprivate(kmp_str_buf_t *buffer,
1961	char const *name,
1962	void *data) {
1963	__kmp_stg_print_bool(buffer, name, __kmp_foreign_tp);
1964	} // __kmp_stg_print_foreign_threads_threadprivate
1965
1966	// -----------------------------------------------------------------------------
1967	// KMP_AFFINITY, GOMP_CPU_AFFINITY, KMP_TOPOLOGY_METHOD
1968
1969	#if KMP_AFFINITY_SUPPORTED1
1970	// Parse the proc id list. Return TRUE if successful, FALSE otherwise.
1971	static int __kmp_parse_affinity_proc_id_list(const char var, const char env,
1972	const char **nextEnv,
1973	char **proclist) {
1974	const char *scan = env;
1975	const char *next = scan;
1976	int empty = TRUE(!0);
1977
1978	*proclist = NULL__null;
1979
1980	for (;;) {
1981	int start, end, stride;
1982
1983	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
1984	next = scan;
1985	if (*next == '\0') {
1986	break;
1987	}
1988
1989	if (*next == '{') {
1990	int num;
1991	next++; // skip '{'
1992	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
1993	scan = next;
1994
1995	// Read the first integer in the set.
1996	if ((next < '0') \|\| (next > '9')) {
1997	KMP_WARNING(AffSyntaxError, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , var), __kmp_msg_null);
1998	return FALSE0;
1999	}
2000	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2001	num = __kmp_str_to_int(scan, *next);
2002	KMP_ASSERT(num >= 0)if (!(num >= 0)) { __kmp_debug_assert("num >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2002); };
2003
2004	for (;;) {
2005	// Check for end of set.
2006	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2007	if (*next == '}') {
2008	next++; // skip '}'
2009	break;
2010	}
2011
2012	// Skip optional comma.
2013	if (*next == ',') {
2014	next++;
2015	}
2016	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2017
2018	// Read the next integer in the set.
2019	scan = next;
2020	if ((next < '0') \|\| (next > '9')) {
2021	KMP_WARNING(AffSyntaxError, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , var), __kmp_msg_null);
2022	return FALSE0;
2023	}
2024
2025	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2026	num = __kmp_str_to_int(scan, *next);
2027	KMP_ASSERT(num >= 0)if (!(num >= 0)) { __kmp_debug_assert("num >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2027); };
2028	}
2029	empty = FALSE0;
2030
2031	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2032	if (*next == ',') {
2033	next++;
2034	}
2035	scan = next;
2036	continue;
2037	}
2038
2039	// Next character is not an integer => end of list
2040	if ((next < '0') \|\| (next > '9')) {
2041	if (empty) {
2042	KMP_WARNING(AffSyntaxError, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , var), __kmp_msg_null);
2043	return FALSE0;
2044	}
2045	break;
2046	}
2047
2048	// Read the first integer.
2049	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2050	start = __kmp_str_to_int(scan, *next);
2051	KMP_ASSERT(start >= 0)if (!(start >= 0)) { __kmp_debug_assert("start >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2051); };
2052	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2053
2054	// If this isn't a range, then go on.
2055	if (*next != '-') {
2056	empty = FALSE0;
2057
2058	// Skip optional comma.
2059	if (*next == ',') {
2060	next++;
2061	}
2062	scan = next;
2063	continue;
2064	}
2065
2066	// This is a range. Skip over the '-' and read in the 2nd int.
2067	next++; // skip '-'
2068	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2069	scan = next;
2070	if ((next < '0') \|\| (next > '9')) {
2071	KMP_WARNING(AffSyntaxError, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , var), __kmp_msg_null);
2072	return FALSE0;
2073	}
2074	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2075	end = __kmp_str_to_int(scan, *next);
2076	KMP_ASSERT(end >= 0)if (!(end >= 0)) { __kmp_debug_assert("end >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2076); };
2077
2078	// Check for a stride parameter
2079	stride = 1;
2080	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2081	if (*next == ':') {
2082	// A stride is specified. Skip over the ':" and read the 3rd int.
2083	int sign = +1;
2084	next++; // skip ':'
2085	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2086	scan = next;
2087	if (*next == '-') {
2088	sign = -1;
2089	next++;
2090	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2091	scan = next;
2092	}
2093	if ((next < '0') \|\| (next > '9')) {
2094	KMP_WARNING(AffSyntaxError, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , var), __kmp_msg_null);
2095	return FALSE0;
2096	}
2097	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2098	stride = __kmp_str_to_int(scan, *next);
2099	KMP_ASSERT(stride >= 0)if (!(stride >= 0)) { __kmp_debug_assert("stride >= 0", "openmp/runtime/src/kmp_settings.cpp", 2099); };
2100	stride *= sign;
2101	}
2102
2103	// Do some range checks.
2104	if (stride == 0) {
2105	KMP_WARNING(AffZeroStride, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffZeroStride , var), __kmp_msg_null);
2106	return FALSE0;
2107	}
2108	if (stride > 0) {
2109	if (start > end) {
2110	KMP_WARNING(AffStartGreaterEnd, var, start, end)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffStartGreaterEnd , var, start, end), __kmp_msg_null);
2111	return FALSE0;
2112	}
2113	} else {
2114	if (start < end) {
2115	KMP_WARNING(AffStrideLessZero, var, start, end)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffStrideLessZero , var, start, end), __kmp_msg_null);
2116	return FALSE0;
2117	}
2118	}
2119	if ((end - start) / stride > 65536) {
2120	KMP_WARNING(AffRangeTooBig, var, end, start, stride)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffRangeTooBig , var, end, start, stride), __kmp_msg_null);
2121	return FALSE0;
2122	}
2123
2124	empty = FALSE0;
2125
2126	// Skip optional comma.
2127	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2128	if (*next == ',') {
2129	next++;
2130	}
2131	scan = next;
2132	}
2133
2134	*nextEnv = next;
2135
2136	{
2137	ptrdiff_t len = next - env;
2138	char retlist = (char )__kmp_allocate((len + 1) * sizeof(char))___kmp_allocate(((len + 1) * sizeof(char)), "openmp/runtime/src/kmp_settings.cpp" , 2138);
2139	KMP_MEMCPY_S(retlist, (len + 1) * sizeof(char), env, len * sizeof(char))memcpy(retlist, env, len * sizeof(char));
2140	retlist[len] = '\0';
2141	*proclist = retlist;
2142	}
2143	return TRUE(!0);
2144	}
2145
2146	// If KMP_AFFINITY is specified without a type, then
2147	// __kmp_affinity_notype should point to its setting.
2148	static kmp_setting_t *__kmp_affinity_notype = NULL__null;
2149
2150	static void __kmp_parse_affinity_env(char const name, char const value,
2151	kmp_affinity_t *out_affinity) {
2152	char *buffer = NULL__null; // Copy of env var value.
2153	char *buf = NULL__null; // Buffer for strtok_r() function.
2154	char *next = NULL__null; // end of token / start of next.
2155	const char *start; // start of current token (for err msgs)
2156	int count = 0; // Counter of parsed integer numbers.
2157	int number[2]; // Parsed numbers.
2158
2159	// Guards.
2160	int type = 0;
2161	int proclist = 0;
2162	int verbose = 0;
2163	int warnings = 0;
2164	int respect = 0;
2165	int gran = 0;
2166	int dups = 0;
2167	int reset = 0;
2168	bool set = false;
2169
2170	KMP_ASSERT(value != NULL)if (!(value != __null)) { __kmp_debug_assert("value != NULL", "openmp/runtime/src/kmp_settings.cpp", 2170); };
2171
2172	if (TCR_4(__kmp_init_middle)(__kmp_init_middle)) {
2173	KMP_WARNING(EnvMiddleWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvMiddleWarn , name), __kmp_msg_null);
2174	__kmp_env_toPrint(name, 0);
2175	return;
2176	}
2177	__kmp_env_toPrint(name, 1);
2178
2179	buffer =
2180	__kmp_str_format("%s", value); // Copy env var to keep original intact.
2181	buf = buffer;
2182	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
2183
2184	// Helper macros.
2185
2186	// If we see a parse error, emit a warning and scan to the next ",".
2187	//
2188	// FIXME - there's got to be a better way to print an error
2189	// message, hopefully without overwriting peices of buf.
2190	#define EMIT_WARN(skip, errlist) \
2191	{ \
2192	char ch; \
2193	if (skip) { \
2194	SKIP_TO(next, ','){ while ((next) != '\0' && (next) != (',')) (next)++ ; }; \
2195	} \
2196	ch = *next; \
2197	*next = '\0'; \
2198	KMP_WARNING errlist; \
2199	*next = ch; \
2200	if (skip) { \
2201	if (ch == ',') \
2202	next++; \
2203	} \
2204	buf = next; \
2205	}
2206
2207	#define _set_param(_guard, _var, _val) \
2208	{ \
2209	if (_guard == 0) { \
2210	_var = _val; \
2211	} else { \
2212	EMIT_WARN(FALSE0, (AffParamDefined, name, start)); \
2213	} \
2214	++_guard; \
2215	}
2216
2217	#define set_type(val) _set_param(type, out_affinity->type, val)
2218	#define set_verbose(val) _set_param(verbose, out_affinity->flags.verbose, val)
2219	#define set_warnings(val) \
2220	_set_param(warnings, out_affinity->flags.warnings, val)
2221	#define set_respect(val) _set_param(respect, out_affinity->flags.respect, val)
2222	#define set_dups(val)_set_param(dups, out_affinity->flags.dups, val) _set_param(dups, out_affinity->flags.dups, val)
2223	#define set_proclist(val)_set_param(proclist, out_affinity->proclist, val) _set_param(proclist, out_affinity->proclist, val)
2224	#define set_reset(val) _set_param(reset, out_affinity->flags.reset, val)
2225
2226	#define set_gran(val, levels){ if (gran == 0) { out_affinity->gran = val; out_affinity-> gran_levels = levels; } else { EMIT_WARN(0, (AffParamDefined, name, start)); } ++gran; } \
2227	{ \
2228	if (gran == 0) { \
2229	out_affinity->gran = val; \
2230	out_affinity->gran_levels = levels; \
2231	} else { \
2232	EMIT_WARN(FALSE0, (AffParamDefined, name, start)); \
2233	} \
2234	++gran; \
2235	}
2236
2237	KMP_DEBUG_ASSERT((__kmp_nested_proc_bind.bind_types != NULL) &&if (!((__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0))) { __kmp_debug_assert( "(__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0)" , "openmp/runtime/src/kmp_settings.cpp", 2238); }
2238	(__kmp_nested_proc_bind.used > 0))if (!((__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0))) { __kmp_debug_assert( "(__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0)" , "openmp/runtime/src/kmp_settings.cpp", 2238); };
2239
2240	while (*buf != '\0') {
2241	start = next = buf;
2242
2243	if (__kmp_match_str("none", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2244	set_type(affinity_none);
2245	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
2246	buf = next;
2247	} else if (__kmp_match_str("scatter", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2248	set_type(affinity_scatter);
2249	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2250	buf = next;
2251	} else if (__kmp_match_str("compact", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2252	set_type(affinity_compact);
2253	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2254	buf = next;
2255	} else if (__kmp_match_str("logical", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2256	set_type(affinity_logical);
2257	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2258	buf = next;
2259	} else if (__kmp_match_str("physical", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2260	set_type(affinity_physical);
2261	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2262	buf = next;
	Value stored to 'buf' is never read
2263	} else if (__kmp_match_str("explicit", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2264	set_type(affinity_explicit);
2265	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2266	buf = next;
2267	} else if (__kmp_match_str("balanced", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2268	set_type(affinity_balanced);
2269	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2270	buf = next;
2271	} else if (__kmp_match_str("disabled", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2272	set_type(affinity_disabled);
2273	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
2274	buf = next;
2275	} else if (__kmp_match_str("verbose", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2276	set_verbose(TRUE(!0));
2277	buf = next;
2278	} else if (__kmp_match_str("noverbose", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2279	set_verbose(FALSE0);
2280	buf = next;
2281	} else if (__kmp_match_str("warnings", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2282	set_warnings(TRUE(!0));
2283	buf = next;
2284	} else if (__kmp_match_str("nowarnings", buf,
2285	CCAST(const char , &next)const_cast<const char >(&next))) {
2286	set_warnings(FALSE0);
2287	buf = next;
2288	} else if (__kmp_match_str("respect", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2289	set_respect(TRUE(!0));
2290	buf = next;
2291	} else if (__kmp_match_str("norespect", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2292	set_respect(FALSE0);
2293	buf = next;
2294	} else if (__kmp_match_str("reset", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2295	set_reset(TRUE(!0));
2296	buf = next;
2297	} else if (__kmp_match_str("noreset", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2298	set_reset(FALSE0);
2299	buf = next;
2300	} else if (__kmp_match_str("duplicates", buf,
2301	CCAST(const char , &next)const_cast<const char >(&next)) \|\|
2302	__kmp_match_str("dups", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2303	set_dups(TRUE)_set_param(dups, out_affinity->flags.dups, (!0));
2304	buf = next;
2305	} else if (__kmp_match_str("noduplicates", buf,
2306	CCAST(const char , &next)const_cast<const char >(&next)) \|\|
2307	__kmp_match_str("nodups", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2308	set_dups(FALSE)_set_param(dups, out_affinity->flags.dups, 0);
2309	buf = next;
2310	} else if (__kmp_match_str("granularity", buf,
2311	CCAST(const char , &next)const_cast<const char >(&next)) \|\|
2312	__kmp_match_str("gran", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2313	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2314	if (*next != '=') {
2315	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2316	continue;
2317	}
2318	next++; // skip '='
2319	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2320
2321	buf = next;
2322
2323	// Try any hardware topology type for granularity
2324	KMP_FOREACH_HW_TYPE(type)for (kmp_hw_t type = (kmp_hw_t)0; type < KMP_HW_LAST; type = (kmp_hw_t)((int)type + 1)) {
2325	const char *name = __kmp_hw_get_keyword(type);
2326	if (__kmp_match_str(name, buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2327	set_gran(type, -1){ if (gran == 0) { out_affinity->gran = type; out_affinity ->gran_levels = -1; } else { EMIT_WARN(0, (AffParamDefined , name, start)); } ++gran; };
2328	buf = next;
2329	set = true;
2330	break;
2331	}
2332	}
2333	if (!set) {
2334	// Support older names for different granularity layers
2335	if (__kmp_match_str("fine", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2336	set_gran(KMP_HW_THREAD, -1){ if (gran == 0) { out_affinity->gran = KMP_HW_THREAD; out_affinity ->gran_levels = -1; } else { EMIT_WARN(0, (AffParamDefined , name, start)); } ++gran; };
2337	buf = next;
2338	set = true;
2339	} else if (__kmp_match_str("package", buf,
2340	CCAST(const char , &next)const_cast<const char >(&next))) {
2341	set_gran(KMP_HW_SOCKET, -1){ if (gran == 0) { out_affinity->gran = KMP_HW_SOCKET; out_affinity ->gran_levels = -1; } else { EMIT_WARN(0, (AffParamDefined , name, start)); } ++gran; };
2342	buf = next;
2343	set = true;
2344	} else if (__kmp_match_str("node", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2345	set_gran(KMP_HW_NUMA, -1){ if (gran == 0) { out_affinity->gran = KMP_HW_NUMA; out_affinity ->gran_levels = -1; } else { EMIT_WARN(0, (AffParamDefined , name, start)); } ++gran; };
2346	buf = next;
2347	set = true;
2348	#if KMP_GROUP_AFFINITY0
2349	} else if (__kmp_match_str("group", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2350	set_gran(KMP_HW_PROC_GROUP, -1){ if (gran == 0) { out_affinity->gran = KMP_HW_PROC_GROUP; out_affinity->gran_levels = -1; } else { EMIT_WARN(0, (AffParamDefined , name, start)); } ++gran; };
2351	buf = next;
2352	set = true;
2353	#endif /* KMP_GROUP AFFINITY */
2354	} else if ((buf >= '0') && (buf <= '9')) {
2355	int n;
2356	next = buf;
2357	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2358	n = __kmp_str_to_int(buf, *next);
2359	KMP_ASSERT(n >= 0)if (!(n >= 0)) { __kmp_debug_assert("n >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2359); };
2360	buf = next;
2361	set_gran(KMP_HW_UNKNOWN, n){ if (gran == 0) { out_affinity->gran = KMP_HW_UNKNOWN; out_affinity ->gran_levels = n; } else { EMIT_WARN(0, (AffParamDefined, name, start)); } ++gran; };
2362	set = true;
2363	} else {
2364	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2365	continue;
2366	}
2367	}
2368	} else if (__kmp_match_str("proclist", buf, CCAST(const char , &next)const_cast<const char >(&next))) {
2369	char *temp_proclist;
2370
2371	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2372	if (*next != '=') {
2373	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2374	continue;
2375	}
2376	next++; // skip '='
2377	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2378	if (*next != '[') {
2379	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2380	continue;
2381	}
2382	next++; // skip '['
2383	buf = next;
2384	if (!__kmp_parse_affinity_proc_id_list(
2385	name, buf, CCAST(const char , &next)const_cast<const char >(&next), &temp_proclist)) {
2386	// warning already emitted.
2387	SKIP_TO(next, ']'){ while ((next) != '\0' && (next) != (']')) (next)++ ; };
2388	if (*next == ']')
2389	next++;
2390	SKIP_TO(next, ','){ while ((next) != '\0' && (next) != (',')) (next)++ ; };
2391	if (*next == ',')
2392	next++;
2393	buf = next;
2394	continue;
2395	}
2396	if (*next != ']') {
2397	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2398	continue;
2399	}
2400	next++; // skip ']'
2401	set_proclist(temp_proclist)_set_param(proclist, out_affinity->proclist, temp_proclist );
2402	} else if ((buf >= '0') && (buf <= '9')) {
2403	// Parse integer numbers -- permute and offset.
2404	int n;
2405	next = buf;
2406	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2407	n = __kmp_str_to_int(buf, *next);
2408	KMP_ASSERT(n >= 0)if (!(n >= 0)) { __kmp_debug_assert("n >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2408); };
2409	buf = next;
2410	if (count < 2) {
2411	number[count] = n;
2412	} else {
2413	KMP_WARNING(AffManyParams, name, start)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffManyParams , name, start), __kmp_msg_null);
2414	}
2415	++count;
2416	} else {
2417	EMIT_WARN(TRUE(!0), (AffInvalidParam, name, start));
2418	continue;
2419	}
2420
2421	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2422	if (*next == ',') {
2423	next++;
2424	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2425	} else if (*next != '\0') {
2426	const char *temp = next;
2427	EMIT_WARN(TRUE(!0), (ParseExtraCharsWarn, name, temp));
2428	continue;
2429	}
2430	buf = next;
2431	} // while
2432
2433	#undef EMIT_WARN
2434	#undef _set_param
2435	#undef set_type
2436	#undef set_verbose
2437	#undef set_warnings
2438	#undef set_respect
2439	#undef set_granularity
2440	#undef set_reset
2441
2442	__kmp_str_free(&buffer);
2443
2444	if (proclist) {
2445	if (!type) {
2446	KMP_WARNING(AffProcListNoType, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffProcListNoType , name), __kmp_msg_null);
2447	out_affinity->type = affinity_explicit;
2448	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2449	} else if (out_affinity->type != affinity_explicit) {
2450	KMP_WARNING(AffProcListNotExplicit, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffProcListNotExplicit , name), __kmp_msg_null);
2451	KMP_ASSERT(out_affinity->proclist != NULL)if (!(out_affinity->proclist != __null)) { __kmp_debug_assert ("out_affinity->proclist != NULL", "openmp/runtime/src/kmp_settings.cpp" , 2451); };
2452	KMP_INTERNAL_FREE(out_affinity->proclist)free(out_affinity->proclist);
2453	out_affinity->proclist = NULL__null;
2454	}
2455	}
2456	switch (out_affinity->type) {
2457	case affinity_logical:
2458	case affinity_physical: {
2459	if (count > 0) {
2460	out_affinity->offset = number[0];
2461	}
2462	if (count > 1) {
2463	KMP_WARNING(AffManyParamsForLogic, name, number[1])__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffManyParamsForLogic , name, number[1]), __kmp_msg_null);
2464	}
2465	} break;
2466	case affinity_balanced: {
2467	if (count > 0) {
2468	out_affinity->compact = number[0];
2469	}
2470	if (count > 1) {
2471	out_affinity->offset = number[1];
2472	}
2473
2474	if (__kmp_affinity.gran == KMP_HW_UNKNOWN) {
2475	int verbose = out_affinity->flags.verbose;
2476	int warnings = out_affinity->flags.warnings;
2477	#if KMP_MIC_SUPPORTED((0 \|\| 1) && (1 \|\| 0))
2478	if (__kmp_mic_type != non_mic) {
2479	if (verbose \|\| warnings) {
2480	KMP_WARNING(AffGranUsing, out_affinity->env_var, "fine")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffGranUsing , out_affinity->env_var, "fine"), __kmp_msg_null);
2481	}
2482	out_affinity->gran = KMP_HW_THREAD;
2483	} else
2484	#endif
2485	{
2486	if (verbose \|\| warnings) {
2487	KMP_WARNING(AffGranUsing, out_affinity->env_var, "core")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffGranUsing , out_affinity->env_var, "core"), __kmp_msg_null);
2488	}
2489	out_affinity->gran = KMP_HW_CORE;
2490	}
2491	}
2492	} break;
2493	case affinity_scatter:
2494	case affinity_compact: {
2495	if (count > 0) {
2496	out_affinity->compact = number[0];
2497	}
2498	if (count > 1) {
2499	out_affinity->offset = number[1];
2500	}
2501	} break;
2502	case affinity_explicit: {
2503	if (out_affinity->proclist == NULL__null) {
2504	KMP_WARNING(AffNoProcList, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNoProcList , name), __kmp_msg_null);
2505	out_affinity->type = affinity_none;
2506	}
2507	if (count > 0) {
2508	KMP_WARNING(AffNoParam, name, "explicit")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNoParam , name, "explicit"), __kmp_msg_null);
2509	}
2510	} break;
2511	case affinity_none: {
2512	if (count > 0) {
2513	KMP_WARNING(AffNoParam, name, "none")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNoParam , name, "none"), __kmp_msg_null);
2514	}
2515	} break;
2516	case affinity_disabled: {
2517	if (count > 0) {
2518	KMP_WARNING(AffNoParam, name, "disabled")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNoParam , name, "disabled"), __kmp_msg_null);
2519	}
2520	} break;
2521	case affinity_default: {
2522	if (count > 0) {
2523	KMP_WARNING(AffNoParam, name, "default")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNoParam , name, "default"), __kmp_msg_null);
2524	}
2525	} break;
2526	default: {
2527	KMP_ASSERT(0)if (!(0)) { __kmp_debug_assert("0", "openmp/runtime/src/kmp_settings.cpp" , 2527); };
2528	}
2529	}
2530	} // __kmp_parse_affinity_env
2531
2532	static void __kmp_stg_parse_affinity(char const name, char const value,
2533	void *data) {
2534	kmp_setting_t rivals = (kmp_setting_t )data;
2535	int rc;
2536
2537	rc = __kmp_stg_check_rivals(name, value, rivals);
2538	if (rc) {
2539	return;
2540	}
2541
2542	__kmp_parse_affinity_env(name, value, &__kmp_affinity);
2543
2544	} // __kmp_stg_parse_affinity
2545	static void __kmp_stg_parse_hh_affinity(char const name, char const value,
2546	void *data) {
2547	__kmp_parse_affinity_env(name, value, &__kmp_hh_affinity);
2548	// Warn about unused parts of hidden helper affinity settings if specified.
2549	if (__kmp_hh_affinity.flags.reset) {
2550	KMP_WARNING(AffInvalidParam, name, "reset")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffInvalidParam , name, "reset"), __kmp_msg_null);
2551	}
2552	if (__kmp_hh_affinity.flags.respect != affinity_respect_mask_default(2)) {
2553	KMP_WARNING(AffInvalidParam, name, "respect")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffInvalidParam , name, "respect"), __kmp_msg_null);
2554	}
2555	}
2556
2557	static void __kmp_print_affinity_env(kmp_str_buf_t buffer, char const name,
2558	const kmp_affinity_t &affinity) {
2559	bool is_hh_affinity = (&affinity == &__kmp_hh_affinity);
2560	if (__kmp_env_format) {
2561	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
2562	} else {
2563	__kmp_str_buf_print(buffer, " %s='", name);
2564	}
2565	if (affinity.flags.verbose) {
2566	__kmp_str_buf_print(buffer, "%s,", "verbose");
2567	} else {
2568	__kmp_str_buf_print(buffer, "%s,", "noverbose");
2569	}
2570	if (affinity.flags.warnings) {
2571	__kmp_str_buf_print(buffer, "%s,", "warnings");
2572	} else {
2573	__kmp_str_buf_print(buffer, "%s,", "nowarnings");
2574	}
2575	if (KMP_AFFINITY_CAPABLE()(__kmp_affin_mask_size > 0)) {
2576	// Hidden helper affinity does not affect global reset
2577	// or respect flags. That is still solely controlled by KMP_AFFINITY.
2578	if (!is_hh_affinity) {
2579	if (affinity.flags.respect) {
2580	__kmp_str_buf_print(buffer, "%s,", "respect");
2581	} else {
2582	__kmp_str_buf_print(buffer, "%s,", "norespect");
2583	}
2584	if (affinity.flags.reset) {
2585	__kmp_str_buf_print(buffer, "%s,", "reset");
2586	} else {
2587	__kmp_str_buf_print(buffer, "%s,", "noreset");
2588	}
2589	}
2590	__kmp_str_buf_print(buffer, "granularity=%s,",
2591	__kmp_hw_get_keyword(affinity.gran, false));
2592	}
2593	if (!KMP_AFFINITY_CAPABLE()(__kmp_affin_mask_size > 0)) {
2594	__kmp_str_buf_print(buffer, "%s", "disabled");
2595	} else {
2596	int compact = affinity.compact;
2597	int offset = affinity.offset;
2598	switch (affinity.type) {
2599	case affinity_none:
2600	__kmp_str_buf_print(buffer, "%s", "none");
2601	break;
2602	case affinity_physical:
2603	__kmp_str_buf_print(buffer, "%s,%d", "physical", offset);
2604	break;
2605	case affinity_logical:
2606	__kmp_str_buf_print(buffer, "%s,%d", "logical", offset);
2607	break;
2608	case affinity_compact:
2609	__kmp_str_buf_print(buffer, "%s,%d,%d", "compact", compact, offset);
2610	break;
2611	case affinity_scatter:
2612	__kmp_str_buf_print(buffer, "%s,%d,%d", "scatter", compact, offset);
2613	break;
2614	case affinity_explicit:
2615	__kmp_str_buf_print(buffer, "%s=[%s],%s", "proclist", affinity.proclist,
2616	"explicit");
2617	break;
2618	case affinity_balanced:
2619	__kmp_str_buf_print(buffer, "%s,%d,%d", "balanced", compact, offset);
2620	break;
2621	case affinity_disabled:
2622	__kmp_str_buf_print(buffer, "%s", "disabled");
2623	break;
2624	case affinity_default:
2625	__kmp_str_buf_print(buffer, "%s", "default");
2626	break;
2627	default:
2628	__kmp_str_buf_print(buffer, "%s", "<unknown>");
2629	break;
2630	}
2631	}
2632	__kmp_str_buf_print(buffer, "'\n");
2633	} //__kmp_stg_print_affinity
2634
2635	static void __kmp_stg_print_affinity(kmp_str_buf_t buffer, char const name,
2636	void *data) {
2637	__kmp_print_affinity_env(buffer, name, __kmp_affinity);
2638	}
2639	static void __kmp_stg_print_hh_affinity(kmp_str_buf_t buffer, char const name,
2640	void *data) {
2641	__kmp_print_affinity_env(buffer, name, __kmp_hh_affinity);
2642	}
2643
2644	#ifdef KMP_GOMP_COMPAT
2645
2646	static void __kmp_stg_parse_gomp_cpu_affinity(char const *name,
2647	char const value, void data) {
2648	const char *next = NULL__null;
2649	char *temp_proclist;
2650	kmp_setting_t rivals = (kmp_setting_t )data;
2651	int rc;
2652
2653	rc = __kmp_stg_check_rivals(name, value, rivals);
2654	if (rc) {
2655	return;
2656	}
2657
2658	if (TCR_4(__kmp_init_middle)(__kmp_init_middle)) {
2659	KMP_WARNING(EnvMiddleWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvMiddleWarn , name), __kmp_msg_null);
2660	__kmp_env_toPrint(name, 0);
2661	return;
2662	}
2663
2664	__kmp_env_toPrint(name, 1);
2665
2666	if (__kmp_parse_affinity_proc_id_list(name, value, &next, &temp_proclist)) {
2667	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
2668	if (*next == '\0') {
2669	// GOMP_CPU_AFFINITY => granularity=fine,explicit,proclist=...
2670	__kmp_affinity.proclist = temp_proclist;
2671	__kmp_affinity.type = affinity_explicit;
2672	__kmp_affinity.gran = KMP_HW_THREAD;
2673	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
2674	} else {
2675	KMP_WARNING(AffSyntaxError, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffSyntaxError , name), __kmp_msg_null);
2676	if (temp_proclist != NULL__null) {
2677	KMP_INTERNAL_FREE((void )temp_proclist)free((void )temp_proclist);
2678	}
2679	}
2680	} else {
2681	// Warning already emitted
2682	__kmp_affinity.type = affinity_none;
2683	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
2684	}
2685	} // __kmp_stg_parse_gomp_cpu_affinity
2686
2687	#endif /* KMP_GOMP_COMPAT */
2688
2689	/*-----------------------------------------------------------------------------
2690	The OMP_PLACES proc id list parser. Here is the grammar:
2691
2692	place_list := place
2693	place_list := place , place_list
2694	place := num
2695	place := place : num
2696	place := place : num : signed
2697	place := { subplacelist }
2698	place := ! place // (lowest priority)
2699	subplace_list := subplace
2700	subplace_list := subplace , subplace_list
2701	subplace := num
2702	subplace := num : num
2703	subplace := num : num : signed
2704	signed := num
2705	signed := + signed
2706	signed := - signed
2707	-----------------------------------------------------------------------------*/
2708
2709	// Warning to issue for syntax error during parsing of OMP_PLACES
2710	static inline void __kmp_omp_places_syntax_warn(const char *var) {
2711	KMP_WARNING(SyntaxErrorUsing, var, "\"cores\"")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_SyntaxErrorUsing , var, "\"cores\""), __kmp_msg_null);
2712	}
2713
2714	static int __kmp_parse_subplace_list(const char var, const char *scan) {
2715	const char *next;
2716
2717	for (;;) {
2718	int start, count, stride;
2719
2720	//
2721	// Read in the starting proc id
2722	//
2723	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2724	if ((scan < '0') \|\| (scan > '9')) {
2725	__kmp_omp_places_syntax_warn(var);
2726	return FALSE0;
2727	}
2728	next = *scan;
2729	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2730	start = __kmp_str_to_int(scan, next);
2731	KMP_ASSERT(start >= 0)if (!(start >= 0)) { __kmp_debug_assert("start >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2731); };
2732	*scan = next;
2733
2734	// valid follow sets are ',' ':' and '}'
2735	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2736	if (**scan == '}') {
2737	break;
2738	}
2739	if (**scan == ',') {
2740	(*scan)++; // skip ','
2741	continue;
2742	}
2743	if (**scan != ':') {
2744	__kmp_omp_places_syntax_warn(var);
2745	return FALSE0;
2746	}
2747	(*scan)++; // skip ':'
2748
2749	// Read count parameter
2750	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2751	if ((scan < '0') \|\| (scan > '9')) {
2752	__kmp_omp_places_syntax_warn(var);
2753	return FALSE0;
2754	}
2755	next = *scan;
2756	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2757	count = __kmp_str_to_int(scan, next);
2758	KMP_ASSERT(count >= 0)if (!(count >= 0)) { __kmp_debug_assert("count >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2758); };
2759	*scan = next;
2760
2761	// valid follow sets are ',' ':' and '}'
2762	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2763	if (**scan == '}') {
2764	break;
2765	}
2766	if (**scan == ',') {
2767	(*scan)++; // skip ','
2768	continue;
2769	}
2770	if (**scan != ':') {
2771	__kmp_omp_places_syntax_warn(var);
2772	return FALSE0;
2773	}
2774	(*scan)++; // skip ':'
2775
2776	// Read stride parameter
2777	int sign = +1;
2778	for (;;) {
2779	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2780	if (**scan == '+') {
2781	(*scan)++; // skip '+'
2782	continue;
2783	}
2784	if (**scan == '-') {
2785	sign *= -1;
2786	(*scan)++; // skip '-'
2787	continue;
2788	}
2789	break;
2790	}
2791	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2792	if ((scan < '0') \|\| (scan > '9')) {
2793	__kmp_omp_places_syntax_warn(var);
2794	return FALSE0;
2795	}
2796	next = *scan;
2797	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2798	stride = __kmp_str_to_int(scan, next);
2799	KMP_ASSERT(stride >= 0)if (!(stride >= 0)) { __kmp_debug_assert("stride >= 0", "openmp/runtime/src/kmp_settings.cpp", 2799); };
2800	*scan = next;
2801	stride *= sign;
2802
2803	// valid follow sets are ',' and '}'
2804	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2805	if (**scan == '}') {
2806	break;
2807	}
2808	if (**scan == ',') {
2809	(*scan)++; // skip ','
2810	continue;
2811	}
2812
2813	__kmp_omp_places_syntax_warn(var);
2814	return FALSE0;
2815	}
2816	return TRUE(!0);
2817	}
2818
2819	static int __kmp_parse_place(const char var, const char *scan) {
2820	const char *next;
2821
2822	// valid follow sets are '{' '!' and num
2823	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2824	if (**scan == '{') {
2825	(*scan)++; // skip '{'
2826	if (!__kmp_parse_subplace_list(var, scan)) {
2827	return FALSE0;
2828	}
2829	if (**scan != '}') {
2830	__kmp_omp_places_syntax_warn(var);
2831	return FALSE0;
2832	}
2833	(*scan)++; // skip '}'
2834	} else if (**scan == '!') {
2835	(*scan)++; // skip '!'
2836	return __kmp_parse_place(var, scan); //'!' has lower precedence than ':'
2837	} else if ((scan >= '0') && (scan <= '9')) {
2838	next = *scan;
2839	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2840	int proc = __kmp_str_to_int(scan, next);
2841	KMP_ASSERT(proc >= 0)if (!(proc >= 0)) { __kmp_debug_assert("proc >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2841); };
2842	*scan = next;
2843	} else {
2844	__kmp_omp_places_syntax_warn(var);
2845	return FALSE0;
2846	}
2847	return TRUE(!0);
2848	}
2849
2850	static int __kmp_parse_place_list(const char var, const char env,
2851	char **place_list) {
2852	const char *scan = env;
2853	const char *next = scan;
2854
2855	for (;;) {
2856	int count, stride;
2857
2858	if (!__kmp_parse_place(var, &scan)) {
2859	return FALSE0;
2860	}
2861
2862	// valid follow sets are ',' ':' and EOL
2863	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2864	if (*scan == '\0') {
2865	break;
2866	}
2867	if (*scan == ',') {
2868	scan++; // skip ','
2869	continue;
2870	}
2871	if (*scan != ':') {
2872	__kmp_omp_places_syntax_warn(var);
2873	return FALSE0;
2874	}
2875	scan++; // skip ':'
2876
2877	// Read count parameter
2878	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2879	if ((scan < '0') \|\| (scan > '9')) {
2880	__kmp_omp_places_syntax_warn(var);
2881	return FALSE0;
2882	}
2883	next = scan;
2884	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2885	count = __kmp_str_to_int(scan, *next);
2886	KMP_ASSERT(count >= 0)if (!(count >= 0)) { __kmp_debug_assert("count >= 0", "openmp/runtime/src/kmp_settings.cpp" , 2886); };
2887	scan = next;
2888
2889	// valid follow sets are ',' ':' and EOL
2890	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2891	if (*scan == '\0') {
2892	break;
2893	}
2894	if (*scan == ',') {
2895	scan++; // skip ','
2896	continue;
2897	}
2898	if (*scan != ':') {
2899	__kmp_omp_places_syntax_warn(var);
2900	return FALSE0;
2901	}
2902	scan++; // skip ':'
2903
2904	// Read stride parameter
2905	int sign = +1;
2906	for (;;) {
2907	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2908	if (*scan == '+') {
2909	scan++; // skip '+'
2910	continue;
2911	}
2912	if (*scan == '-') {
2913	sign *= -1;
2914	scan++; // skip '-'
2915	continue;
2916	}
2917	break;
2918	}
2919	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2920	if ((scan < '0') \|\| (scan > '9')) {
2921	__kmp_omp_places_syntax_warn(var);
2922	return FALSE0;
2923	}
2924	next = scan;
2925	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
2926	stride = __kmp_str_to_int(scan, *next);
2927	KMP_ASSERT(stride >= 0)if (!(stride >= 0)) { __kmp_debug_assert("stride >= 0", "openmp/runtime/src/kmp_settings.cpp", 2927); };
2928	scan = next;
2929	stride *= sign;
2930
2931	// valid follow sets are ',' and EOL
2932	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
2933	if (*scan == '\0') {
2934	break;
2935	}
2936	if (*scan == ',') {
2937	scan++; // skip ','
2938	continue;
2939	}
2940
2941	__kmp_omp_places_syntax_warn(var);
2942	return FALSE0;
2943	}
2944
2945	{
2946	ptrdiff_t len = scan - env;
2947	char retlist = (char )__kmp_allocate((len + 1) * sizeof(char))___kmp_allocate(((len + 1) * sizeof(char)), "openmp/runtime/src/kmp_settings.cpp" , 2947);
2948	KMP_MEMCPY_S(retlist, (len + 1) * sizeof(char), env, len * sizeof(char))memcpy(retlist, env, len * sizeof(char));
2949	retlist[len] = '\0';
2950	*place_list = retlist;
2951	}
2952	return TRUE(!0);
2953	}
2954
2955	static void __kmp_stg_parse_places(char const name, char const value,
2956	void *data) {
2957	struct kmp_place_t {
2958	const char *name;
2959	kmp_hw_t type;
2960	};
2961	int count;
2962	bool set = false;
2963	const char *scan = value;
2964	const char *next = scan;
2965	const char *kind = "\"threads\"";
2966	kmp_place_t std_places[] = {{"threads", KMP_HW_THREAD},
2967	{"cores", KMP_HW_CORE},
2968	{"numa_domains", KMP_HW_NUMA},
2969	{"ll_caches", KMP_HW_LLC},
2970	{"sockets", KMP_HW_SOCKET}};
2971	kmp_setting_t rivals = (kmp_setting_t )data;
2972	int rc;
2973
2974	rc = __kmp_stg_check_rivals(name, value, rivals);
2975	if (rc) {
2976	return;
2977	}
2978
2979	// Standard choices
2980	for (size_t i = 0; i < sizeof(std_places) / sizeof(std_places[0]); ++i) {
2981	const kmp_place_t &place = std_places[i];
2982	if (__kmp_match_str(place.name, scan, &next)) {
2983	scan = next;
2984	__kmp_affinity.type = affinity_compact;
2985	__kmp_affinity.gran = place.type;
2986	__kmp_affinity.flags.dups = FALSE0;
2987	set = true;
2988	break;
2989	}
2990	}
2991	// Implementation choices for OMP_PLACES based on internal types
2992	if (!set) {
2993	KMP_FOREACH_HW_TYPE(type)for (kmp_hw_t type = (kmp_hw_t)0; type < KMP_HW_LAST; type = (kmp_hw_t)((int)type + 1)) {
2994	const char *name = __kmp_hw_get_keyword(type, true);
2995	if (__kmp_match_str("unknowns", scan, &next))
2996	continue;
2997	if (__kmp_match_str(name, scan, &next)) {
2998	scan = next;
2999	__kmp_affinity.type = affinity_compact;
3000	__kmp_affinity.gran = type;
3001	__kmp_affinity.flags.dups = FALSE0;
3002	set = true;
3003	break;
3004	}
3005	}
3006	}
3007	if (!set) {
3008	if (__kmp_affinity.proclist != NULL__null) {
3009	KMP_INTERNAL_FREE((void )__kmp_affinity.proclist)free((void )__kmp_affinity.proclist);
3010	__kmp_affinity.proclist = NULL__null;
3011	}
3012	if (__kmp_parse_place_list(name, value, &__kmp_affinity.proclist)) {
3013	__kmp_affinity.type = affinity_explicit;
3014	__kmp_affinity.gran = KMP_HW_THREAD;
3015	__kmp_affinity.flags.dups = FALSE0;
3016	} else {
3017	// Syntax error fallback
3018	__kmp_affinity.type = affinity_compact;
3019	__kmp_affinity.gran = KMP_HW_CORE;
3020	__kmp_affinity.flags.dups = FALSE0;
3021	}
3022	if (__kmp_nested_proc_bind.bind_types[0] == proc_bind_default) {
3023	__kmp_nested_proc_bind.bind_types[0] = proc_bind_true;
3024	}
3025	return;
3026	}
3027	if (__kmp_affinity.gran != KMP_HW_UNKNOWN) {
3028	kind = __kmp_hw_get_keyword(__kmp_affinity.gran);
3029	}
3030
3031	if (__kmp_nested_proc_bind.bind_types[0] == proc_bind_default) {
3032	__kmp_nested_proc_bind.bind_types[0] = proc_bind_true;
3033	}
3034
3035	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
3036	if (*scan == '\0') {
3037	return;
3038	}
3039
3040	// Parse option count parameter in parentheses
3041	if (*scan != '(') {
3042	KMP_WARNING(SyntaxErrorUsing, name, kind)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_SyntaxErrorUsing , name, kind), __kmp_msg_null);
3043	return;
3044	}
3045	scan++; // skip '('
3046
3047	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
3048	next = scan;
3049	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
3050	count = __kmp_str_to_int(scan, *next);
3051	KMP_ASSERT(count >= 0)if (!(count >= 0)) { __kmp_debug_assert("count >= 0", "openmp/runtime/src/kmp_settings.cpp" , 3051); };
3052	scan = next;
3053
3054	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
3055	if (*scan != ')') {
3056	KMP_WARNING(SyntaxErrorUsing, name, kind)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_SyntaxErrorUsing , name, kind), __kmp_msg_null);
3057	return;
3058	}
3059	scan++; // skip ')'
3060
3061	SKIP_WS(scan){ while ((scan) == ' ' \|\| (scan) == '\t') (scan)++; };
3062	if (*scan != '\0') {
3063	KMP_WARNING(ParseExtraCharsWarn, name, scan)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseExtraCharsWarn , name, scan), __kmp_msg_null);
3064	}
3065	__kmp_affinity_num_places = count;
3066	}
3067
3068	static void __kmp_stg_print_places(kmp_str_buf_t buffer, char const name,
3069	void *data) {
3070	enum affinity_type type = __kmp_affinity.type;
3071	const char *proclist = __kmp_affinity.proclist;
3072	kmp_hw_t gran = __kmp_affinity.gran;
3073
3074	if (__kmp_env_format) {
3075	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
3076	} else {
3077	__kmp_str_buf_print(buffer, " %s", name);
3078	}
3079	if ((__kmp_nested_proc_bind.used == 0) \|\|
3080	(__kmp_nested_proc_bind.bind_types == NULL__null) \|\|
3081	(__kmp_nested_proc_bind.bind_types[0] == proc_bind_false)) {
3082	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3083	} else if (type == affinity_explicit) {
3084	if (proclist != NULL__null) {
3085	__kmp_str_buf_print(buffer, "='%s'\n", proclist);
3086	} else {
3087	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3088	}
3089	} else if (type == affinity_compact) {
3090	int num;
3091	if (__kmp_affinity.num_masks > 0) {
3092	num = __kmp_affinity.num_masks;
3093	} else if (__kmp_affinity_num_places > 0) {
3094	num = __kmp_affinity_num_places;
3095	} else {
3096	num = 0;
3097	}
3098	if (gran != KMP_HW_UNKNOWN) {
3099	const char *name = __kmp_hw_get_keyword(gran, true);
3100	if (num > 0) {
3101	__kmp_str_buf_print(buffer, "='%s(%d)'\n", name, num);
3102	} else {
3103	__kmp_str_buf_print(buffer, "='%s'\n", name);
3104	}
3105	} else {
3106	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3107	}
3108	} else {
3109	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3110	}
3111	}
3112
3113	static void __kmp_stg_parse_topology_method(char const name, char const value,
3114	void *data) {
3115	if (__kmp_str_match("all", 1, value)) {
3116	__kmp_affinity_top_method = affinity_top_method_all;
3117	}
3118	#if KMP_USE_HWLOC0
3119	else if (__kmp_str_match("hwloc", 1, value)) {
3120	__kmp_affinity_top_method = affinity_top_method_hwloc;
3121	}
3122	#endif
3123	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
3124	else if (__kmp_str_match("cpuid_leaf31", 12, value) \|\|
3125	__kmp_str_match("cpuid 1f", 8, value) \|\|
3126	__kmp_str_match("cpuid 31", 8, value) \|\|
3127	__kmp_str_match("cpuid1f", 7, value) \|\|
3128	__kmp_str_match("cpuid31", 7, value) \|\|
3129	__kmp_str_match("leaf 1f", 7, value) \|\|
3130	__kmp_str_match("leaf 31", 7, value) \|\|
3131	__kmp_str_match("leaf1f", 6, value) \|\|
3132	__kmp_str_match("leaf31", 6, value)) {
3133	__kmp_affinity_top_method = affinity_top_method_x2apicid_1f;
3134	} else if (__kmp_str_match("x2apic id", 9, value) \|\|
3135	__kmp_str_match("x2apic_id", 9, value) \|\|
3136	__kmp_str_match("x2apic-id", 9, value) \|\|
3137	__kmp_str_match("x2apicid", 8, value) \|\|
3138	__kmp_str_match("cpuid leaf 11", 13, value) \|\|
3139	__kmp_str_match("cpuid_leaf_11", 13, value) \|\|
3140	__kmp_str_match("cpuid-leaf-11", 13, value) \|\|
3141	__kmp_str_match("cpuid leaf11", 12, value) \|\|
3142	__kmp_str_match("cpuid_leaf11", 12, value) \|\|
3143	__kmp_str_match("cpuid-leaf11", 12, value) \|\|
3144	__kmp_str_match("cpuidleaf 11", 12, value) \|\|
3145	__kmp_str_match("cpuidleaf_11", 12, value) \|\|
3146	__kmp_str_match("cpuidleaf-11", 12, value) \|\|
3147	__kmp_str_match("cpuidleaf11", 11, value) \|\|
3148	__kmp_str_match("cpuid 11", 8, value) \|\|
3149	__kmp_str_match("cpuid_11", 8, value) \|\|
3150	__kmp_str_match("cpuid-11", 8, value) \|\|
3151	__kmp_str_match("cpuid11", 7, value) \|\|
3152	__kmp_str_match("leaf 11", 7, value) \|\|
3153	__kmp_str_match("leaf_11", 7, value) \|\|
3154	__kmp_str_match("leaf-11", 7, value) \|\|
3155	__kmp_str_match("leaf11", 6, value)) {
3156	__kmp_affinity_top_method = affinity_top_method_x2apicid;
3157	} else if (__kmp_str_match("apic id", 7, value) \|\|
3158	__kmp_str_match("apic_id", 7, value) \|\|
3159	__kmp_str_match("apic-id", 7, value) \|\|
3160	__kmp_str_match("apicid", 6, value) \|\|
3161	__kmp_str_match("cpuid leaf 4", 12, value) \|\|
3162	__kmp_str_match("cpuid_leaf_4", 12, value) \|\|
3163	__kmp_str_match("cpuid-leaf-4", 12, value) \|\|
3164	__kmp_str_match("cpuid leaf4", 11, value) \|\|
3165	__kmp_str_match("cpuid_leaf4", 11, value) \|\|
3166	__kmp_str_match("cpuid-leaf4", 11, value) \|\|
3167	__kmp_str_match("cpuidleaf 4", 11, value) \|\|
3168	__kmp_str_match("cpuidleaf_4", 11, value) \|\|
3169	__kmp_str_match("cpuidleaf-4", 11, value) \|\|
3170	__kmp_str_match("cpuidleaf4", 10, value) \|\|
3171	__kmp_str_match("cpuid 4", 7, value) \|\|
3172	__kmp_str_match("cpuid_4", 7, value) \|\|
3173	__kmp_str_match("cpuid-4", 7, value) \|\|
3174	__kmp_str_match("cpuid4", 6, value) \|\|
3175	__kmp_str_match("leaf 4", 6, value) \|\|
3176	__kmp_str_match("leaf_4", 6, value) \|\|
3177	__kmp_str_match("leaf-4", 6, value) \|\|
3178	__kmp_str_match("leaf4", 5, value)) {
3179	__kmp_affinity_top_method = affinity_top_method_apicid;
3180	}
3181	#endif /* KMP_ARCH_X86 \|\| KMP_ARCH_X86_64 */
3182	else if (__kmp_str_match("/proc/cpuinfo", 2, value) \|\|
3183	__kmp_str_match("cpuinfo", 5, value)) {
3184	__kmp_affinity_top_method = affinity_top_method_cpuinfo;
3185	}
3186	#if KMP_GROUP_AFFINITY0
3187	else if (__kmp_str_match("group", 1, value)) {
3188	KMP_WARNING(StgDeprecatedValue, name, value, "all")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgDeprecatedValue , name, value, "all"), __kmp_msg_null);
3189	__kmp_affinity_top_method = affinity_top_method_group;
3190	}
3191	#endif /* KMP_GROUP_AFFINITY */
3192	else if (__kmp_str_match("flat", 1, value)) {
3193	__kmp_affinity_top_method = affinity_top_method_flat;
3194	} else {
3195	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3196	}
3197	} // __kmp_stg_parse_topology_method
3198
3199	static void __kmp_stg_print_topology_method(kmp_str_buf_t *buffer,
3200	char const name, void data) {
3201	char const *value = NULL__null;
3202
3203	switch (__kmp_affinity_top_method) {
3204	case affinity_top_method_default:
3205	value = "default";
3206	break;
3207
3208	case affinity_top_method_all:
3209	value = "all";
3210	break;
3211
3212	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
3213	case affinity_top_method_x2apicid_1f:
3214	value = "x2APIC id leaf 0x1f";
3215	break;
3216
3217	case affinity_top_method_x2apicid:
3218	value = "x2APIC id leaf 0xb";
3219	break;
3220
3221	case affinity_top_method_apicid:
3222	value = "APIC id";
3223	break;
3224	#endif /* KMP_ARCH_X86 \|\| KMP_ARCH_X86_64 */
3225
3226	#if KMP_USE_HWLOC0
3227	case affinity_top_method_hwloc:
3228	value = "hwloc";
3229	break;
3230	#endif
3231
3232	case affinity_top_method_cpuinfo:
3233	value = "cpuinfo";
3234	break;
3235
3236	#if KMP_GROUP_AFFINITY0
3237	case affinity_top_method_group:
3238	value = "group";
3239	break;
3240	#endif /* KMP_GROUP_AFFINITY */
3241
3242	case affinity_top_method_flat:
3243	value = "flat";
3244	break;
3245	}
3246
3247	if (value != NULL__null) {
3248	__kmp_stg_print_str(buffer, name, value);
3249	}
3250	} // __kmp_stg_print_topology_method
3251
3252	// KMP_TEAMS_PROC_BIND
3253	struct kmp_proc_bind_info_t {
3254	const char *name;
3255	kmp_proc_bind_t proc_bind;
3256	};
3257	static kmp_proc_bind_info_t proc_bind_table[] = {
3258	{"spread", proc_bind_spread},
3259	{"true", proc_bind_spread},
3260	{"close", proc_bind_close},
3261	// teams-bind = false means "replicate the primary thread's affinity"
3262	{"false", proc_bind_primary},
3263	{"primary", proc_bind_primary}};
3264	static void __kmp_stg_parse_teams_proc_bind(char const name, char const value,
3265	void *data) {
3266	int valid;
3267	const char *end;
3268	valid = 0;
3269	for (size_t i = 0; i < sizeof(proc_bind_table) / sizeof(proc_bind_table[0]);
3270	++i) {
3271	if (__kmp_match_str(proc_bind_table[i].name, value, &end)) {
3272	__kmp_teams_proc_bind = proc_bind_table[i].proc_bind;
3273	valid = 1;
3274	break;
3275	}
3276	}
3277	if (!valid) {
3278	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3279	}
3280	}
3281	static void __kmp_stg_print_teams_proc_bind(kmp_str_buf_t *buffer,
3282	char const name, void data) {
3283	const char *value = KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined);
3284	for (size_t i = 0; i < sizeof(proc_bind_table) / sizeof(proc_bind_table[0]);
3285	++i) {
3286	if (__kmp_teams_proc_bind == proc_bind_table[i].proc_bind) {
3287	value = proc_bind_table[i].name;
3288	break;
3289	}
3290	}
3291	__kmp_stg_print_str(buffer, name, value);
3292	}
3293	#endif /* KMP_AFFINITY_SUPPORTED */
3294
3295	// OMP_PROC_BIND / bind-var is functional on all 4.0 builds, including OS X*
3296	// OMP_PLACES / place-partition-var is not.
3297	static void __kmp_stg_parse_proc_bind(char const name, char const value,
3298	void *data) {
3299	kmp_setting_t rivals = (kmp_setting_t )data;
3300	int rc;
3301
3302	rc = __kmp_stg_check_rivals(name, value, rivals);
3303	if (rc) {
3304	return;
3305	}
3306
3307	// In OMP 4.0 OMP_PROC_BIND is a vector of proc_bind types.
3308	KMP_DEBUG_ASSERT((__kmp_nested_proc_bind.bind_types != NULL) &&if (!((__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0))) { __kmp_debug_assert( "(__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0)" , "openmp/runtime/src/kmp_settings.cpp", 3309); }
3309	(__kmp_nested_proc_bind.used > 0))if (!((__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0))) { __kmp_debug_assert( "(__kmp_nested_proc_bind.bind_types != __null) && (__kmp_nested_proc_bind.used > 0)" , "openmp/runtime/src/kmp_settings.cpp", 3309); };
3310
3311	const char *buf = value;
3312	const char *next;
3313	int num;
3314	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3315	if ((buf >= '0') && (buf <= '9')) {
3316	next = buf;
3317	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
3318	num = __kmp_str_to_int(buf, *next);
3319	KMP_ASSERT(num >= 0)if (!(num >= 0)) { __kmp_debug_assert("num >= 0", "openmp/runtime/src/kmp_settings.cpp" , 3319); };
3320	buf = next;
3321	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3322	} else {
3323	num = -1;
3324	}
3325
3326	next = buf;
3327	if (__kmp_match_str("disabled", buf, &next)) {
3328	buf = next;
3329	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3330	#if KMP_AFFINITY_SUPPORTED1
3331	__kmp_affinity.type = affinity_disabled;
3332	#endif /* KMP_AFFINITY_SUPPORTED */
3333	__kmp_nested_proc_bind.used = 1;
3334	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
3335	} else if ((num == (int)proc_bind_false) \|\|
3336	__kmp_match_str("false", buf, &next)) {
3337	buf = next;
3338	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3339	#if KMP_AFFINITY_SUPPORTED1
3340	__kmp_affinity.type = affinity_none;
3341	#endif /* KMP_AFFINITY_SUPPORTED */
3342	__kmp_nested_proc_bind.used = 1;
3343	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
3344	} else if ((num == (int)proc_bind_true) \|\|
3345	__kmp_match_str("true", buf, &next)) {
3346	buf = next;
3347	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3348	__kmp_nested_proc_bind.used = 1;
3349	__kmp_nested_proc_bind.bind_types[0] = proc_bind_true;
3350	} else {
3351	// Count the number of values in the env var string
3352	const char *scan;
3353	int nelem = 1;
3354	for (scan = buf; *scan != '\0'; scan++) {
3355	if (*scan == ',') {
3356	nelem++;
3357	}
3358	}
3359
3360	// Create / expand the nested proc_bind array as needed
3361	if (__kmp_nested_proc_bind.size < nelem) {
3362	__kmp_nested_proc_bind.bind_types =
3363	(kmp_proc_bind_t )KMP_INTERNAL_REALLOC(realloc((__kmp_nested_proc_bind.bind_types), (sizeof(kmp_proc_bind_t ) nelem))
3364	__kmp_nested_proc_bind.bind_types,realloc((__kmp_nested_proc_bind.bind_types), (sizeof(kmp_proc_bind_t ) * nelem))
3365	sizeof(kmp_proc_bind_t) * nelem)realloc((__kmp_nested_proc_bind.bind_types), (sizeof(kmp_proc_bind_t ) * nelem));
3366	if (__kmp_nested_proc_bind.bind_types == NULL__null) {
3367	KMP_FATAL(MemoryAllocFailed)__kmp_fatal(__kmp_msg_format(kmp_i18n_msg_MemoryAllocFailed), __kmp_msg_null);
3368	}
3369	__kmp_nested_proc_bind.size = nelem;
3370	}
3371	__kmp_nested_proc_bind.used = nelem;
3372
3373	if (nelem > 1 && !__kmp_dflt_max_active_levels_set)
3374	__kmp_dflt_max_active_levels = KMP_MAX_ACTIVE_LEVELS_LIMIT2147483647;
3375
3376	// Save values in the nested proc_bind array
3377	int i = 0;
3378	for (;;) {
3379	enum kmp_proc_bind_t bind;
3380
3381	if ((num == (int)proc_bind_primary) \|\|
3382	__kmp_match_str("master", buf, &next) \|\|
3383	__kmp_match_str("primary", buf, &next)) {
3384	buf = next;
3385	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3386	bind = proc_bind_primary;
3387	} else if ((num == (int)proc_bind_close) \|\|
3388	__kmp_match_str("close", buf, &next)) {
3389	buf = next;
3390	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3391	bind = proc_bind_close;
3392	} else if ((num == (int)proc_bind_spread) \|\|
3393	__kmp_match_str("spread", buf, &next)) {
3394	buf = next;
3395	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3396	bind = proc_bind_spread;
3397	} else {
3398	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3399	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
3400	__kmp_nested_proc_bind.used = 1;
3401	return;
3402	}
3403
3404	__kmp_nested_proc_bind.bind_types[i++] = bind;
3405	if (i >= nelem) {
3406	break;
3407	}
3408	KMP_DEBUG_ASSERT(buf == ',')if (!(buf == ',')) { __kmp_debug_assert("*buf == ','", "openmp/runtime/src/kmp_settings.cpp" , 3408); };
3409	buf++;
3410	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3411
3412	// Read next value if it was specified as an integer
3413	if ((buf >= '0') && (buf <= '9')) {
3414	next = buf;
3415	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
3416	num = __kmp_str_to_int(buf, *next);
3417	KMP_ASSERT(num >= 0)if (!(num >= 0)) { __kmp_debug_assert("num >= 0", "openmp/runtime/src/kmp_settings.cpp" , 3417); };
3418	buf = next;
3419	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3420	} else {
3421	num = -1;
3422	}
3423	}
3424	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3425	}
3426	if (*buf != '\0') {
3427	KMP_WARNING(ParseExtraCharsWarn, name, buf)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseExtraCharsWarn , name, buf), __kmp_msg_null);
3428	}
3429	}
3430
3431	static void __kmp_stg_print_proc_bind(kmp_str_buf_t buffer, char const name,
3432	void *data) {
3433	int nelem = __kmp_nested_proc_bind.used;
3434	if (__kmp_env_format) {
3435	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
3436	} else {
3437	__kmp_str_buf_print(buffer, " %s", name);
3438	}
3439	if (nelem == 0) {
3440	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3441	} else {
3442	int i;
3443	__kmp_str_buf_print(buffer, "='", name);
3444	for (i = 0; i < nelem; i++) {
3445	switch (__kmp_nested_proc_bind.bind_types[i]) {
3446	case proc_bind_false:
3447	__kmp_str_buf_print(buffer, "false");
3448	break;
3449
3450	case proc_bind_true:
3451	__kmp_str_buf_print(buffer, "true");
3452	break;
3453
3454	case proc_bind_primary:
3455	__kmp_str_buf_print(buffer, "primary");
3456	break;
3457
3458	case proc_bind_close:
3459	__kmp_str_buf_print(buffer, "close");
3460	break;
3461
3462	case proc_bind_spread:
3463	__kmp_str_buf_print(buffer, "spread");
3464	break;
3465
3466	case proc_bind_intel:
3467	__kmp_str_buf_print(buffer, "intel");
3468	break;
3469
3470	case proc_bind_default:
3471	__kmp_str_buf_print(buffer, "default");
3472	break;
3473	}
3474	if (i < nelem - 1) {
3475	__kmp_str_buf_print(buffer, ",");
3476	}
3477	}
3478	__kmp_str_buf_print(buffer, "'\n");
3479	}
3480	}
3481
3482	static void __kmp_stg_parse_display_affinity(char const *name,
3483	char const value, void data) {
3484	__kmp_stg_parse_bool(name, value, &__kmp_display_affinity);
3485	}
3486	static void __kmp_stg_print_display_affinity(kmp_str_buf_t *buffer,
3487	char const name, void data) {
3488	__kmp_stg_print_bool(buffer, name, __kmp_display_affinity);
3489	}
3490	static void __kmp_stg_parse_affinity_format(char const name, char const value,
3491	void *data) {
3492	size_t length = KMP_STRLENstrlen(value);
3493	__kmp_strncpy_truncate(__kmp_affinity_format, KMP_AFFINITY_FORMAT_SIZE, value,
3494	length);
3495	}
3496	static void __kmp_stg_print_affinity_format(kmp_str_buf_t *buffer,
3497	char const name, void data) {
3498	if (__kmp_env_format) {
3499	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
3500	} else {
3501	__kmp_str_buf_print(buffer, " %s='", name);
3502	}
3503	__kmp_str_buf_print(buffer, "%s'\n", __kmp_affinity_format);
3504	}
3505
3506	/*-----------------------------------------------------------------------------
3507	OMP_ALLOCATOR sets default allocator. Here is the grammar:
3508
3509	<allocator> \|= <predef-allocator> \| <predef-mem-space> \|
3510	<predef-mem-space>:<traits>
3511	<traits> \|= <trait>=<value> \| <trait>=<value>,<traits>
3512	<predef-allocator> \|= omp_default_mem_alloc \| omp_large_cap_mem_alloc \|
3513	omp_const_mem_alloc \| omp_high_bw_mem_alloc \|
3514	omp_low_lat_mem_alloc \| omp_cgroup_mem_alloc \|
3515	omp_pteam_mem_alloc \| omp_thread_mem_alloc
3516	<predef-mem-space> \|= omp_default_mem_space \| omp_large_cap_mem_space \|
3517	omp_const_mem_space \| omp_high_bw_mem_space \|
3518	omp_low_lat_mem_space
3519	<trait> \|= sync_hint \| alignment \| access \| pool_size \| fallback \|
3520	fb_data \| pinned \| partition
3521	<value> \|= one of the allowed values of trait \|
3522	non-negative integer \| <predef-allocator>
3523	-----------------------------------------------------------------------------*/
3524
3525	static void __kmp_stg_parse_allocator(char const name, char const value,
3526	void *data) {
3527	const char *buf = value;
3528	const char next, scan, *start;
3529	char *key;
3530	omp_allocator_handle_t al;
3531	omp_memspace_handle_t ms = omp_default_mem_space;
3532	bool is_memspace = false;
3533	int ntraits = 0, count = 0;
3534
3535	SKIP_WS(buf){ while ((buf) == ' ' \|\| (buf) == '\t') (buf)++; };
3536	next = buf;
3537	const char *delim = strchr(buf, ':');
3538	const char *predef_mem_space = strstr(buf, "mem_space");
3539
3540	bool is_memalloc = (!predef_mem_space && !delim) ? true : false;
3541
3542	// Count the number of traits in the env var string
3543	if (delim) {
3544	ntraits = 1;
3545	for (scan = buf; *scan != '\0'; scan++) {
3546	if (*scan == ',')
3547	ntraits++;
3548	}
3549	}
3550	omp_alloctrait_t *traits =
3551	(omp_alloctrait_t )KMP_ALLOCA(ntraits sizeof(omp_alloctrait_t))__builtin_alloca (ntraits * sizeof(omp_alloctrait_t));
3552
3553	// Helper macros
3554	#define IS_POWER_OF_TWO(n)(((n) & ((n)-1)) == 0) (((n) & ((n)-1)) == 0)
3555
3556	#define GET_NEXT(sentinel){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == sentinel) next++; { while ((next) == ' ' \|\| *(next ) == '\t') (next)++; }; scan = next; } \
3557	{ \
3558	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; }; \
3559	if (*next == sentinel) \
3560	next++; \
3561	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; }; \
3562	scan = next; \
3563	}
3564
3565	#define SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; } \
3566	{ \
3567	char const str_delimiter[] = {',', 0}; \
3568	char value = __kmp_str_token(CCAST(char , scan)const_cast<char *>(scan), str_delimiter, \
3569	CCAST(char , &next)const_cast<char >(&next)); \
3570	KMP_WARNING(StgInvalidValue, key, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , key, value), __kmp_msg_null); \
3571	ntraits--; \
3572	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; }; \
3573	scan = next; \
3574	}
3575
3576	#define SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; } \
3577	{ \
3578	char const str_delimiter[] = {'=', 0}; \
3579	key = __kmp_str_token(CCAST(char , start)const_cast<char >(start), str_delimiter, \
3580	CCAST(char , &next)const_cast<char >(&next)); \
3581	scan = next; \
3582	}
3583
3584	scan = next;
3585	while (*next != '\0') {
3586	if (is_memalloc \|\|
3587	__kmp_match_str("fb_data", scan, &next)) { // allocator check
3588	start = scan;
3589	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3590	// check HBW and LCAP first as the only non-default supported
3591	if (__kmp_match_str("omp_high_bw_mem_alloc", scan, &next)) {
3592	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3593	if (is_memalloc) {
3594	if (__kmp_memkind_available) {
3595	__kmp_def_allocator = omp_high_bw_mem_alloc;
3596	return;
3597	} else {
3598	KMP_WARNING(OmpNoAllocator, "omp_high_bw_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_high_bw_mem_alloc"), __kmp_msg_null);
3599	}
3600	} else {
3601	traits[count].key = omp_atk_fb_data;
3602	traits[count].value = RCAST(omp_uintptr_t, omp_high_bw_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_high_bw_mem_alloc);
3603	}
3604	} else if (__kmp_match_str("omp_large_cap_mem_alloc", scan, &next)) {
3605	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3606	if (is_memalloc) {
3607	if (__kmp_memkind_available) {
3608	__kmp_def_allocator = omp_large_cap_mem_alloc;
3609	return;
3610	} else {
3611	KMP_WARNING(OmpNoAllocator, "omp_large_cap_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_large_cap_mem_alloc"), __kmp_msg_null);
3612	}
3613	} else {
3614	traits[count].key = omp_atk_fb_data;
3615	traits[count].value = RCAST(omp_uintptr_t, omp_large_cap_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_large_cap_mem_alloc );
3616	}
3617	} else if (__kmp_match_str("omp_default_mem_alloc", scan, &next)) {
3618	// default requested
3619	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3620	if (!is_memalloc) {
3621	traits[count].key = omp_atk_fb_data;
3622	traits[count].value = RCAST(omp_uintptr_t, omp_default_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_default_mem_alloc);
3623	}
3624	} else if (__kmp_match_str("omp_const_mem_alloc", scan, &next)) {
3625	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3626	if (is_memalloc) {
3627	KMP_WARNING(OmpNoAllocator, "omp_const_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_const_mem_alloc"), __kmp_msg_null);
3628	} else {
3629	traits[count].key = omp_atk_fb_data;
3630	traits[count].value = RCAST(omp_uintptr_t, omp_const_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_const_mem_alloc);
3631	}
3632	} else if (__kmp_match_str("omp_low_lat_mem_alloc", scan, &next)) {
3633	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3634	if (is_memalloc) {
3635	KMP_WARNING(OmpNoAllocator, "omp_low_lat_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_low_lat_mem_alloc"), __kmp_msg_null);
3636	} else {
3637	traits[count].key = omp_atk_fb_data;
3638	traits[count].value = RCAST(omp_uintptr_t, omp_low_lat_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_low_lat_mem_alloc);
3639	}
3640	} else if (__kmp_match_str("omp_cgroup_mem_alloc", scan, &next)) {
3641	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3642	if (is_memalloc) {
3643	KMP_WARNING(OmpNoAllocator, "omp_cgroup_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_cgroup_mem_alloc"), __kmp_msg_null);
3644	} else {
3645	traits[count].key = omp_atk_fb_data;
3646	traits[count].value = RCAST(omp_uintptr_t, omp_cgroup_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_cgroup_mem_alloc);
3647	}
3648	} else if (__kmp_match_str("omp_pteam_mem_alloc", scan, &next)) {
3649	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3650	if (is_memalloc) {
3651	KMP_WARNING(OmpNoAllocator, "omp_pteam_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_pteam_mem_alloc"), __kmp_msg_null);
3652	} else {
3653	traits[count].key = omp_atk_fb_data;
3654	traits[count].value = RCAST(omp_uintptr_t, omp_pteam_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_pteam_mem_alloc);
3655	}
3656	} else if (__kmp_match_str("omp_thread_mem_alloc", scan, &next)) {
3657	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3658	if (is_memalloc) {
3659	KMP_WARNING(OmpNoAllocator, "omp_thread_mem_alloc")__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_OmpNoAllocator , "omp_thread_mem_alloc"), __kmp_msg_null);
3660	} else {
3661	traits[count].key = omp_atk_fb_data;
3662	traits[count].value = RCAST(omp_uintptr_t, omp_thread_mem_alloc)reinterpret_cast<omp_uintptr_t>(omp_thread_mem_alloc);
3663	}
3664	} else {
3665	if (!is_memalloc) {
3666	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3667	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3668	continue;
3669	}
3670	}
3671	if (is_memalloc) {
3672	__kmp_def_allocator = omp_default_mem_alloc;
3673	if (next == buf \|\| *next != '\0') {
3674	// either no match or extra symbols present after the matched token
3675	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3676	}
3677	return;
3678	} else {
3679	++count;
3680	if (count == ntraits)
3681	break;
3682	GET_NEXT(','){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == ',') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3683	}
3684	} else { // memspace
3685	if (!is_memspace) {
3686	if (__kmp_match_str("omp_default_mem_space", scan, &next)) {
3687	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3688	ms = omp_default_mem_space;
3689	} else if (__kmp_match_str("omp_large_cap_mem_space", scan, &next)) {
3690	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3691	ms = omp_large_cap_mem_space;
3692	} else if (__kmp_match_str("omp_const_mem_space", scan, &next)) {
3693	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3694	ms = omp_const_mem_space;
3695	} else if (__kmp_match_str("omp_high_bw_mem_space", scan, &next)) {
3696	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3697	ms = omp_high_bw_mem_space;
3698	} else if (__kmp_match_str("omp_low_lat_mem_space", scan, &next)) {
3699	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3700	ms = omp_low_lat_mem_space;
3701	} else {
3702	__kmp_def_allocator = omp_default_mem_alloc;
3703	if (next == buf \|\| *next != '\0') {
3704	// either no match or extra symbols present after the matched token
3705	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3706	}
3707	return;
3708	}
3709	is_memspace = true;
3710	}
3711	if (delim) { // traits
3712	GET_NEXT(':'){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == ':') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3713	start = scan;
3714	if (__kmp_match_str("sync_hint", scan, &next)) {
3715	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3716	traits[count].key = omp_atk_sync_hint;
3717	if (__kmp_match_str("contended", scan, &next)) {
3718	traits[count].value = omp_atv_contended;
3719	} else if (__kmp_match_str("uncontended", scan, &next)) {
3720	traits[count].value = omp_atv_uncontended;
3721	} else if (__kmp_match_str("serialized", scan, &next)) {
3722	traits[count].value = omp_atv_serialized;
3723	} else if (__kmp_match_str("private", scan, &next)) {
3724	traits[count].value = omp_atv_private;
3725	} else {
3726	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3727	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3728	continue;
3729	}
3730	} else if (__kmp_match_str("alignment", scan, &next)) {
3731	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3732	if (!isdigit(*next)) {
3733	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3734	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3735	continue;
3736	}
3737	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
3738	int n = __kmp_str_to_int(scan, ',');
3739	if (n < 0 \|\| !IS_POWER_OF_TWO(n)(((n) & ((n)-1)) == 0)) {
3740	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3741	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3742	continue;
3743	}
3744	traits[count].key = omp_atk_alignment;
3745	traits[count].value = n;
3746	} else if (__kmp_match_str("access", scan, &next)) {
3747	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3748	traits[count].key = omp_atk_access;
3749	if (__kmp_match_str("all", scan, &next)) {
3750	traits[count].value = omp_atv_all;
3751	} else if (__kmp_match_str("cgroup", scan, &next)) {
3752	traits[count].value = omp_atv_cgroup;
3753	} else if (__kmp_match_str("pteam", scan, &next)) {
3754	traits[count].value = omp_atv_pteam;
3755	} else if (__kmp_match_str("thread", scan, &next)) {
3756	traits[count].value = omp_atv_thread;
3757	} else {
3758	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3759	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3760	continue;
3761	}
3762	} else if (__kmp_match_str("pool_size", scan, &next)) {
3763	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3764	if (!isdigit(*next)) {
3765	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3766	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3767	continue;
3768	}
3769	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
3770	int n = __kmp_str_to_int(scan, ',');
3771	if (n < 0) {
3772	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3773	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3774	continue;
3775	}
3776	traits[count].key = omp_atk_pool_size;
3777	traits[count].value = n;
3778	} else if (__kmp_match_str("fallback", scan, &next)) {
3779	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3780	traits[count].key = omp_atk_fallback;
3781	if (__kmp_match_str("default_mem_fb", scan, &next)) {
3782	traits[count].value = omp_atv_default_mem_fb;
3783	} else if (__kmp_match_str("null_fb", scan, &next)) {
3784	traits[count].value = omp_atv_null_fb;
3785	} else if (__kmp_match_str("abort_fb", scan, &next)) {
3786	traits[count].value = omp_atv_abort_fb;
3787	} else if (__kmp_match_str("allocator_fb", scan, &next)) {
3788	traits[count].value = omp_atv_allocator_fb;
3789	} else {
3790	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3791	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3792	continue;
3793	}
3794	} else if (__kmp_match_str("pinned", scan, &next)) {
3795	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3796	traits[count].key = omp_atk_pinned;
3797	if (__kmp_str_match_true(next)) {
3798	traits[count].value = omp_atv_true;
3799	} else if (__kmp_str_match_false(next)) {
3800	traits[count].value = omp_atv_false;
3801	} else {
3802	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3803	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3804	continue;
3805	}
3806	} else if (__kmp_match_str("partition", scan, &next)) {
3807	GET_NEXT('='){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == '=') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3808	traits[count].key = omp_atk_partition;
3809	if (__kmp_match_str("environment", scan, &next)) {
3810	traits[count].value = omp_atv_environment;
3811	} else if (__kmp_match_str("nearest", scan, &next)) {
3812	traits[count].value = omp_atv_nearest;
3813	} else if (__kmp_match_str("blocked", scan, &next)) {
3814	traits[count].value = omp_atv_blocked;
3815	} else if (__kmp_match_str("interleaved", scan, &next)) {
3816	traits[count].value = omp_atv_interleaved;
3817	} else {
3818	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3819	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3820	continue;
3821	}
3822	} else {
3823	SET_KEY(){ char const str_delimiter[] = {'=', 0}; key = __kmp_str_token (const_cast<char >(start), str_delimiter, const_cast< char *>(&next)); scan = next; };
3824	SKIP_PAIR(key){ char const str_delimiter[] = {',', 0}; char value = __kmp_str_token (const_cast<char >(scan), str_delimiter, const_cast< char *>(&next)); __kmp_msg(kmp_ms_warning, __kmp_msg_format (kmp_i18n_msg_StgInvalidValue, key, value), __kmp_msg_null); ntraits --; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3825	continue;
3826	}
3827	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
3828	++count;
3829	if (count == ntraits)
3830	break;
3831	GET_NEXT(','){ { while ((next) == ' ' \|\| (next) == '\t') (next)++; }; if (next == ',') next++; { while ((next) == ' ' \|\| *(next) == '\t') (next)++; }; scan = next; };
3832	} // traits
3833	} // memspace
3834	} // while
3835	al = __kmpc_init_allocator(__kmp_get_gtid()__kmp_get_global_thread_id(), ms, ntraits, traits);
3836	__kmp_def_allocator = (al == omp_null_allocator) ? omp_default_mem_alloc : al;
3837	}
3838
3839	static void __kmp_stg_print_allocator(kmp_str_buf_t buffer, char const name,
3840	void *data) {
3841	if (__kmp_def_allocator == omp_default_mem_alloc) {
3842	__kmp_stg_print_str(buffer, name, "omp_default_mem_alloc");
3843	} else if (__kmp_def_allocator == omp_high_bw_mem_alloc) {
3844	__kmp_stg_print_str(buffer, name, "omp_high_bw_mem_alloc");
3845	} else if (__kmp_def_allocator == omp_large_cap_mem_alloc) {
3846	__kmp_stg_print_str(buffer, name, "omp_large_cap_mem_alloc");
3847	} else if (__kmp_def_allocator == omp_const_mem_alloc) {
3848	__kmp_stg_print_str(buffer, name, "omp_const_mem_alloc");
3849	} else if (__kmp_def_allocator == omp_low_lat_mem_alloc) {
3850	__kmp_stg_print_str(buffer, name, "omp_low_lat_mem_alloc");
3851	} else if (__kmp_def_allocator == omp_cgroup_mem_alloc) {
3852	__kmp_stg_print_str(buffer, name, "omp_cgroup_mem_alloc");
3853	} else if (__kmp_def_allocator == omp_pteam_mem_alloc) {
3854	__kmp_stg_print_str(buffer, name, "omp_pteam_mem_alloc");
3855	} else if (__kmp_def_allocator == omp_thread_mem_alloc) {
3856	__kmp_stg_print_str(buffer, name, "omp_thread_mem_alloc");
3857	}
3858	}
3859
3860	// -----------------------------------------------------------------------------
3861	// OMP_DYNAMIC
3862
3863	static void __kmp_stg_parse_omp_dynamic(char const name, char const value,
3864	void *data) {
3865	__kmp_stg_parse_bool(name, value, &(__kmp_global.g.g_dynamic));
3866	} // __kmp_stg_parse_omp_dynamic
3867
3868	static void __kmp_stg_print_omp_dynamic(kmp_str_buf_t buffer, char const name,
3869	void *data) {
3870	__kmp_stg_print_bool(buffer, name, __kmp_global.g.g_dynamic);
3871	} // __kmp_stg_print_omp_dynamic
3872
3873	static void __kmp_stg_parse_kmp_dynamic_mode(char const *name,
3874	char const value, void data) {
3875	if (TCR_4(__kmp_init_parallel)(__kmp_init_parallel)) {
3876	KMP_WARNING(EnvParallelWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvParallelWarn , name), __kmp_msg_null);
3877	__kmp_env_toPrint(name, 0);
3878	return;
3879	}
3880	#ifdef USE_LOAD_BALANCE1
3881	else if (__kmp_str_match("load balance", 2, value) \|\|
3882	__kmp_str_match("load_balance", 2, value) \|\|
3883	__kmp_str_match("load-balance", 2, value) \|\|
3884	__kmp_str_match("loadbalance", 2, value) \|\|
3885	__kmp_str_match("balance", 1, value)) {
3886	__kmp_global.g.g_dynamic_mode = dynamic_load_balance;
3887	}
3888	#endif /* USE_LOAD_BALANCE */
3889	else if (__kmp_str_match("thread limit", 1, value) \|\|
3890	__kmp_str_match("thread_limit", 1, value) \|\|
3891	__kmp_str_match("thread-limit", 1, value) \|\|
3892	__kmp_str_match("threadlimit", 1, value) \|\|
3893	__kmp_str_match("limit", 2, value)) {
3894	__kmp_global.g.g_dynamic_mode = dynamic_thread_limit;
3895	} else if (__kmp_str_match("random", 1, value)) {
3896	__kmp_global.g.g_dynamic_mode = dynamic_random;
3897	} else {
3898	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3899	}
3900	} //__kmp_stg_parse_kmp_dynamic_mode
3901
3902	static void __kmp_stg_print_kmp_dynamic_mode(kmp_str_buf_t *buffer,
3903	char const name, void data) {
3904	#if KMP_DEBUG1
3905	if (__kmp_global.g.g_dynamic_mode == dynamic_default) {
3906	__kmp_str_buf_print(buffer, " %s: %s \n", name, KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
3907	}
3908	#ifdef USE_LOAD_BALANCE1
3909	else if (__kmp_global.g.g_dynamic_mode == dynamic_load_balance) {
3910	__kmp_stg_print_str(buffer, name, "load balance");
3911	}
3912	#endif /* USE_LOAD_BALANCE */
3913	else if (__kmp_global.g.g_dynamic_mode == dynamic_thread_limit) {
3914	__kmp_stg_print_str(buffer, name, "thread limit");
3915	} else if (__kmp_global.g.g_dynamic_mode == dynamic_random) {
3916	__kmp_stg_print_str(buffer, name, "random");
3917	} else {
3918	KMP_ASSERT(0)if (!(0)) { __kmp_debug_assert("0", "openmp/runtime/src/kmp_settings.cpp" , 3918); };
3919	}
3920	#endif /* KMP_DEBUG */
3921	} // __kmp_stg_print_kmp_dynamic_mode
3922
3923	#ifdef USE_LOAD_BALANCE1
3924
3925	// -----------------------------------------------------------------------------
3926	// KMP_LOAD_BALANCE_INTERVAL
3927
3928	static void __kmp_stg_parse_ld_balance_interval(char const *name,
3929	char const value, void data) {
3930	double interval = __kmp_convert_to_double(value);
3931	if (interval >= 0) {
3932	__kmp_load_balance_interval = interval;
3933	} else {
3934	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
3935	}
3936	} // __kmp_stg_parse_load_balance_interval
3937
3938	static void __kmp_stg_print_ld_balance_interval(kmp_str_buf_t *buffer,
3939	char const name, void data) {
3940	#if KMP_DEBUG1
3941	__kmp_str_buf_print(buffer, " %s=%8.6f\n", name,
3942	__kmp_load_balance_interval);
3943	#endif /* KMP_DEBUG */
3944	} // __kmp_stg_print_load_balance_interval
3945
3946	#endif /* USE_LOAD_BALANCE */
3947
3948	// -----------------------------------------------------------------------------
3949	// KMP_INIT_AT_FORK
3950
3951	static void __kmp_stg_parse_init_at_fork(char const name, char const value,
3952	void *data) {
3953	__kmp_stg_parse_bool(name, value, &__kmp_need_register_atfork);
3954	if (__kmp_need_register_atfork) {
3955	__kmp_need_register_atfork_specified = TRUE(!0);
3956	}
3957	} // __kmp_stg_parse_init_at_fork
3958
3959	static void __kmp_stg_print_init_at_fork(kmp_str_buf_t *buffer,
3960	char const name, void data) {
3961	__kmp_stg_print_bool(buffer, name, __kmp_need_register_atfork_specified);
3962	} // __kmp_stg_print_init_at_fork
3963
3964	// -----------------------------------------------------------------------------
3965	// KMP_SCHEDULE
3966
3967	static void __kmp_stg_parse_schedule(char const name, char const value,
3968	void *data) {
3969
3970	if (value != NULL__null) {
3971	size_t length = KMP_STRLENstrlen(value);
3972	if (length > INT_MAX2147483647) {
3973	KMP_WARNING(LongValue, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_LongValue , name), __kmp_msg_null);
3974	} else {
3975	const char *semicolon;
3976	if (value[length - 1] == '"' \|\| value[length - 1] == '\'')
3977	KMP_WARNING(UnbalancedQuotes, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_UnbalancedQuotes , name), __kmp_msg_null);
3978	do {
3979	char sentinel;
3980
3981	semicolon = strchr(value, ';');
3982	if (*value && semicolon != value) {
3983	const char *comma = strchr(value, ',');
3984
3985	if (comma) {
3986	++comma;
3987	sentinel = ',';
3988	} else
3989	sentinel = ';';
3990	if (!__kmp_strcasecmp_with_sentinel("static", value, sentinel)) {
3991	if (!__kmp_strcasecmp_with_sentinel("greedy", comma, ';')) {
3992	__kmp_static = kmp_sch_static_greedy;
3993	continue;
3994	} else if (!__kmp_strcasecmp_with_sentinel("balanced", comma,
3995	';')) {
3996	__kmp_static = kmp_sch_static_balanced;
3997	continue;
3998	}
3999	} else if (!__kmp_strcasecmp_with_sentinel("guided", value,
4000	sentinel)) {
4001	if (!__kmp_strcasecmp_with_sentinel("iterative", comma, ';')) {
4002	__kmp_guided = kmp_sch_guided_iterative_chunked;
4003	continue;
4004	} else if (!__kmp_strcasecmp_with_sentinel("analytical", comma,
4005	';')) {
4006	/* analytical not allowed for too many threads */
4007	__kmp_guided = kmp_sch_guided_analytical_chunked;
4008	continue;
4009	}
4010	}
4011	KMP_WARNING(InvalidClause, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_InvalidClause , name, value), __kmp_msg_null);
4012	} else
4013	KMP_WARNING(EmptyClause, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EmptyClause , name), __kmp_msg_null);
4014	} while ((value = semicolon ? semicolon + 1 : NULL__null));
4015	}
4016	}
4017
4018	} // __kmp_stg_parse__schedule
4019
4020	static void __kmp_stg_print_schedule(kmp_str_buf_t buffer, char const name,
4021	void *data) {
4022	if (__kmp_env_format) {
4023	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
4024	} else {
4025	__kmp_str_buf_print(buffer, " %s='", name);
4026	}
4027	if (__kmp_static == kmp_sch_static_greedy) {
4028	__kmp_str_buf_print(buffer, "%s", "static,greedy");
4029	} else if (__kmp_static == kmp_sch_static_balanced) {
4030	__kmp_str_buf_print(buffer, "%s", "static,balanced");
4031	}
4032	if (__kmp_guided == kmp_sch_guided_iterative_chunked) {
4033	__kmp_str_buf_print(buffer, ";%s'\n", "guided,iterative");
4034	} else if (__kmp_guided == kmp_sch_guided_analytical_chunked) {
4035	__kmp_str_buf_print(buffer, ";%s'\n", "guided,analytical");
4036	}
4037	} // __kmp_stg_print_schedule
4038
4039	// -----------------------------------------------------------------------------
4040	// OMP_SCHEDULE
4041
4042	static inline void __kmp_omp_schedule_restore() {
4043	#if KMP_USE_HIER_SCHED0
4044	__kmp_hier_scheds.deallocate();
4045	#endif
4046	__kmp_chunk = 0;
4047	__kmp_sched = kmp_sch_default;
4048	}
4049
4050	// if parse_hier = true:
4051	// Parse [HW,][modifier:]kind[,chunk]
4052	// else:
4053	// Parse [modifier:]kind[,chunk]
4054	static const char __kmp_parse_single_omp_schedule(const char name,
4055	const char *value,
4056	bool parse_hier = false) {
4057	/* get the specified scheduling style */
4058	const char *ptr = value;
4059	const char *delim;
4060	int chunk = 0;
4061	enum sched_type sched = kmp_sch_default;
4062	if (*ptr == '\0')
4063	return NULL__null;
4064	delim = ptr;
4065	while (delim != ',' && delim != ':' && *delim != '\0')
4066	delim++;
4067	#if KMP_USE_HIER_SCHED0
4068	kmp_hier_layer_e layer = kmp_hier_layer_e::LAYER_THREAD;
4069	if (parse_hier) {
4070	if (*delim == ',') {
4071	if (!__kmp_strcasecmp_with_sentinel("L1", ptr, ',')) {
4072	layer = kmp_hier_layer_e::LAYER_L1;
4073	} else if (!__kmp_strcasecmp_with_sentinel("L2", ptr, ',')) {
4074	layer = kmp_hier_layer_e::LAYER_L2;
4075	} else if (!__kmp_strcasecmp_with_sentinel("L3", ptr, ',')) {
4076	layer = kmp_hier_layer_e::LAYER_L3;
4077	} else if (!__kmp_strcasecmp_with_sentinel("NUMA", ptr, ',')) {
4078	layer = kmp_hier_layer_e::LAYER_NUMA;
4079	}
4080	}
4081	if (layer != kmp_hier_layer_e::LAYER_THREAD && *delim != ',') {
4082	// If there is no comma after the layer, then this schedule is invalid
4083	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4084	__kmp_omp_schedule_restore();
4085	return NULL__null;
4086	} else if (layer != kmp_hier_layer_e::LAYER_THREAD) {
4087	ptr = ++delim;
4088	while (delim != ',' && delim != ':' && *delim != '\0')
4089	delim++;
4090	}
4091	}
4092	#endif // KMP_USE_HIER_SCHED
4093	// Read in schedule modifier if specified
4094	enum sched_type sched_modifier = (enum sched_type)0;
4095	if (*delim == ':') {
4096	if (!__kmp_strcasecmp_with_sentinel("monotonic", ptr, *delim)) {
4097	sched_modifier = sched_type::kmp_sch_modifier_monotonic;
4098	ptr = ++delim;
4099	while (delim != ',' && delim != ':' && *delim != '\0')
4100	delim++;
4101	} else if (!__kmp_strcasecmp_with_sentinel("nonmonotonic", ptr, *delim)) {
4102	sched_modifier = sched_type::kmp_sch_modifier_nonmonotonic;
4103	ptr = ++delim;
4104	while (delim != ',' && delim != ':' && *delim != '\0')
4105	delim++;
4106	} else if (!parse_hier) {
4107	// If there is no proper schedule modifier, then this schedule is invalid
4108	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4109	__kmp_omp_schedule_restore();
4110	return NULL__null;
4111	}
4112	}
4113	// Read in schedule kind (required)
4114	if (!__kmp_strcasecmp_with_sentinel("dynamic", ptr, *delim))
4115	sched = kmp_sch_dynamic_chunked;
4116	else if (!__kmp_strcasecmp_with_sentinel("guided", ptr, *delim))
4117	sched = kmp_sch_guided_chunked;
4118	// AC: TODO: probably remove TRAPEZOIDAL (OMP 3.0 does not allow it)
4119	else if (!__kmp_strcasecmp_with_sentinel("auto", ptr, *delim))
4120	sched = kmp_sch_auto;
4121	else if (!__kmp_strcasecmp_with_sentinel("trapezoidal", ptr, *delim))
4122	sched = kmp_sch_trapezoidal;
4123	else if (!__kmp_strcasecmp_with_sentinel("static", ptr, *delim))
4124	sched = kmp_sch_static;
4125	#if KMP_STATIC_STEAL_ENABLED1
4126	else if (!__kmp_strcasecmp_with_sentinel("static_steal", ptr, *delim)) {
4127	// replace static_steal with dynamic to better cope with ordered loops
4128	sched = kmp_sch_dynamic_chunked;
4129	sched_modifier = sched_type::kmp_sch_modifier_nonmonotonic;
4130	}
4131	#endif
4132	else {
4133	// If there is no proper schedule kind, then this schedule is invalid
4134	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4135	__kmp_omp_schedule_restore();
4136	return NULL__null;
4137	}
4138
4139	// Read in schedule chunk size if specified
4140	if (*delim == ',') {
4141	ptr = delim + 1;
4142	SKIP_WS(ptr){ while ((ptr) == ' ' \|\| (ptr) == '\t') (ptr)++; };
4143	if (!isdigit(*ptr)) {
4144	// If there is no chunk after comma, then this schedule is invalid
4145	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4146	__kmp_omp_schedule_restore();
4147	return NULL__null;
4148	}
4149	SKIP_DIGITS(ptr){ while ((ptr) >= '0' && (ptr) <= '9') (ptr)++ ; };
4150	// auto schedule should not specify chunk size
4151	if (sched == kmp_sch_auto) {
4152	__kmp_msg(kmp_ms_warning, KMP_MSG(IgnoreChunk, name, delim)__kmp_msg_format(kmp_i18n_msg_IgnoreChunk, name, delim),
4153	__kmp_msg_null);
4154	} else {
4155	if (sched == kmp_sch_static)
4156	sched = kmp_sch_static_chunked;
4157	chunk = __kmp_str_to_int(delim + 1, *ptr);
4158	if (chunk < 1) {
4159	chunk = KMP_DEFAULT_CHUNK1;
4160	__kmp_msg(kmp_ms_warning, KMP_MSG(InvalidChunk, name, delim)__kmp_msg_format(kmp_i18n_msg_InvalidChunk, name, delim),
4161	__kmp_msg_null);
4162	KMP_INFORM(Using_int_Value, name, __kmp_chunk)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , name, __kmp_chunk), __kmp_msg_null);
4163	// AC: next block commented out until KMP_DEFAULT_CHUNK != KMP_MIN_CHUNK
4164	// (to improve code coverage :)
4165	// The default chunk size is 1 according to standard, thus making
4166	// KMP_MIN_CHUNK not 1 we would introduce mess:
4167	// wrong chunk becomes 1, but it will be impossible to explicitly set
4168	// to 1 because it becomes KMP_MIN_CHUNK...
4169	// } else if ( chunk < KMP_MIN_CHUNK ) {
4170	// chunk = KMP_MIN_CHUNK;
4171	} else if (chunk > KMP_MAX_CHUNK(2147483647 - 1)) {
4172	chunk = KMP_MAX_CHUNK(2147483647 - 1);
4173	__kmp_msg(kmp_ms_warning, KMP_MSG(LargeChunk, name, delim)__kmp_msg_format(kmp_i18n_msg_LargeChunk, name, delim),
4174	__kmp_msg_null);
4175	KMP_INFORM(Using_int_Value, name, chunk)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , name, chunk), __kmp_msg_null);
4176	}
4177	}
4178	} else {
4179	ptr = delim;
4180	}
4181
4182	SCHEDULE_SET_MODIFIERS(sched, sched_modifier)(sched = (enum sched_type)((kmp_int32)sched \| (kmp_int32)sched_modifier ));
4183
4184	#if KMP_USE_HIER_SCHED0
4185	if (layer != kmp_hier_layer_e::LAYER_THREAD) {
4186	__kmp_hier_scheds.append(sched, chunk, layer);
4187	} else
4188	#endif
4189	{
4190	__kmp_chunk = chunk;
4191	__kmp_sched = sched;
4192	}
4193	return ptr;
4194	}
4195
4196	static void __kmp_stg_parse_omp_schedule(char const name, char const value,
4197	void *data) {
4198	size_t length;
4199	const char *ptr = value;
4200	SKIP_WS(ptr){ while ((ptr) == ' ' \|\| (ptr) == '\t') (ptr)++; };
4201	if (value) {
4202	length = KMP_STRLENstrlen(value);
4203	if (length) {
4204	if (value[length - 1] == '"' \|\| value[length - 1] == '\'')
4205	KMP_WARNING(UnbalancedQuotes, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_UnbalancedQuotes , name), __kmp_msg_null);
4206	/* get the specified scheduling style */
4207	#if KMP_USE_HIER_SCHED0
4208	if (!__kmp_strcasecmp_with_sentinel("EXPERIMENTAL", ptr, ' ')) {
4209	SKIP_TOKEN(ptr){ while (((ptr) >= '0' && (ptr) <= '9') \|\| (* (ptr) >= 'a' && (ptr) <= 'z') \|\| ((ptr) >= 'A' && (ptr) <= 'Z') \|\| (ptr) == '_') (ptr)++; };
4210	SKIP_WS(ptr){ while ((ptr) == ' ' \|\| (ptr) == '\t') (ptr)++; };
4211	while ((ptr = __kmp_parse_single_omp_schedule(name, ptr, true))) {
4212	while (ptr == ' ' \|\| ptr == '\t' \|\| *ptr == ':')
4213	ptr++;
4214	if (*ptr == '\0')
4215	break;
4216	}
4217	} else
4218	#endif
4219	__kmp_parse_single_omp_schedule(name, ptr);
4220	} else
4221	KMP_WARNING(EmptyString, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EmptyString , name), __kmp_msg_null);
4222	}
4223	#if KMP_USE_HIER_SCHED0
4224	__kmp_hier_scheds.sort();
4225	#endif
4226	K_DIAG(1, ("__kmp_static == %d\n", __kmp_static)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_static == %d\n" , __kmp_static); } }
4227	K_DIAG(1, ("__kmp_guided == %d\n", __kmp_guided)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_guided == %d\n" , __kmp_guided); } }
4228	K_DIAG(1, ("__kmp_sched == %d\n", __kmp_sched)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_sched == %d\n" , __kmp_sched); } }
4229	K_DIAG(1, ("__kmp_chunk == %d\n", __kmp_chunk)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_chunk == %d\n" , __kmp_chunk); } }
4230	} // __kmp_stg_parse_omp_schedule
4231
4232	static void __kmp_stg_print_omp_schedule(kmp_str_buf_t *buffer,
4233	char const name, void data) {
4234	if (__kmp_env_format) {
4235	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
4236	} else {
4237	__kmp_str_buf_print(buffer, " %s='", name);
4238	}
4239	enum sched_type sched = SCHEDULE_WITHOUT_MODIFIERS(__kmp_sched)(enum sched_type)( (__kmp_sched) & ~(kmp_sch_modifier_nonmonotonic \| kmp_sch_modifier_monotonic));
4240	if (SCHEDULE_HAS_MONOTONIC(__kmp_sched)(((__kmp_sched)&kmp_sch_modifier_monotonic) != 0)) {
4241	__kmp_str_buf_print(buffer, "monotonic:");
4242	} else if (SCHEDULE_HAS_NONMONOTONIC(__kmp_sched)(((__kmp_sched)&kmp_sch_modifier_nonmonotonic) != 0)) {
4243	__kmp_str_buf_print(buffer, "nonmonotonic:");
4244	}
4245	if (__kmp_chunk) {
4246	switch (sched) {
4247	case kmp_sch_dynamic_chunked:
4248	__kmp_str_buf_print(buffer, "%s,%d'\n", "dynamic", __kmp_chunk);
4249	break;
4250	case kmp_sch_guided_iterative_chunked:
4251	case kmp_sch_guided_analytical_chunked:
4252	__kmp_str_buf_print(buffer, "%s,%d'\n", "guided", __kmp_chunk);
4253	break;
4254	case kmp_sch_trapezoidal:
4255	__kmp_str_buf_print(buffer, "%s,%d'\n", "trapezoidal", __kmp_chunk);
4256	break;
4257	case kmp_sch_static:
4258	case kmp_sch_static_chunked:
4259	case kmp_sch_static_balanced:
4260	case kmp_sch_static_greedy:
4261	__kmp_str_buf_print(buffer, "%s,%d'\n", "static", __kmp_chunk);
4262	break;
4263	case kmp_sch_static_steal:
4264	__kmp_str_buf_print(buffer, "%s,%d'\n", "static_steal", __kmp_chunk);
4265	break;
4266	case kmp_sch_auto:
4267	__kmp_str_buf_print(buffer, "%s,%d'\n", "auto", __kmp_chunk);
4268	break;
4269	}
4270	} else {
4271	switch (sched) {
4272	case kmp_sch_dynamic_chunked:
4273	__kmp_str_buf_print(buffer, "%s'\n", "dynamic");
4274	break;
4275	case kmp_sch_guided_iterative_chunked:
4276	case kmp_sch_guided_analytical_chunked:
4277	__kmp_str_buf_print(buffer, "%s'\n", "guided");
4278	break;
4279	case kmp_sch_trapezoidal:
4280	__kmp_str_buf_print(buffer, "%s'\n", "trapezoidal");
4281	break;
4282	case kmp_sch_static:
4283	case kmp_sch_static_chunked:
4284	case kmp_sch_static_balanced:
4285	case kmp_sch_static_greedy:
4286	__kmp_str_buf_print(buffer, "%s'\n", "static");
4287	break;
4288	case kmp_sch_static_steal:
4289	__kmp_str_buf_print(buffer, "%s'\n", "static_steal");
4290	break;
4291	case kmp_sch_auto:
4292	__kmp_str_buf_print(buffer, "%s'\n", "auto");
4293	break;
4294	}
4295	}
4296	} // __kmp_stg_print_omp_schedule
4297
4298	#if KMP_USE_HIER_SCHED0
4299	// -----------------------------------------------------------------------------
4300	// KMP_DISP_HAND_THREAD
4301	static void __kmp_stg_parse_kmp_hand_thread(char const name, char const value,
4302	void *data) {
4303	__kmp_stg_parse_bool(name, value, &(__kmp_dispatch_hand_threading));
4304	} // __kmp_stg_parse_kmp_hand_thread
4305
4306	static void __kmp_stg_print_kmp_hand_thread(kmp_str_buf_t *buffer,
4307	char const name, void data) {
4308	__kmp_stg_print_bool(buffer, name, __kmp_dispatch_hand_threading);
4309	} // __kmp_stg_print_kmp_hand_thread
4310	#endif
4311
4312	// -----------------------------------------------------------------------------
4313	// KMP_FORCE_MONOTONIC_DYNAMIC_SCHEDULE
4314	static void __kmp_stg_parse_kmp_force_monotonic(char const *name,
4315	char const value, void data) {
4316	__kmp_stg_parse_bool(name, value, &(__kmp_force_monotonic));
4317	} // __kmp_stg_parse_kmp_force_monotonic
4318
4319	static void __kmp_stg_print_kmp_force_monotonic(kmp_str_buf_t *buffer,
4320	char const name, void data) {
4321	__kmp_stg_print_bool(buffer, name, __kmp_force_monotonic);
4322	} // __kmp_stg_print_kmp_force_monotonic
4323
4324	// -----------------------------------------------------------------------------
4325	// KMP_ATOMIC_MODE
4326
4327	static void __kmp_stg_parse_atomic_mode(char const name, char const value,
4328	void *data) {
4329	// Modes: 0 -- do not change default; 1 -- Intel perf mode, 2 -- GOMP
4330	// compatibility mode.
4331	int mode = 0;
4332	int max = 1;
4333	#ifdef KMP_GOMP_COMPAT
4334	max = 2;
4335	#endif /* KMP_GOMP_COMPAT */
4336	__kmp_stg_parse_int(name, value, 0, max, &mode);
4337	// TODO; parse_int is not very suitable for this case. In case of overflow it
4338	// is better to use
4339	// 0 rather that max value.
4340	if (mode > 0) {
4341	__kmp_atomic_mode = mode;
4342	}
4343	} // __kmp_stg_parse_atomic_mode
4344
4345	static void __kmp_stg_print_atomic_mode(kmp_str_buf_t buffer, char const name,
4346	void *data) {
4347	__kmp_stg_print_int(buffer, name, __kmp_atomic_mode);
4348	} // __kmp_stg_print_atomic_mode
4349
4350	// -----------------------------------------------------------------------------
4351	// KMP_CONSISTENCY_CHECK
4352
4353	static void __kmp_stg_parse_consistency_check(char const *name,
4354	char const value, void data) {
4355	if (!__kmp_strcasecmp_with_sentinel("all", value, 0)) {
4356	// Note, this will not work from kmp_set_defaults because th_cons stack was
4357	// not allocated
4358	// for existed thread(s) thus the first __kmp_push_<construct> will break
4359	// with assertion.
4360	// TODO: allocate th_cons if called from kmp_set_defaults.
4361	__kmp_env_consistency_check = TRUE(!0);
4362	} else if (!__kmp_strcasecmp_with_sentinel("none", value, 0)) {
4363	__kmp_env_consistency_check = FALSE0;
4364	} else {
4365	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4366	}
4367	} // __kmp_stg_parse_consistency_check
4368
4369	static void __kmp_stg_print_consistency_check(kmp_str_buf_t *buffer,
4370	char const name, void data) {
4371	#if KMP_DEBUG1
4372	const char *value = NULL__null;
4373
4374	if (__kmp_env_consistency_check) {
4375	value = "all";
4376	} else {
4377	value = "none";
4378	}
4379
4380	if (value != NULL__null) {
4381	__kmp_stg_print_str(buffer, name, value);
4382	}
4383	#endif /* KMP_DEBUG */
4384	} // __kmp_stg_print_consistency_check
4385
4386	#if USE_ITT_BUILD1
4387	// -----------------------------------------------------------------------------
4388	// KMP_ITT_PREPARE_DELAY
4389
4390	#if USE_ITT_NOTIFY1
4391
4392	static void __kmp_stg_parse_itt_prepare_delay(char const *name,
4393	char const value, void data) {
4394	// Experimental code: KMP_ITT_PREPARE_DELAY specifies numbert of loop
4395	// iterations.
4396	int delay = 0;
4397	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &delay);
4398	__kmp_itt_prepare_delay = delay;
4399	} // __kmp_str_parse_itt_prepare_delay
4400
4401	static void __kmp_stg_print_itt_prepare_delay(kmp_str_buf_t *buffer,
4402	char const name, void data) {
4403	__kmp_stg_print_uint64(buffer, name, __kmp_itt_prepare_delay);
4404
4405	} // __kmp_str_print_itt_prepare_delay
4406
4407	#endif // USE_ITT_NOTIFY
4408	#endif /* USE_ITT_BUILD */
4409
4410	// -----------------------------------------------------------------------------
4411	// KMP_MALLOC_POOL_INCR
4412
4413	static void __kmp_stg_parse_malloc_pool_incr(char const *name,
4414	char const value, void data) {
4415	__kmp_stg_parse_size(name, value, KMP_MIN_MALLOC_POOL_INCR((size_t)(4 * 1024)),
4416	KMP_MAX_MALLOC_POOL_INCR(~((size_t)1 << ((sizeof(size_t) * (1 << 3)) - 1) )), NULL__null, &__kmp_malloc_pool_incr,
4417	1);
4418	} // __kmp_stg_parse_malloc_pool_incr
4419
4420	static void __kmp_stg_print_malloc_pool_incr(kmp_str_buf_t *buffer,
4421	char const name, void data) {
4422	__kmp_stg_print_size(buffer, name, __kmp_malloc_pool_incr);
4423
4424	} // _kmp_stg_print_malloc_pool_incr
4425
4426	#ifdef KMP_DEBUG1
4427
4428	// -----------------------------------------------------------------------------
4429	// KMP_PAR_RANGE
4430
4431	static void __kmp_stg_parse_par_range_env(char const name, char const value,
4432	void *data) {
4433	__kmp_stg_parse_par_range(name, value, &__kmp_par_range,
4434	__kmp_par_range_routine, __kmp_par_range_filename,
4435	&__kmp_par_range_lb, &__kmp_par_range_ub);
4436	} // __kmp_stg_parse_par_range_env
4437
4438	static void __kmp_stg_print_par_range_env(kmp_str_buf_t *buffer,
4439	char const name, void data) {
4440	if (__kmp_par_range != 0) {
4441	__kmp_stg_print_str(buffer, name, par_range_to_print);
4442	}
4443	} // __kmp_stg_print_par_range_env
4444
4445	#endif
4446
4447	// -----------------------------------------------------------------------------
4448	// KMP_GTID_MODE
4449
4450	static void __kmp_stg_parse_gtid_mode(char const name, char const value,
4451	void *data) {
4452	// Modes:
4453	// 0 -- do not change default
4454	// 1 -- sp search
4455	// 2 -- use "keyed" TLS var, i.e.
4456	// pthread_getspecific(Linux* OS/OS X) or TlsGetValue(Windows OS)
4457	// 3 -- __declspec(thread) TLS var in tdata section
4458	int mode = 0;
4459	int max = 2;
4460	#ifdef KMP_TDATA_GTID1
4461	max = 3;
4462	#endif /* KMP_TDATA_GTID */
4463	__kmp_stg_parse_int(name, value, 0, max, &mode);
4464	// TODO; parse_int is not very suitable for this case. In case of overflow it
4465	// is better to use 0 rather that max value.
4466	if (mode == 0) {
4467	__kmp_adjust_gtid_mode = TRUE(!0);
4468	} else {
4469	__kmp_gtid_mode = mode;
4470	__kmp_adjust_gtid_mode = FALSE0;
4471	}
4472	} // __kmp_str_parse_gtid_mode
4473
4474	static void __kmp_stg_print_gtid_mode(kmp_str_buf_t buffer, char const name,
4475	void *data) {
4476	if (__kmp_adjust_gtid_mode) {
4477	__kmp_stg_print_int(buffer, name, 0);
4478	} else {
4479	__kmp_stg_print_int(buffer, name, __kmp_gtid_mode);
4480	}
4481	} // __kmp_stg_print_gtid_mode
4482
4483	// -----------------------------------------------------------------------------
4484	// KMP_NUM_LOCKS_IN_BLOCK
4485
4486	static void __kmp_stg_parse_lock_block(char const name, char const value,
4487	void *data) {
4488	__kmp_stg_parse_int(name, value, 0, KMP_INT_MAX((kmp_int32)0x7FFFFFFF), &__kmp_num_locks_in_block);
4489	} // __kmp_str_parse_lock_block
4490
4491	static void __kmp_stg_print_lock_block(kmp_str_buf_t buffer, char const name,
4492	void *data) {
4493	__kmp_stg_print_int(buffer, name, __kmp_num_locks_in_block);
4494	} // __kmp_stg_print_lock_block
4495
4496	// -----------------------------------------------------------------------------
4497	// KMP_LOCK_KIND
4498
4499	#if KMP_USE_DYNAMIC_LOCK1
4500	#define KMP_STORE_LOCK_SEQ(a)(__kmp_user_lock_seq = lockseq_a) (__kmp_user_lock_seq = lockseq_##a)
4501	#else
4502	#define KMP_STORE_LOCK_SEQ(a)(__kmp_user_lock_seq = lockseq_a)
4503	#endif
4504
4505	static void __kmp_stg_parse_lock_kind(char const name, char const value,
4506	void *data) {
4507	if (__kmp_init_user_locks) {
4508	KMP_WARNING(EnvLockWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvLockWarn , name), __kmp_msg_null);
4509	return;
4510	}
4511
4512	if (__kmp_str_match("tas", 2, value) \|\|
4513	__kmp_str_match("test and set", 2, value) \|\|
4514	__kmp_str_match("test_and_set", 2, value) \|\|
4515	__kmp_str_match("test-and-set", 2, value) \|\|
4516	__kmp_str_match("test andset", 2, value) \|\|
4517	__kmp_str_match("test_andset", 2, value) \|\|
4518	__kmp_str_match("test-andset", 2, value) \|\|
4519	__kmp_str_match("testand set", 2, value) \|\|
4520	__kmp_str_match("testand_set", 2, value) \|\|
4521	__kmp_str_match("testand-set", 2, value) \|\|
4522	__kmp_str_match("testandset", 2, value)) {
4523	__kmp_user_lock_kind = lk_tas;
4524	KMP_STORE_LOCK_SEQ(tas)(__kmp_user_lock_seq = lockseq_tas);
4525	}
4526	#if KMP_USE_FUTEX(1 && (0 \|\| 1 \|\| KMP_ARCH_ARM \|\| 0))
4527	else if (__kmp_str_match("futex", 1, value)) {
4528	if (__kmp_futex_determine_capable()) {
4529	__kmp_user_lock_kind = lk_futex;
4530	KMP_STORE_LOCK_SEQ(futex)(__kmp_user_lock_seq = lockseq_futex);
4531	} else {
4532	KMP_WARNING(FutexNotSupported, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_FutexNotSupported , name, value), __kmp_msg_null);
4533	}
4534	}
4535	#endif
4536	else if (__kmp_str_match("ticket", 2, value)) {
4537	__kmp_user_lock_kind = lk_ticket;
4538	KMP_STORE_LOCK_SEQ(ticket)(__kmp_user_lock_seq = lockseq_ticket);
4539	} else if (__kmp_str_match("queuing", 1, value) \|\|
4540	__kmp_str_match("queue", 1, value)) {
4541	__kmp_user_lock_kind = lk_queuing;
4542	KMP_STORE_LOCK_SEQ(queuing)(__kmp_user_lock_seq = lockseq_queuing);
4543	} else if (__kmp_str_match("drdpa ticket", 1, value) \|\|
4544	__kmp_str_match("drdpa_ticket", 1, value) \|\|
4545	__kmp_str_match("drdpa-ticket", 1, value) \|\|
4546	__kmp_str_match("drdpaticket", 1, value) \|\|
4547	__kmp_str_match("drdpa", 1, value)) {
4548	__kmp_user_lock_kind = lk_drdpa;
4549	KMP_STORE_LOCK_SEQ(drdpa)(__kmp_user_lock_seq = lockseq_drdpa);
4550	}
4551	#if KMP_USE_ADAPTIVE_LOCKS(0 \|\| 1) && !0
4552	else if (__kmp_str_match("adaptive", 1, value)) {
4553	if (__kmp_cpuinfo.flags.rtm) { // ??? Is cpuinfo available here?
4554	__kmp_user_lock_kind = lk_adaptive;
4555	KMP_STORE_LOCK_SEQ(adaptive)(__kmp_user_lock_seq = lockseq_adaptive);
4556	} else {
4557	KMP_WARNING(AdaptiveNotSupported, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AdaptiveNotSupported , name, value), __kmp_msg_null);
4558	__kmp_user_lock_kind = lk_queuing;
4559	KMP_STORE_LOCK_SEQ(queuing)(__kmp_user_lock_seq = lockseq_queuing);
4560	}
4561	}
4562	#endif // KMP_USE_ADAPTIVE_LOCKS
4563	#if KMP_USE_DYNAMIC_LOCK1 && KMP_USE_TSX(0 \|\| 1) && !0
4564	else if (__kmp_str_match("rtm_queuing", 1, value)) {
4565	if (__kmp_cpuinfo.flags.rtm) {
4566	__kmp_user_lock_kind = lk_rtm_queuing;
4567	KMP_STORE_LOCK_SEQ(rtm_queuing)(__kmp_user_lock_seq = lockseq_rtm_queuing);
4568	} else {
4569	KMP_WARNING(AdaptiveNotSupported, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AdaptiveNotSupported , name, value), __kmp_msg_null);
4570	__kmp_user_lock_kind = lk_queuing;
4571	KMP_STORE_LOCK_SEQ(queuing)(__kmp_user_lock_seq = lockseq_queuing);
4572	}
4573	} else if (__kmp_str_match("rtm_spin", 1, value)) {
4574	if (__kmp_cpuinfo.flags.rtm) {
4575	__kmp_user_lock_kind = lk_rtm_spin;
4576	KMP_STORE_LOCK_SEQ(rtm_spin)(__kmp_user_lock_seq = lockseq_rtm_spin);
4577	} else {
4578	KMP_WARNING(AdaptiveNotSupported, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AdaptiveNotSupported , name, value), __kmp_msg_null);
4579	__kmp_user_lock_kind = lk_tas;
4580	KMP_STORE_LOCK_SEQ(queuing)(__kmp_user_lock_seq = lockseq_queuing);
4581	}
4582	} else if (__kmp_str_match("hle", 1, value)) {
4583	__kmp_user_lock_kind = lk_hle;
4584	KMP_STORE_LOCK_SEQ(hle)(__kmp_user_lock_seq = lockseq_hle);
4585	}
4586	#endif
4587	else {
4588	KMP_WARNING(StgInvalidValue, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgInvalidValue , name, value), __kmp_msg_null);
4589	}
4590	}
4591
4592	static void __kmp_stg_print_lock_kind(kmp_str_buf_t buffer, char const name,
4593	void *data) {
4594	const char *value = NULL__null;
4595
4596	switch (__kmp_user_lock_kind) {
4597	case lk_default:
4598	value = "default";
4599	break;
4600
4601	case lk_tas:
4602	value = "tas";
4603	break;
4604
4605	#if KMP_USE_FUTEX(1 && (0 \|\| 1 \|\| KMP_ARCH_ARM \|\| 0))
4606	case lk_futex:
4607	value = "futex";
4608	break;
4609	#endif
4610
4611	#if KMP_USE_DYNAMIC_LOCK1 && KMP_USE_TSX(0 \|\| 1) && !0
4612	case lk_rtm_queuing:
4613	value = "rtm_queuing";
4614	break;
4615
4616	case lk_rtm_spin:
4617	value = "rtm_spin";
4618	break;
4619
4620	case lk_hle:
4621	value = "hle";
4622	break;
4623	#endif
4624
4625	case lk_ticket:
4626	value = "ticket";
4627	break;
4628
4629	case lk_queuing:
4630	value = "queuing";
4631	break;
4632
4633	case lk_drdpa:
4634	value = "drdpa";
4635	break;
4636	#if KMP_USE_ADAPTIVE_LOCKS(0 \|\| 1) && !0
4637	case lk_adaptive:
4638	value = "adaptive";
4639	break;
4640	#endif
4641	}
4642
4643	if (value != NULL__null) {
4644	__kmp_stg_print_str(buffer, name, value);
4645	}
4646	}
4647
4648	// -----------------------------------------------------------------------------
4649	// KMP_SPIN_BACKOFF_PARAMS
4650
4651	// KMP_SPIN_BACKOFF_PARAMS=max_backoff[,min_tick] (max backoff size, min tick
4652	// for machine pause)
4653	static void __kmp_stg_parse_spin_backoff_params(const char *name,
4654	const char value, void data) {
4655	const char *next = value;
4656
4657	int total = 0; // Count elements that were set. It'll be used as an array size
4658	int prev_comma = FALSE0; // For correct processing sequential commas
4659	int i;
4660
4661	kmp_uint32 max_backoff = __kmp_spin_backoff_params.max_backoff;
4662	kmp_uint32 min_tick = __kmp_spin_backoff_params.min_tick;
4663
4664	// Run only 3 iterations because it is enough to read two values or find a
4665	// syntax error
4666	for (i = 0; i < 3; i++) {
4667	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
4668
4669	if (*next == '\0') {
4670	break;
4671	}
4672	// Next character is not an integer or not a comma OR number of values > 2
4673	// => end of list
4674	if (((next < '0' \|\| next > '9') && *next != ',') \|\| total > 2) {
4675	KMP_WARNING(EnvSyntaxError, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSyntaxError , name, value), __kmp_msg_null);
4676	return;
4677	}
4678	// The next character is ','
4679	if (*next == ',') {
4680	// ',' is the first character
4681	if (total == 0 \|\| prev_comma) {
4682	total++;
4683	}
4684	prev_comma = TRUE(!0);
4685	next++; // skip ','
4686	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
4687	}
4688	// Next character is a digit
4689	if (next >= '0' && next <= '9') {
4690	int num;
4691	const char *buf = next;
4692	char const *msg = NULL__null;
4693	prev_comma = FALSE0;
4694	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
4695	total++;
4696
4697	const char *tmp = next;
4698	SKIP_WS(tmp){ while ((tmp) == ' ' \|\| (tmp) == '\t') (tmp)++; };
4699	if ((next == ' ' \|\| next == '\t') && (tmp >= '0' && tmp <= '9')) {
4700	KMP_WARNING(EnvSpacesNotAllowed, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSpacesNotAllowed , name, value), __kmp_msg_null);
4701	return;
4702	}
4703
4704	num = __kmp_str_to_int(buf, *next);
4705	if (num <= 0) { // The number of retries should be > 0
4706	msg = KMP_I18N_STR(ValueTooSmall)__kmp_i18n_catgets(kmp_i18n_str_ValueTooSmall);
4707	num = 1;
4708	} else if (num > KMP_INT_MAX((kmp_int32)0x7FFFFFFF)) {
4709	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
4710	num = KMP_INT_MAX((kmp_int32)0x7FFFFFFF);
4711	}
4712	if (msg != NULL__null) {
4713	// Message is not empty. Print warning.
4714	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
4715	KMP_INFORM(Using_int_Value, name, num)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , name, num), __kmp_msg_null);
4716	}
4717	if (total == 1) {
4718	max_backoff = num;
4719	} else if (total == 2) {
4720	min_tick = num;
4721	}
4722	}
4723	}
4724	KMP_DEBUG_ASSERT(total > 0)if (!(total > 0)) { __kmp_debug_assert("total > 0", "openmp/runtime/src/kmp_settings.cpp" , 4724); };
4725	if (total <= 0) {
4726	KMP_WARNING(EnvSyntaxError, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSyntaxError , name, value), __kmp_msg_null);
4727	return;
4728	}
4729	__kmp_spin_backoff_params.max_backoff = max_backoff;
4730	__kmp_spin_backoff_params.min_tick = min_tick;
4731	}
4732
4733	static void __kmp_stg_print_spin_backoff_params(kmp_str_buf_t *buffer,
4734	char const name, void data) {
4735	if (__kmp_env_format) {
4736	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
4737	} else {
4738	__kmp_str_buf_print(buffer, " %s='", name);
4739	}
4740	__kmp_str_buf_print(buffer, "%d,%d'\n", __kmp_spin_backoff_params.max_backoff,
4741	__kmp_spin_backoff_params.min_tick);
4742	}
4743
4744	#if KMP_USE_ADAPTIVE_LOCKS(0 \|\| 1) && !0
4745
4746	// -----------------------------------------------------------------------------
4747	// KMP_ADAPTIVE_LOCK_PROPS, KMP_SPECULATIVE_STATSFILE
4748
4749	// Parse out values for the tunable parameters from a string of the form
4750	// KMP_ADAPTIVE_LOCK_PROPS=max_soft_retries[,max_badness]
4751	static void __kmp_stg_parse_adaptive_lock_props(const char *name,
4752	const char value, void data) {
4753	int max_retries = 0;
4754	int max_badness = 0;
4755
4756	const char *next = value;
4757
4758	int total = 0; // Count elements that were set. It'll be used as an array size
4759	int prev_comma = FALSE0; // For correct processing sequential commas
4760	int i;
4761
4762	// Save values in the structure __kmp_speculative_backoff_params
4763	// Run only 3 iterations because it is enough to read two values or find a
4764	// syntax error
4765	for (i = 0; i < 3; i++) {
4766	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
4767
4768	if (*next == '\0') {
4769	break;
4770	}
4771	// Next character is not an integer or not a comma OR number of values > 2
4772	// => end of list
4773	if (((next < '0' \|\| next > '9') && *next != ',') \|\| total > 2) {
4774	KMP_WARNING(EnvSyntaxError, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSyntaxError , name, value), __kmp_msg_null);
4775	return;
4776	}
4777	// The next character is ','
4778	if (*next == ',') {
4779	// ',' is the first character
4780	if (total == 0 \|\| prev_comma) {
4781	total++;
4782	}
4783	prev_comma = TRUE(!0);
4784	next++; // skip ','
4785	SKIP_WS(next){ while ((next) == ' ' \|\| (next) == '\t') (next)++; };
4786	}
4787	// Next character is a digit
4788	if (next >= '0' && next <= '9') {
4789	int num;
4790	const char *buf = next;
4791	char const *msg = NULL__null;
4792	prev_comma = FALSE0;
4793	SKIP_DIGITS(next){ while ((next) >= '0' && (next) <= '9') (next )++; };
4794	total++;
4795
4796	const char *tmp = next;
4797	SKIP_WS(tmp){ while ((tmp) == ' ' \|\| (tmp) == '\t') (tmp)++; };
4798	if ((next == ' ' \|\| next == '\t') && (tmp >= '0' && tmp <= '9')) {
4799	KMP_WARNING(EnvSpacesNotAllowed, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSpacesNotAllowed , name, value), __kmp_msg_null);
4800	return;
4801	}
4802
4803	num = __kmp_str_to_int(buf, *next);
4804	if (num < 0) { // The number of retries should be >= 0
4805	msg = KMP_I18N_STR(ValueTooSmall)__kmp_i18n_catgets(kmp_i18n_str_ValueTooSmall);
4806	num = 1;
4807	} else if (num > KMP_INT_MAX((kmp_int32)0x7FFFFFFF)) {
4808	msg = KMP_I18N_STR(ValueTooLarge)__kmp_i18n_catgets(kmp_i18n_str_ValueTooLarge);
4809	num = KMP_INT_MAX((kmp_int32)0x7FFFFFFF);
4810	}
4811	if (msg != NULL__null) {
4812	// Message is not empty. Print warning.
4813	KMP_WARNING(ParseSizeIntWarn, name, value, msg)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_ParseSizeIntWarn , name, value, msg), __kmp_msg_null);
4814	KMP_INFORM(Using_int_Value, name, num)__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_Using_int_Value , name, num), __kmp_msg_null);
4815	}
4816	if (total == 1) {
4817	max_retries = num;
4818	} else if (total == 2) {
4819	max_badness = num;
4820	}
4821	}
4822	}
4823	KMP_DEBUG_ASSERT(total > 0)if (!(total > 0)) { __kmp_debug_assert("total > 0", "openmp/runtime/src/kmp_settings.cpp" , 4823); };
4824	if (total <= 0) {
4825	KMP_WARNING(EnvSyntaxError, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvSyntaxError , name, value), __kmp_msg_null);
4826	return;
4827	}
4828	__kmp_adaptive_backoff_params.max_soft_retries = max_retries;
4829	__kmp_adaptive_backoff_params.max_badness = max_badness;
4830	}
4831
4832	static void __kmp_stg_print_adaptive_lock_props(kmp_str_buf_t *buffer,
4833	char const name, void data) {
4834	if (__kmp_env_format) {
4835	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
4836	} else {
4837	__kmp_str_buf_print(buffer, " %s='", name);
4838	}
4839	__kmp_str_buf_print(buffer, "%d,%d'\n",
4840	__kmp_adaptive_backoff_params.max_soft_retries,
4841	__kmp_adaptive_backoff_params.max_badness);
4842	} // __kmp_stg_print_adaptive_lock_props
4843
4844	#if KMP_DEBUG_ADAPTIVE_LOCKS0
4845
4846	static void __kmp_stg_parse_speculative_statsfile(char const *name,
4847	char const *value,
4848	void *data) {
4849	__kmp_stg_parse_file(name, value, "",
4850	CCAST(char , &__kmp_speculative_statsfile)const_cast<char >(&__kmp_speculative_statsfile));
4851	} // __kmp_stg_parse_speculative_statsfile
4852
4853	static void __kmp_stg_print_speculative_statsfile(kmp_str_buf_t *buffer,
4854	char const *name,
4855	void *data) {
4856	if (__kmp_str_match("-", 0, __kmp_speculative_statsfile)) {
4857	__kmp_stg_print_str(buffer, name, "stdout");
4858	} else {
4859	__kmp_stg_print_str(buffer, name, __kmp_speculative_statsfile);
4860	}
4861
4862	} // __kmp_stg_print_speculative_statsfile
4863
4864	#endif // KMP_DEBUG_ADAPTIVE_LOCKS
4865
4866	#endif // KMP_USE_ADAPTIVE_LOCKS
4867
4868	// -----------------------------------------------------------------------------
4869	// KMP_HW_SUBSET (was KMP_PLACE_THREADS)
4870	// 2s16c,2t => 2S16C,2T => 2S16C \0 2T
4871
4872	// Return KMP_HW_SUBSET preferred hardware type in case a token is ambiguously
4873	// short. The original KMP_HW_SUBSET environment variable had single letters:
4874	// s, c, t for sockets, cores, threads repsectively.
4875	static kmp_hw_t __kmp_hw_subset_break_tie(const kmp_hw_t *possible,
4876	size_t num_possible) {
4877	for (size_t i = 0; i < num_possible; ++i) {
4878	if (possible[i] == KMP_HW_THREAD)
4879	return KMP_HW_THREAD;
4880	else if (possible[i] == KMP_HW_CORE)
4881	return KMP_HW_CORE;
4882	else if (possible[i] == KMP_HW_SOCKET)
4883	return KMP_HW_SOCKET;
4884	}
4885	return KMP_HW_UNKNOWN;
4886	}
4887
4888	// Return hardware type from string or HW_UNKNOWN if string cannot be parsed
4889	// This algorithm is very forgiving to the user in that, the instant it can
4890	// reduce the search space to one, it assumes that is the topology level the
4891	// user wanted, even if it is misspelled later in the token.
4892	static kmp_hw_t __kmp_stg_parse_hw_subset_name(char const *token) {
4893	size_t index, num_possible, token_length;
4894	kmp_hw_t possible[KMP_HW_LAST];
4895	const char *end;
4896
4897	// Find the end of the hardware token string
4898	end = token;
4899	token_length = 0;
4900	while (isalnum(end) \|\| end == '_') {
4901	token_length++;
4902	end++;
4903	}
4904
4905	// Set the possibilities to all hardware types
4906	num_possible = 0;
4907	KMP_FOREACH_HW_TYPE(type)for (kmp_hw_t type = (kmp_hw_t)0; type < KMP_HW_LAST; type = (kmp_hw_t)((int)type + 1)) { possible[num_possible++] = type; }
4908
4909	// Eliminate hardware types by comparing the front of the token
4910	// with hardware names
4911	// In most cases, the first letter in the token will indicate exactly
4912	// which hardware type is parsed, e.g., 'C' = Core
4913	index = 0;
4914	while (num_possible > 1 && index < token_length) {
4915	size_t n = num_possible;
4916	char token_char = (char)toupper(token[index]);
4917	for (size_t i = 0; i < n; ++i) {
4918	const char *s;
4919	kmp_hw_t type = possible[i];
4920	s = __kmp_hw_get_keyword(type, false);
4921	if (index < KMP_STRLENstrlen(s)) {
4922	char c = (char)toupper(s[index]);
4923	// Mark hardware types for removal when the characters do not match
4924	if (c != token_char) {
4925	possible[i] = KMP_HW_UNKNOWN;
4926	num_possible--;
4927	}
4928	}
4929	}
4930	// Remove hardware types that this token cannot be
4931	size_t start = 0;
4932	for (size_t i = 0; i < n; ++i) {
4933	if (possible[i] != KMP_HW_UNKNOWN) {
4934	kmp_hw_t temp = possible[i];
4935	possible[i] = possible[start];
4936	possible[start] = temp;
4937	start++;
4938	}
4939	}
4940	KMP_ASSERT(start == num_possible)if (!(start == num_possible)) { __kmp_debug_assert("start == num_possible" , "openmp/runtime/src/kmp_settings.cpp", 4940); };
4941	index++;
4942	}
4943
4944	// Attempt to break a tie if user has very short token
4945	// (e.g., is 'T' tile or thread?)
4946	if (num_possible > 1)
4947	return __kmp_hw_subset_break_tie(possible, num_possible);
4948	if (num_possible == 1)
4949	return possible[0];
4950	return KMP_HW_UNKNOWN;
4951	}
4952
4953	// The longest observable sequence of items can only be HW_LAST length
4954	// The input string is usually short enough, let's use 512 limit for now
4955	#define MAX_T_LEVELKMP_HW_LAST KMP_HW_LAST
4956	#define MAX_STR_LEN512 512
4957	static void __kmp_stg_parse_hw_subset(char const name, char const value,
4958	void *data) {
4959	// Value example: 1s,5c@3,2T
4960	// Which means "use 1 socket, 5 cores with offset 3, 2 threads per core"
4961	kmp_setting_t rivals = (kmp_setting_t )data;
4962	if (strcmp(name, "KMP_PLACE_THREADS") == 0) {
4963	KMP_INFORM(EnvVarDeprecated, name, "KMP_HW_SUBSET")__kmp_msg(kmp_ms_inform, __kmp_msg_format(kmp_i18n_msg_EnvVarDeprecated , name, "KMP_HW_SUBSET"), __kmp_msg_null);
4964	}
4965	if (__kmp_stg_check_rivals(name, value, rivals)) {
4966	return;
4967	}
4968
4969	char *components[MAX_T_LEVELKMP_HW_LAST];
4970	char const *digits = "0123456789";
4971	char input[MAX_STR_LEN512];
4972	size_t len = 0, mlen = MAX_STR_LEN512;
4973	int level = 0;
4974	bool absolute = false;
4975	// Canonicalize the string (remove spaces, unify delimiters, etc.)
4976	char pos = CCAST(char , value)const_cast<char *>(value);
4977	while (*pos && mlen) {
4978	if (*pos != ' ') { // skip spaces
4979	if (len == 0 && *pos == ':') {
4980	absolute = true;
4981	} else {
4982	input[len] = (char)(toupper(*pos));
4983	if (input[len] == 'X')
4984	input[len] = ','; // unify delimiters of levels
4985	if (input[len] == 'O' && strchr(digits, *(pos + 1)))
4986	input[len] = '@'; // unify delimiters of offset
4987	len++;
4988	}
4989	}
4990	mlen--;
4991	pos++;
4992	}
4993	if (len == 0 \|\| mlen == 0) {
4994	goto err; // contents is either empty or too long
4995	}
4996	input[len] = '\0';
4997	// Split by delimiter
4998	pos = input;
4999	components[level++] = pos;
5000	while ((pos = strchr(pos, ','))) {
5001	if (level >= MAX_T_LEVELKMP_HW_LAST)
5002	goto err; // too many components provided
5003	*pos = '\0'; // modify input and avoid more copying
5004	components[level++] = ++pos; // expect something after ","
5005	}
5006
5007	__kmp_hw_subset = kmp_hw_subset_t::allocate();
5008	if (absolute)
5009	__kmp_hw_subset->set_absolute();
5010
5011	// Check each component
5012	for (int i = 0; i < level; ++i) {
5013	int core_level = 0;
5014	char *core_components[MAX_T_LEVELKMP_HW_LAST];
5015	// Split possible core components by '&' delimiter
5016	pos = components[i];
5017	core_components[core_level++] = pos;
5018	while ((pos = strchr(pos, '&'))) {
5019	if (core_level >= MAX_T_LEVELKMP_HW_LAST)
5020	goto err; // too many different core types
5021	*pos = '\0'; // modify input and avoid more copying
5022	core_components[core_level++] = ++pos; // expect something after '&'
5023	}
5024
5025	for (int j = 0; j < core_level; ++j) {
5026	char *offset_ptr;
5027	char *attr_ptr;
5028	int offset = 0;
5029	kmp_hw_attr_t attr;
5030	int num;
5031	// components may begin with an optional count of the number of resources
5032	if (isdigit(*core_components[j])) {
5033	num = atoi(core_components[j]);
5034	if (num <= 0) {
5035	goto err; // only positive integers are valid for count
5036	}
5037	pos = core_components[j] + strspn(core_components[j], digits);
5038	} else if (core_components[j] == '') {
5039	num = kmp_hw_subset_t::USE_ALL;
5040	pos = core_components[j] + 1;
5041	} else {
5042	num = kmp_hw_subset_t::USE_ALL;
5043	pos = core_components[j];
5044	}
5045
5046	offset_ptr = strchr(core_components[j], '@');
5047	attr_ptr = strchr(core_components[j], ':');
5048
5049	if (offset_ptr) {
5050	offset = atoi(offset_ptr + 1); // save offset
5051	*offset_ptr = '\0'; // cut the offset from the component
5052	}
5053	if (attr_ptr) {
5054	attr.clear();
5055	// save the attribute
5056	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
5057	if (__kmp_str_match("intel_core", -1, attr_ptr + 1)) {
5058	attr.set_core_type(KMP_HW_CORE_TYPE_CORE);
5059	} else if (__kmp_str_match("intel_atom", -1, attr_ptr + 1)) {
5060	attr.set_core_type(KMP_HW_CORE_TYPE_ATOM);
5061	} else
5062	#endif
5063	if (__kmp_str_match("eff", 3, attr_ptr + 1)) {
5064	const char *number = attr_ptr + 1;
5065	// skip the eff[iciency] token
5066	while (isalpha(*number))
5067	number++;
5068	if (!isdigit(*number)) {
5069	goto err;
5070	}
5071	int efficiency = atoi(number);
5072	attr.set_core_eff(efficiency);
5073	} else {
5074	goto err;
5075	}
5076	*attr_ptr = '\0'; // cut the attribute from the component
5077	}
5078	// detect the component type
5079	kmp_hw_t type = __kmp_stg_parse_hw_subset_name(pos);
5080	if (type == KMP_HW_UNKNOWN) {
5081	goto err;
5082	}
5083	// Only the core type can have attributes
5084	if (attr && type != KMP_HW_CORE)
5085	goto err;
5086	// Must allow core be specified more than once
5087	if (type != KMP_HW_CORE && __kmp_hw_subset->specified(type)) {
5088	goto err;
5089	}
5090	__kmp_hw_subset->push_back(num, type, offset, attr);
5091	}
5092	}
5093	return;
5094	err:
5095	KMP_WARNING(AffHWSubsetInvalid, name, value)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffHWSubsetInvalid , name, value), __kmp_msg_null);
5096	if (__kmp_hw_subset) {
5097	kmp_hw_subset_t::deallocate(__kmp_hw_subset);
5098	__kmp_hw_subset = nullptr;
5099	}
5100	return;
5101	}
5102
5103	static inline const char *
5104	__kmp_hw_get_core_type_keyword(kmp_hw_core_type_t type) {
5105	switch (type) {
5106	case KMP_HW_CORE_TYPE_UNKNOWN:
5107	return "unknown";
5108	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
5109	case KMP_HW_CORE_TYPE_ATOM:
5110	return "intel_atom";
5111	case KMP_HW_CORE_TYPE_CORE:
5112	return "intel_core";
5113	#endif
5114	}
5115	return "unknown";
5116	}
5117
5118	static void __kmp_stg_print_hw_subset(kmp_str_buf_t buffer, char const name,
5119	void *data) {
5120	kmp_str_buf_t buf;
5121	int depth;
5122	if (!__kmp_hw_subset)
5123	return;
5124	__kmp_str_buf_init(&buf){ (&buf)->str = (&buf)->bulk; (&buf)->size = sizeof((&buf)->bulk); (&buf)->used = 0; (& buf)->bulk[0] = 0; };
5125	if (__kmp_env_format)
5126	KMP_STR_BUF_PRINT_NAME_EX(name)__kmp_str_buf_print(buffer, " %s %s='", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
5127	else
5128	__kmp_str_buf_print(buffer, " %s='", name);
5129
5130	depth = __kmp_hw_subset->get_depth();
5131	for (int i = 0; i < depth; ++i) {
5132	const auto &item = __kmp_hw_subset->at(i);
5133	if (i > 0)
5134	__kmp_str_buf_print(&buf, "%c", ',');
5135	for (int j = 0; j < item.num_attrs; ++j) {
5136	__kmp_str_buf_print(&buf, "%s%d%s", (j > 0 ? "&" : ""), item.num[j],
5137	__kmp_hw_get_keyword(item.type));
5138	if (item.attr[j].is_core_type_valid())
5139	__kmp_str_buf_print(
5140	&buf, ":%s",
5141	__kmp_hw_get_core_type_keyword(item.attr[j].get_core_type()));
5142	if (item.attr[j].is_core_eff_valid())
5143	__kmp_str_buf_print(&buf, ":eff%d", item.attr[j].get_core_eff());
5144	if (item.offset[j])
5145	__kmp_str_buf_print(&buf, "@%d", item.offset[j]);
5146	}
5147	}
5148	__kmp_str_buf_print(buffer, "%s'\n", buf.str);
5149	__kmp_str_buf_free(&buf);
5150	}
5151
5152	#if USE_ITT_BUILD1
5153	// -----------------------------------------------------------------------------
5154	// KMP_FORKJOIN_FRAMES
5155
5156	static void __kmp_stg_parse_forkjoin_frames(char const name, char const value,
5157	void *data) {
5158	__kmp_stg_parse_bool(name, value, &__kmp_forkjoin_frames);
5159	} // __kmp_stg_parse_forkjoin_frames
5160
5161	static void __kmp_stg_print_forkjoin_frames(kmp_str_buf_t *buffer,
5162	char const name, void data) {
5163	__kmp_stg_print_bool(buffer, name, __kmp_forkjoin_frames);
5164	} // __kmp_stg_print_forkjoin_frames
5165
5166	// -----------------------------------------------------------------------------
5167	// KMP_FORKJOIN_FRAMES_MODE
5168
5169	static void __kmp_stg_parse_forkjoin_frames_mode(char const *name,
5170	char const *value,
5171	void *data) {
5172	__kmp_stg_parse_int(name, value, 0, 3, &__kmp_forkjoin_frames_mode);
5173	} // __kmp_stg_parse_forkjoin_frames
5174
5175	static void __kmp_stg_print_forkjoin_frames_mode(kmp_str_buf_t *buffer,
5176	char const name, void data) {
5177	__kmp_stg_print_int(buffer, name, __kmp_forkjoin_frames_mode);
5178	} // __kmp_stg_print_forkjoin_frames
5179	#endif /* USE_ITT_BUILD */
5180
5181	// -----------------------------------------------------------------------------
5182	// KMP_ENABLE_TASK_THROTTLING
5183
5184	static void __kmp_stg_parse_task_throttling(char const name, char const value,
5185	void *data) {
5186	__kmp_stg_parse_bool(name, value, &__kmp_enable_task_throttling);
5187	} // __kmp_stg_parse_task_throttling
5188
5189	static void __kmp_stg_print_task_throttling(kmp_str_buf_t *buffer,
5190	char const name, void data) {
5191	__kmp_stg_print_bool(buffer, name, __kmp_enable_task_throttling);
5192	} // __kmp_stg_print_task_throttling
5193
5194	#if KMP_HAVE_MWAIT((0 \|\| 1) && (1 \|\| 0) && !0) \|\| KMP_HAVE_UMWAIT((0 \|\| 1) && (1 \|\| 0) && !0)
5195	// -----------------------------------------------------------------------------
5196	// KMP_USER_LEVEL_MWAIT
5197
5198	static void __kmp_stg_parse_user_level_mwait(char const *name,
5199	char const value, void data) {
5200	__kmp_stg_parse_bool(name, value, &__kmp_user_level_mwait);
5201	} // __kmp_stg_parse_user_level_mwait
5202
5203	static void __kmp_stg_print_user_level_mwait(kmp_str_buf_t *buffer,
5204	char const name, void data) {
5205	__kmp_stg_print_bool(buffer, name, __kmp_user_level_mwait);
5206	} // __kmp_stg_print_user_level_mwait
5207
5208	// -----------------------------------------------------------------------------
5209	// KMP_MWAIT_HINTS
5210
5211	static void __kmp_stg_parse_mwait_hints(char const name, char const value,
5212	void *data) {
5213	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &__kmp_mwait_hints);
5214	} // __kmp_stg_parse_mwait_hints
5215
5216	static void __kmp_stg_print_mwait_hints(kmp_str_buf_t buffer, char const name,
5217	void *data) {
5218	__kmp_stg_print_int(buffer, name, __kmp_mwait_hints);
5219	} // __kmp_stg_print_mwait_hints
5220
5221	#endif // KMP_HAVE_MWAIT \|\| KMP_HAVE_UMWAIT
5222
5223	#if KMP_HAVE_UMWAIT((0 \|\| 1) && (1 \|\| 0) && !0)
5224	// -----------------------------------------------------------------------------
5225	// KMP_TPAUSE
5226	// 0 = don't use TPAUSE, 1 = use C0.1 state, 2 = use C0.2 state
5227
5228	static void __kmp_stg_parse_tpause(char const name, char const value,
5229	void *data) {
5230	__kmp_stg_parse_int(name, value, 0, INT_MAX2147483647, &__kmp_tpause_state);
5231	if (__kmp_tpause_state != 0) {
5232	// The actual hint passed to tpause is: 0 for C0.2 and 1 for C0.1
5233	if (__kmp_tpause_state == 2) // use C0.2
5234	__kmp_tpause_hint = 0; // default was set to 1 for C0.1
5235	}
5236	} // __kmp_stg_parse_tpause
5237
5238	static void __kmp_stg_print_tpause(kmp_str_buf_t buffer, char const name,
5239	void *data) {
5240	__kmp_stg_print_int(buffer, name, __kmp_tpause_state);
5241	} // __kmp_stg_print_tpause
5242	#endif // KMP_HAVE_UMWAIT
5243
5244	// -----------------------------------------------------------------------------
5245	// OMP_DISPLAY_ENV
5246
5247	static void __kmp_stg_parse_omp_display_env(char const name, char const value,
5248	void *data) {
5249	if (__kmp_str_match("VERBOSE", 1, value)) {
5250	__kmp_display_env_verbose = TRUE(!0);
5251	} else {
5252	__kmp_stg_parse_bool(name, value, &__kmp_display_env);
5253	}
5254	} // __kmp_stg_parse_omp_display_env
5255
5256	static void __kmp_stg_print_omp_display_env(kmp_str_buf_t *buffer,
5257	char const name, void data) {
5258	if (__kmp_display_env_verbose) {
5259	__kmp_stg_print_str(buffer, name, "VERBOSE");
5260	} else {
5261	__kmp_stg_print_bool(buffer, name, __kmp_display_env);
5262	}
5263	} // __kmp_stg_print_omp_display_env
5264
5265	static void __kmp_stg_parse_omp_cancellation(char const *name,
5266	char const value, void data) {
5267	if (TCR_4(__kmp_init_parallel)(__kmp_init_parallel)) {
5268	KMP_WARNING(EnvParallelWarn, name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_EnvParallelWarn , name), __kmp_msg_null);
5269	return;
5270	} // read value before first parallel only
5271	__kmp_stg_parse_bool(name, value, &__kmp_omp_cancellation);
5272	} // __kmp_stg_parse_omp_cancellation
5273
5274	static void __kmp_stg_print_omp_cancellation(kmp_str_buf_t *buffer,
5275	char const name, void data) {
5276	__kmp_stg_print_bool(buffer, name, __kmp_omp_cancellation);
5277	} // __kmp_stg_print_omp_cancellation
5278
5279	#if OMPT_SUPPORT1
5280	int __kmp_tool = 1;
5281
5282	static void __kmp_stg_parse_omp_tool(char const name, char const value,
5283	void *data) {
5284	__kmp_stg_parse_bool(name, value, &__kmp_tool);
5285	} // __kmp_stg_parse_omp_tool
5286
5287	static void __kmp_stg_print_omp_tool(kmp_str_buf_t buffer, char const name,
5288	void *data) {
5289	if (__kmp_env_format) {
5290	KMP_STR_BUF_PRINT_BOOL_EX(name, __kmp_tool, "enabled", "disabled")__kmp_str_buf_print(buffer, " %s %s='%s'\n", __kmp_i18n_catgets (kmp_i18n_str_Host), name, (__kmp_tool) ? "enabled" : "disabled" );
5291	} else {
5292	__kmp_str_buf_print(buffer, " %s=%s\n", name,
5293	__kmp_tool ? "enabled" : "disabled");
5294	}
5295	} // __kmp_stg_print_omp_tool
5296
5297	char *__kmp_tool_libraries = NULL__null;
5298
5299	static void __kmp_stg_parse_omp_tool_libraries(char const *name,
5300	char const value, void data) {
5301	__kmp_stg_parse_str(name, value, &__kmp_tool_libraries);
5302	} // __kmp_stg_parse_omp_tool_libraries
5303
5304	static void __kmp_stg_print_omp_tool_libraries(kmp_str_buf_t *buffer,
5305	char const name, void data) {
5306	if (__kmp_tool_libraries)
5307	__kmp_stg_print_str(buffer, name, __kmp_tool_libraries);
5308	else {
5309	if (__kmp_env_format) {
5310	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
5311	} else {
5312	__kmp_str_buf_print(buffer, " %s", name);
5313	}
5314	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
5315	}
5316	} // __kmp_stg_print_omp_tool_libraries
5317
5318	char *__kmp_tool_verbose_init = NULL__null;
5319
5320	static void __kmp_stg_parse_omp_tool_verbose_init(char const *name,
5321	char const *value,
5322	void *data) {
5323	__kmp_stg_parse_str(name, value, &__kmp_tool_verbose_init);
5324	} // __kmp_stg_parse_omp_tool_libraries
5325
5326	static void __kmp_stg_print_omp_tool_verbose_init(kmp_str_buf_t *buffer,
5327	char const *name,
5328	void *data) {
5329	if (__kmp_tool_verbose_init)
5330	__kmp_stg_print_str(buffer, name, __kmp_tool_verbose_init);
5331	else {
5332	if (__kmp_env_format) {
5333	KMP_STR_BUF_PRINT_NAME__kmp_str_buf_print(buffer, " %s %s", __kmp_i18n_catgets(kmp_i18n_str_Host ), name);
5334	} else {
5335	__kmp_str_buf_print(buffer, " %s", name);
5336	}
5337	__kmp_str_buf_print(buffer, ": %s\n", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
5338	}
5339	} // __kmp_stg_print_omp_tool_verbose_init
5340
5341	#endif
5342
5343	// Table.
5344
5345	static kmp_setting_t __kmp_stg_table[] = {
5346
5347	{"KMP_ALL_THREADS", __kmp_stg_parse_device_thread_limit, NULL__null, NULL__null, 0, 0},
5348	{"KMP_BLOCKTIME", __kmp_stg_parse_blocktime, __kmp_stg_print_blocktime,
5349	NULL__null, 0, 0},
5350	{"KMP_USE_YIELD", __kmp_stg_parse_use_yield, __kmp_stg_print_use_yield,
5351	NULL__null, 0, 0},
5352	{"KMP_DUPLICATE_LIB_OK", __kmp_stg_parse_duplicate_lib_ok,
5353	__kmp_stg_print_duplicate_lib_ok, NULL__null, 0, 0},
5354	{"KMP_LIBRARY", __kmp_stg_parse_wait_policy, __kmp_stg_print_wait_policy,
5355	NULL__null, 0, 0},
5356	{"KMP_DEVICE_THREAD_LIMIT", __kmp_stg_parse_device_thread_limit,
5357	__kmp_stg_print_device_thread_limit, NULL__null, 0, 0},
5358	#if KMP_USE_MONITOR
5359	{"KMP_MONITOR_STACKSIZE", __kmp_stg_parse_monitor_stacksize,
5360	__kmp_stg_print_monitor_stacksize, NULL__null, 0, 0},
5361	#endif
5362	{"KMP_SETTINGS", __kmp_stg_parse_settings, __kmp_stg_print_settings, NULL__null,
5363	0, 0},
5364	{"KMP_STACKOFFSET", __kmp_stg_parse_stackoffset,
5365	__kmp_stg_print_stackoffset, NULL__null, 0, 0},
5366	{"KMP_STACKSIZE", __kmp_stg_parse_stacksize, __kmp_stg_print_stacksize,
5367	NULL__null, 0, 0},
5368	{"KMP_STACKPAD", __kmp_stg_parse_stackpad, __kmp_stg_print_stackpad, NULL__null,
5369	0, 0},
5370	{"KMP_VERSION", __kmp_stg_parse_version, __kmp_stg_print_version, NULL__null, 0,
5371	0},
5372	{"KMP_WARNINGS", __kmp_stg_parse_warnings, __kmp_stg_print_warnings, NULL__null,
5373	0, 0},
5374
5375	{"KMP_NESTING_MODE", __kmp_stg_parse_nesting_mode,
5376	__kmp_stg_print_nesting_mode, NULL__null, 0, 0},
5377	{"OMP_NESTED", __kmp_stg_parse_nested, __kmp_stg_print_nested, NULL__null, 0, 0},
5378	{"OMP_NUM_THREADS", __kmp_stg_parse_num_threads,
5379	__kmp_stg_print_num_threads, NULL__null, 0, 0},
5380	{"OMP_STACKSIZE", __kmp_stg_parse_stacksize, __kmp_stg_print_stacksize,
5381	NULL__null, 0, 0},
5382
5383	{"KMP_TASKING", __kmp_stg_parse_tasking, __kmp_stg_print_tasking, NULL__null, 0,
5384	0},
5385	{"KMP_TASK_STEALING_CONSTRAINT", __kmp_stg_parse_task_stealing,
5386	__kmp_stg_print_task_stealing, NULL__null, 0, 0},
5387	{"OMP_MAX_ACTIVE_LEVELS", __kmp_stg_parse_max_active_levels,
5388	__kmp_stg_print_max_active_levels, NULL__null, 0, 0},
5389	{"OMP_DEFAULT_DEVICE", __kmp_stg_parse_default_device,
5390	__kmp_stg_print_default_device, NULL__null, 0, 0},
5391	{"OMP_TARGET_OFFLOAD", __kmp_stg_parse_target_offload,
5392	__kmp_stg_print_target_offload, NULL__null, 0, 0},
5393	{"OMP_MAX_TASK_PRIORITY", __kmp_stg_parse_max_task_priority,
5394	__kmp_stg_print_max_task_priority, NULL__null, 0, 0},
5395	{"KMP_TASKLOOP_MIN_TASKS", __kmp_stg_parse_taskloop_min_tasks,
5396	__kmp_stg_print_taskloop_min_tasks, NULL__null, 0, 0},
5397	{"OMP_THREAD_LIMIT", __kmp_stg_parse_thread_limit,
5398	__kmp_stg_print_thread_limit, NULL__null, 0, 0},
5399	{"KMP_TEAMS_THREAD_LIMIT", __kmp_stg_parse_teams_thread_limit,
5400	__kmp_stg_print_teams_thread_limit, NULL__null, 0, 0},
5401	{"OMP_NUM_TEAMS", __kmp_stg_parse_nteams, __kmp_stg_print_nteams, NULL__null, 0,
5402	0},
5403	{"OMP_TEAMS_THREAD_LIMIT", __kmp_stg_parse_teams_th_limit,
5404	__kmp_stg_print_teams_th_limit, NULL__null, 0, 0},
5405	{"OMP_WAIT_POLICY", __kmp_stg_parse_wait_policy,
5406	__kmp_stg_print_wait_policy, NULL__null, 0, 0},
5407	{"KMP_DISP_NUM_BUFFERS", __kmp_stg_parse_disp_buffers,
5408	__kmp_stg_print_disp_buffers, NULL__null, 0, 0},
5409	#if KMP_NESTED_HOT_TEAMS1
5410	{"KMP_HOT_TEAMS_MAX_LEVEL", __kmp_stg_parse_hot_teams_level,
5411	__kmp_stg_print_hot_teams_level, NULL__null, 0, 0},
5412	{"KMP_HOT_TEAMS_MODE", __kmp_stg_parse_hot_teams_mode,
5413	__kmp_stg_print_hot_teams_mode, NULL__null, 0, 0},
5414	#endif // KMP_NESTED_HOT_TEAMS
5415
5416	#if KMP_HANDLE_SIGNALS(1 \|\| 0)
5417	{"KMP_HANDLE_SIGNALS", __kmp_stg_parse_handle_signals,
5418	__kmp_stg_print_handle_signals, NULL__null, 0, 0},
5419	#endif
5420
5421	#if KMP_ARCH_X860 \|\| KMP_ARCH_X86_641
5422	{"KMP_INHERIT_FP_CONTROL", __kmp_stg_parse_inherit_fp_control,
5423	__kmp_stg_print_inherit_fp_control, NULL__null, 0, 0},
5424	#endif /* KMP_ARCH_X86 \|\| KMP_ARCH_X86_64 */
5425
5426	#ifdef KMP_GOMP_COMPAT
5427	{"GOMP_STACKSIZE", __kmp_stg_parse_stacksize, NULL__null, NULL__null, 0, 0},
5428	#endif
5429
5430	#ifdef KMP_DEBUG1
5431	{"KMP_A_DEBUG", __kmp_stg_parse_a_debug, __kmp_stg_print_a_debug, NULL__null, 0,
5432	0},
5433	{"KMP_B_DEBUG", __kmp_stg_parse_b_debug, __kmp_stg_print_b_debug, NULL__null, 0,
5434	0},
5435	{"KMP_C_DEBUG", __kmp_stg_parse_c_debug, __kmp_stg_print_c_debug, NULL__null, 0,
5436	0},
5437	{"KMP_D_DEBUG", __kmp_stg_parse_d_debug, __kmp_stg_print_d_debug, NULL__null, 0,
5438	0},
5439	{"KMP_E_DEBUG", __kmp_stg_parse_e_debug, __kmp_stg_print_e_debug, NULL__null, 0,
5440	0},
5441	{"KMP_F_DEBUG", __kmp_stg_parse_f_debug, __kmp_stg_print_f_debug, NULL__null, 0,
5442	0},
5443	{"KMP_DEBUG", __kmp_stg_parse_debug, NULL__null, /* no print */ NULL__null, 0, 0},
5444	{"KMP_DEBUG_BUF", __kmp_stg_parse_debug_buf, __kmp_stg_print_debug_buf,
5445	NULL__null, 0, 0},
5446	{"KMP_DEBUG_BUF_ATOMIC", __kmp_stg_parse_debug_buf_atomic,
5447	__kmp_stg_print_debug_buf_atomic, NULL__null, 0, 0},
5448	{"KMP_DEBUG_BUF_CHARS", __kmp_stg_parse_debug_buf_chars,
5449	__kmp_stg_print_debug_buf_chars, NULL__null, 0, 0},
5450	{"KMP_DEBUG_BUF_LINES", __kmp_stg_parse_debug_buf_lines,
5451	__kmp_stg_print_debug_buf_lines, NULL__null, 0, 0},
5452	{"KMP_DIAG", __kmp_stg_parse_diag, __kmp_stg_print_diag, NULL__null, 0, 0},
5453
5454	{"KMP_PAR_RANGE", __kmp_stg_parse_par_range_env,
5455	__kmp_stg_print_par_range_env, NULL__null, 0, 0},
5456	#endif // KMP_DEBUG
5457
5458	{"KMP_ALIGN_ALLOC", __kmp_stg_parse_align_alloc,
5459	__kmp_stg_print_align_alloc, NULL__null, 0, 0},
5460
5461	{"KMP_PLAIN_BARRIER", __kmp_stg_parse_barrier_branch_bit,
5462	__kmp_stg_print_barrier_branch_bit, NULL__null, 0, 0},
5463	{"KMP_PLAIN_BARRIER_PATTERN", __kmp_stg_parse_barrier_pattern,
5464	__kmp_stg_print_barrier_pattern, NULL__null, 0, 0},
5465	{"KMP_FORKJOIN_BARRIER", __kmp_stg_parse_barrier_branch_bit,
5466	__kmp_stg_print_barrier_branch_bit, NULL__null, 0, 0},
5467	{"KMP_FORKJOIN_BARRIER_PATTERN", __kmp_stg_parse_barrier_pattern,
5468	__kmp_stg_print_barrier_pattern, NULL__null, 0, 0},
5469	#if KMP_FAST_REDUCTION_BARRIER1
5470	{"KMP_REDUCTION_BARRIER", __kmp_stg_parse_barrier_branch_bit,
5471	__kmp_stg_print_barrier_branch_bit, NULL__null, 0, 0},
5472	{"KMP_REDUCTION_BARRIER_PATTERN", __kmp_stg_parse_barrier_pattern,
5473	__kmp_stg_print_barrier_pattern, NULL__null, 0, 0},
5474	#endif
5475
5476	{"KMP_ABORT_DELAY", __kmp_stg_parse_abort_delay,
5477	__kmp_stg_print_abort_delay, NULL__null, 0, 0},
5478	{"KMP_CPUINFO_FILE", __kmp_stg_parse_cpuinfo_file,
5479	__kmp_stg_print_cpuinfo_file, NULL__null, 0, 0},
5480	{"KMP_FORCE_REDUCTION", __kmp_stg_parse_force_reduction,
5481	__kmp_stg_print_force_reduction, NULL__null, 0, 0},
5482	{"KMP_DETERMINISTIC_REDUCTION", __kmp_stg_parse_force_reduction,
5483	__kmp_stg_print_force_reduction, NULL__null, 0, 0},
5484	{"KMP_STORAGE_MAP", __kmp_stg_parse_storage_map,
5485	__kmp_stg_print_storage_map, NULL__null, 0, 0},
5486	{"KMP_ALL_THREADPRIVATE", __kmp_stg_parse_all_threadprivate,
5487	__kmp_stg_print_all_threadprivate, NULL__null, 0, 0},
5488	{"KMP_FOREIGN_THREADS_THREADPRIVATE",
5489	__kmp_stg_parse_foreign_threads_threadprivate,
5490	__kmp_stg_print_foreign_threads_threadprivate, NULL__null, 0, 0},
5491
5492	#if KMP_AFFINITY_SUPPORTED1
5493	{"KMP_AFFINITY", __kmp_stg_parse_affinity, __kmp_stg_print_affinity, NULL__null,
5494	0, 0},
5495	{"KMP_HIDDEN_HELPER_AFFINITY", __kmp_stg_parse_hh_affinity,
5496	__kmp_stg_print_hh_affinity, NULL__null, 0, 0},
5497	#ifdef KMP_GOMP_COMPAT
5498	{"GOMP_CPU_AFFINITY", __kmp_stg_parse_gomp_cpu_affinity, NULL__null,
5499	/* no print */ NULL__null, 0, 0},
5500	#endif /* KMP_GOMP_COMPAT */
5501	{"OMP_PROC_BIND", __kmp_stg_parse_proc_bind, __kmp_stg_print_proc_bind,
5502	NULL__null, 0, 0},
5503	{"KMP_TEAMS_PROC_BIND", __kmp_stg_parse_teams_proc_bind,
5504	__kmp_stg_print_teams_proc_bind, NULL__null, 0, 0},
5505	{"OMP_PLACES", __kmp_stg_parse_places, __kmp_stg_print_places, NULL__null, 0, 0},
5506	{"KMP_TOPOLOGY_METHOD", __kmp_stg_parse_topology_method,
5507	__kmp_stg_print_topology_method, NULL__null, 0, 0},
5508
5509	#else
5510
5511	// KMP_AFFINITY is not supported on OS X*, nor is OMP_PLACES.
5512	// OMP_PROC_BIND and proc-bind-var are supported, however.
5513	{"OMP_PROC_BIND", __kmp_stg_parse_proc_bind, __kmp_stg_print_proc_bind,
5514	NULL__null, 0, 0},
5515
5516	#endif // KMP_AFFINITY_SUPPORTED
5517	{"OMP_DISPLAY_AFFINITY", __kmp_stg_parse_display_affinity,
5518	__kmp_stg_print_display_affinity, NULL__null, 0, 0},
5519	{"OMP_AFFINITY_FORMAT", __kmp_stg_parse_affinity_format,
5520	__kmp_stg_print_affinity_format, NULL__null, 0, 0},
5521	{"KMP_INIT_AT_FORK", __kmp_stg_parse_init_at_fork,
5522	__kmp_stg_print_init_at_fork, NULL__null, 0, 0},
5523	{"KMP_SCHEDULE", __kmp_stg_parse_schedule, __kmp_stg_print_schedule, NULL__null,
5524	0, 0},
5525	{"OMP_SCHEDULE", __kmp_stg_parse_omp_schedule, __kmp_stg_print_omp_schedule,
5526	NULL__null, 0, 0},
5527	#if KMP_USE_HIER_SCHED0
5528	{"KMP_DISP_HAND_THREAD", __kmp_stg_parse_kmp_hand_thread,
5529	__kmp_stg_print_kmp_hand_thread, NULL__null, 0, 0},
5530	#endif
5531	{"KMP_FORCE_MONOTONIC_DYNAMIC_SCHEDULE",
5532	__kmp_stg_parse_kmp_force_monotonic, __kmp_stg_print_kmp_force_monotonic,
5533	NULL__null, 0, 0},
5534	{"KMP_ATOMIC_MODE", __kmp_stg_parse_atomic_mode,
5535	__kmp_stg_print_atomic_mode, NULL__null, 0, 0},
5536	{"KMP_CONSISTENCY_CHECK", __kmp_stg_parse_consistency_check,
5537	__kmp_stg_print_consistency_check, NULL__null, 0, 0},
5538
5539	#if USE_ITT_BUILD1 && USE_ITT_NOTIFY1
5540	{"KMP_ITT_PREPARE_DELAY", __kmp_stg_parse_itt_prepare_delay,
5541	__kmp_stg_print_itt_prepare_delay, NULL__null, 0, 0},
5542	#endif /* USE_ITT_BUILD && USE_ITT_NOTIFY */
5543	{"KMP_MALLOC_POOL_INCR", __kmp_stg_parse_malloc_pool_incr,
5544	__kmp_stg_print_malloc_pool_incr, NULL__null, 0, 0},
5545	{"KMP_GTID_MODE", __kmp_stg_parse_gtid_mode, __kmp_stg_print_gtid_mode,
5546	NULL__null, 0, 0},
5547	{"OMP_DYNAMIC", __kmp_stg_parse_omp_dynamic, __kmp_stg_print_omp_dynamic,
5548	NULL__null, 0, 0},
5549	{"KMP_DYNAMIC_MODE", __kmp_stg_parse_kmp_dynamic_mode,
5550	__kmp_stg_print_kmp_dynamic_mode, NULL__null, 0, 0},
5551
5552	#ifdef USE_LOAD_BALANCE1
5553	{"KMP_LOAD_BALANCE_INTERVAL", __kmp_stg_parse_ld_balance_interval,
5554	__kmp_stg_print_ld_balance_interval, NULL__null, 0, 0},
5555	#endif
5556
5557	{"KMP_NUM_LOCKS_IN_BLOCK", __kmp_stg_parse_lock_block,
5558	__kmp_stg_print_lock_block, NULL__null, 0, 0},
5559	{"KMP_LOCK_KIND", __kmp_stg_parse_lock_kind, __kmp_stg_print_lock_kind,
5560	NULL__null, 0, 0},
5561	{"KMP_SPIN_BACKOFF_PARAMS", __kmp_stg_parse_spin_backoff_params,
5562	__kmp_stg_print_spin_backoff_params, NULL__null, 0, 0},
5563	#if KMP_USE_ADAPTIVE_LOCKS(0 \|\| 1) && !0
5564	{"KMP_ADAPTIVE_LOCK_PROPS", __kmp_stg_parse_adaptive_lock_props,
5565	__kmp_stg_print_adaptive_lock_props, NULL__null, 0, 0},
5566	#if KMP_DEBUG_ADAPTIVE_LOCKS0
5567	{"KMP_SPECULATIVE_STATSFILE", __kmp_stg_parse_speculative_statsfile,
5568	__kmp_stg_print_speculative_statsfile, NULL__null, 0, 0},
5569	#endif
5570	#endif // KMP_USE_ADAPTIVE_LOCKS
5571	{"KMP_PLACE_THREADS", __kmp_stg_parse_hw_subset, __kmp_stg_print_hw_subset,
5572	NULL__null, 0, 0},
5573	{"KMP_HW_SUBSET", __kmp_stg_parse_hw_subset, __kmp_stg_print_hw_subset,
5574	NULL__null, 0, 0},
5575	#if USE_ITT_BUILD1
5576	{"KMP_FORKJOIN_FRAMES", __kmp_stg_parse_forkjoin_frames,
5577	__kmp_stg_print_forkjoin_frames, NULL__null, 0, 0},
5578	{"KMP_FORKJOIN_FRAMES_MODE", __kmp_stg_parse_forkjoin_frames_mode,
5579	__kmp_stg_print_forkjoin_frames_mode, NULL__null, 0, 0},
5580	#endif
5581	{"KMP_ENABLE_TASK_THROTTLING", __kmp_stg_parse_task_throttling,
5582	__kmp_stg_print_task_throttling, NULL__null, 0, 0},
5583
5584	{"OMP_DISPLAY_ENV", __kmp_stg_parse_omp_display_env,
5585	__kmp_stg_print_omp_display_env, NULL__null, 0, 0},
5586	{"OMP_CANCELLATION", __kmp_stg_parse_omp_cancellation,
5587	__kmp_stg_print_omp_cancellation, NULL__null, 0, 0},
5588	{"OMP_ALLOCATOR", __kmp_stg_parse_allocator, __kmp_stg_print_allocator,
5589	NULL__null, 0, 0},
5590	{"LIBOMP_USE_HIDDEN_HELPER_TASK", __kmp_stg_parse_use_hidden_helper,
5591	__kmp_stg_print_use_hidden_helper, NULL__null, 0, 0},
5592	{"LIBOMP_NUM_HIDDEN_HELPER_THREADS",
5593	__kmp_stg_parse_num_hidden_helper_threads,
5594	__kmp_stg_print_num_hidden_helper_threads, NULL__null, 0, 0},
5595
5596	#if OMPT_SUPPORT1
5597	{"OMP_TOOL", __kmp_stg_parse_omp_tool, __kmp_stg_print_omp_tool, NULL__null, 0,
5598	0},
5599	{"OMP_TOOL_LIBRARIES", __kmp_stg_parse_omp_tool_libraries,
5600	__kmp_stg_print_omp_tool_libraries, NULL__null, 0, 0},
5601	{"OMP_TOOL_VERBOSE_INIT", __kmp_stg_parse_omp_tool_verbose_init,
5602	__kmp_stg_print_omp_tool_verbose_init, NULL__null, 0, 0},
5603	#endif
5604
5605	#if KMP_HAVE_MWAIT((0 \|\| 1) && (1 \|\| 0) && !0) \|\| KMP_HAVE_UMWAIT((0 \|\| 1) && (1 \|\| 0) && !0)
5606	{"KMP_USER_LEVEL_MWAIT", __kmp_stg_parse_user_level_mwait,
5607	__kmp_stg_print_user_level_mwait, NULL__null, 0, 0},
5608	{"KMP_MWAIT_HINTS", __kmp_stg_parse_mwait_hints,
5609	__kmp_stg_print_mwait_hints, NULL__null, 0, 0},
5610	#endif
5611
5612	#if KMP_HAVE_UMWAIT((0 \|\| 1) && (1 \|\| 0) && !0)
5613	{"KMP_TPAUSE", __kmp_stg_parse_tpause, __kmp_stg_print_tpause, NULL__null, 0, 0},
5614	#endif
5615	{"", NULL__null, NULL__null, NULL__null, 0, 0}}; // settings
5616
5617	static int const __kmp_stg_count =
5618	sizeof(__kmp_stg_table) / sizeof(kmp_setting_t);
5619
5620	static inline kmp_setting_t __kmp_stg_find(char const name) {
5621
5622	int i;
5623	if (name != NULL__null) {
5624	for (i = 0; i < __kmp_stg_count; ++i) {
5625	if (strcmp(__kmp_stg_table[i].name, name) == 0) {
5626	return &__kmp_stg_table[i];
5627	}
5628	}
5629	}
5630	return NULL__null;
5631
5632	} // __kmp_stg_find
5633
5634	static int __kmp_stg_cmp(void const _a, void const _b) {
5635	const kmp_setting_t a = RCAST(const kmp_setting_t , _a)reinterpret_cast<const kmp_setting_t *>(_a);
5636	const kmp_setting_t b = RCAST(const kmp_setting_t , _b)reinterpret_cast<const kmp_setting_t *>(_b);
5637
5638	// Process KMP_AFFINITY last.
5639	// It needs to come after OMP_PLACES and GOMP_CPU_AFFINITY.
5640	if (strcmp(a->name, "KMP_AFFINITY") == 0) {
5641	if (strcmp(b->name, "KMP_AFFINITY") == 0) {
5642	return 0;
5643	}
5644	return 1;
5645	} else if (strcmp(b->name, "KMP_AFFINITY") == 0) {
5646	return -1;
5647	}
5648	return strcmp(a->name, b->name);
5649	} // __kmp_stg_cmp
5650
5651	static void __kmp_stg_init(void) {
5652
5653	static int initialized = 0;
5654
5655	if (!initialized) {
5656
5657	// Sort table.
5658	qsort(__kmp_stg_table, __kmp_stg_count - 1, sizeof(kmp_setting_t),
5659	__kmp_stg_cmp);
5660
5661	{ // Initialize *_STACKSIZE data.
5662	kmp_setting_t *kmp_stacksize =
5663	__kmp_stg_find("KMP_STACKSIZE"); // 1st priority.
5664	#ifdef KMP_GOMP_COMPAT
5665	kmp_setting_t *gomp_stacksize =
5666	__kmp_stg_find("GOMP_STACKSIZE"); // 2nd priority.
5667	#endif
5668	kmp_setting_t *omp_stacksize =
5669	__kmp_stg_find("OMP_STACKSIZE"); // 3rd priority.
5670
5671	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5672	// !!! Compiler does not understand rivals is used and optimizes out
5673	// assignments
5674	// !!! rivals[ i ++ ] = ...;
5675	static kmp_setting_t *volatile rivals[4];
5676	static kmp_stg_ss_data_t kmp_data = {1, CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5677	#ifdef KMP_GOMP_COMPAT
5678	static kmp_stg_ss_data_t gomp_data = {1024,
5679	CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5680	#endif
5681	static kmp_stg_ss_data_t omp_data = {1024,
5682	CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5683	int i = 0;
5684
5685	rivals[i++] = kmp_stacksize;
5686	#ifdef KMP_GOMP_COMPAT
5687	if (gomp_stacksize != NULL__null) {
5688	rivals[i++] = gomp_stacksize;
5689	}
5690	#endif
5691	rivals[i++] = omp_stacksize;
5692	rivals[i++] = NULL__null;
5693
5694	kmp_stacksize->data = &kmp_data;
5695	#ifdef KMP_GOMP_COMPAT
5696	if (gomp_stacksize != NULL__null) {
5697	gomp_stacksize->data = &gomp_data;
5698	}
5699	#endif
5700	omp_stacksize->data = &omp_data;
5701	}
5702
5703	{ // Initialize KMP_LIBRARY and OMP_WAIT_POLICY data.
5704	kmp_setting_t *kmp_library =
5705	__kmp_stg_find("KMP_LIBRARY"); // 1st priority.
5706	kmp_setting_t *omp_wait_policy =
5707	__kmp_stg_find("OMP_WAIT_POLICY"); // 2nd priority.
5708
5709	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5710	static kmp_setting_t *volatile rivals[3];
5711	static kmp_stg_wp_data_t kmp_data = {0, CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5712	static kmp_stg_wp_data_t omp_data = {1, CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5713	int i = 0;
5714
5715	rivals[i++] = kmp_library;
5716	if (omp_wait_policy != NULL__null) {
5717	rivals[i++] = omp_wait_policy;
5718	}
5719	rivals[i++] = NULL__null;
5720
5721	kmp_library->data = &kmp_data;
5722	if (omp_wait_policy != NULL__null) {
5723	omp_wait_policy->data = &omp_data;
5724	}
5725	}
5726
5727	{ // Initialize KMP_DEVICE_THREAD_LIMIT and KMP_ALL_THREADS
5728	kmp_setting_t *kmp_device_thread_limit =
5729	__kmp_stg_find("KMP_DEVICE_THREAD_LIMIT"); // 1st priority.
5730	kmp_setting_t *kmp_all_threads =
5731	__kmp_stg_find("KMP_ALL_THREADS"); // 2nd priority.
5732
5733	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5734	static kmp_setting_t *volatile rivals[3];
5735	int i = 0;
5736
5737	rivals[i++] = kmp_device_thread_limit;
5738	rivals[i++] = kmp_all_threads;
5739	rivals[i++] = NULL__null;
5740
5741	kmp_device_thread_limit->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5742	kmp_all_threads->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5743	}
5744
5745	{ // Initialize KMP_HW_SUBSET and KMP_PLACE_THREADS
5746	// 1st priority
5747	kmp_setting_t *kmp_hw_subset = __kmp_stg_find("KMP_HW_SUBSET");
5748	// 2nd priority
5749	kmp_setting_t *kmp_place_threads = __kmp_stg_find("KMP_PLACE_THREADS");
5750
5751	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5752	static kmp_setting_t *volatile rivals[3];
5753	int i = 0;
5754
5755	rivals[i++] = kmp_hw_subset;
5756	rivals[i++] = kmp_place_threads;
5757	rivals[i++] = NULL__null;
5758
5759	kmp_hw_subset->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5760	kmp_place_threads->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5761	}
5762
5763	#if KMP_AFFINITY_SUPPORTED1
5764	{ // Initialize KMP_AFFINITY, GOMP_CPU_AFFINITY, and OMP_PROC_BIND data.
5765	kmp_setting_t *kmp_affinity =
5766	__kmp_stg_find("KMP_AFFINITY"); // 1st priority.
5767	KMP_DEBUG_ASSERT(kmp_affinity != NULL)if (!(kmp_affinity != __null)) { __kmp_debug_assert("kmp_affinity != __null" , "openmp/runtime/src/kmp_settings.cpp", 5767); };
5768
5769	#ifdef KMP_GOMP_COMPAT
5770	kmp_setting_t *gomp_cpu_affinity =
5771	__kmp_stg_find("GOMP_CPU_AFFINITY"); // 2nd priority.
5772	KMP_DEBUG_ASSERT(gomp_cpu_affinity != NULL)if (!(gomp_cpu_affinity != __null)) { __kmp_debug_assert("gomp_cpu_affinity != __null" , "openmp/runtime/src/kmp_settings.cpp", 5772); };
5773	#endif
5774
5775	kmp_setting_t *omp_proc_bind =
5776	__kmp_stg_find("OMP_PROC_BIND"); // 3rd priority.
5777	KMP_DEBUG_ASSERT(omp_proc_bind != NULL)if (!(omp_proc_bind != __null)) { __kmp_debug_assert("omp_proc_bind != __null" , "openmp/runtime/src/kmp_settings.cpp", 5777); };
5778
5779	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5780	static kmp_setting_t *volatile rivals[4];
5781	int i = 0;
5782
5783	rivals[i++] = kmp_affinity;
5784
5785	#ifdef KMP_GOMP_COMPAT
5786	rivals[i++] = gomp_cpu_affinity;
5787	gomp_cpu_affinity->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5788	#endif
5789
5790	rivals[i++] = omp_proc_bind;
5791	omp_proc_bind->data = CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals);
5792	rivals[i++] = NULL__null;
5793
5794	static kmp_setting_t *volatile places_rivals[4];
5795	i = 0;
5796
5797	kmp_setting_t *omp_places = __kmp_stg_find("OMP_PLACES"); // 3rd priority.
5798	KMP_DEBUG_ASSERT(omp_places != NULL)if (!(omp_places != __null)) { __kmp_debug_assert("omp_places != __null" , "openmp/runtime/src/kmp_settings.cpp", 5798); };
5799
5800	places_rivals[i++] = kmp_affinity;
5801	#ifdef KMP_GOMP_COMPAT
5802	places_rivals[i++] = gomp_cpu_affinity;
5803	#endif
5804	places_rivals[i++] = omp_places;
5805	omp_places->data = CCAST(kmp_setting_t , places_rivals)const_cast<kmp_setting_t >(places_rivals);
5806	places_rivals[i++] = NULL__null;
5807	}
5808	#else
5809	// KMP_AFFINITY not supported, so OMP_PROC_BIND has no rivals.
5810	// OMP_PLACES not supported yet.
5811	#endif // KMP_AFFINITY_SUPPORTED
5812
5813	{ // Initialize KMP_DETERMINISTIC_REDUCTION and KMP_FORCE_REDUCTION data.
5814	kmp_setting_t *kmp_force_red =
5815	__kmp_stg_find("KMP_FORCE_REDUCTION"); // 1st priority.
5816	kmp_setting_t *kmp_determ_red =
5817	__kmp_stg_find("KMP_DETERMINISTIC_REDUCTION"); // 2nd priority.
5818
5819	// !!! volatile keyword is Intel(R) C Compiler bug CQ49908 workaround.
5820	static kmp_setting_t *volatile rivals[3];
5821	static kmp_stg_fr_data_t force_data = {1,
5822	CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5823	static kmp_stg_fr_data_t determ_data = {0,
5824	CCAST(kmp_setting_t , rivals)const_cast<kmp_setting_t >(rivals)};
5825	int i = 0;
5826
5827	rivals[i++] = kmp_force_red;
5828	if (kmp_determ_red != NULL__null) {
5829	rivals[i++] = kmp_determ_red;
5830	}
5831	rivals[i++] = NULL__null;
5832
5833	kmp_force_red->data = &force_data;
5834	if (kmp_determ_red != NULL__null) {
5835	kmp_determ_red->data = &determ_data;
5836	}
5837	}
5838
5839	initialized = 1;
5840	}
5841
5842	// Reset flags.
5843	int i;
5844	for (i = 0; i < __kmp_stg_count; ++i) {
5845	__kmp_stg_table[i].set = 0;
5846	}
5847
5848	} // __kmp_stg_init
5849
5850	static void __kmp_stg_parse(char const name, char const value) {
5851	// On Windows* OS there are some nameless variables like "C:=C:\" (yeah,
5852	// really nameless, they are presented in environment block as
5853	// "=C:=C\\\x00=D:=D:\\\x00...", so let us skip them.
5854	if (name[0] == 0) {
5855	return;
5856	}
5857
5858	if (value != NULL__null) {
5859	kmp_setting_t *setting = __kmp_stg_find(name);
5860	if (setting != NULL__null) {
5861	setting->parse(name, value, setting->data);
5862	setting->defined = 1;
5863	}
5864	}
5865
5866	} // __kmp_stg_parse
5867
5868	static int __kmp_stg_check_rivals( // 0 -- Ok, 1 -- errors found.
5869	char const *name, // Name of variable.
5870	char const *value, // Value of the variable.
5871	kmp_setting_t **rivals // List of rival settings (must include current one).
5872	) {
5873
5874	if (rivals == NULL__null) {
5875	return 0;
5876	}
5877
5878	// Loop thru higher priority settings (listed before current).
5879	int i = 0;
5880	for (; strcmp(rivals[i]->name, name) != 0; i++) {
5881	KMP_DEBUG_ASSERT(rivals[i] != NULL)if (!(rivals[i] != __null)) { __kmp_debug_assert("rivals[i] != __null" , "openmp/runtime/src/kmp_settings.cpp", 5881); };
5882
5883	#if KMP_AFFINITY_SUPPORTED1
5884	if (rivals[i] == __kmp_affinity_notype) {
5885	// If KMP_AFFINITY is specified without a type name,
5886	// it does not rival OMP_PROC_BIND or GOMP_CPU_AFFINITY.
5887	continue;
5888	}
5889	#endif
5890
5891	if (rivals[i]->set) {
5892	KMP_WARNING(StgIgnored, name, rivals[i]->name)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_StgIgnored , name, rivals[i]->name), __kmp_msg_null);
5893	return 1;
5894	}
5895	}
5896
5897	++i; // Skip current setting.
5898	return 0;
5899
5900	} // __kmp_stg_check_rivals
5901
5902	static int __kmp_env_toPrint(char const *name, int flag) {
5903	int rc = 0;
5904	kmp_setting_t *setting = __kmp_stg_find(name);
5905	if (setting != NULL__null) {
5906	rc = setting->defined;
5907	if (flag >= 0) {
5908	setting->defined = flag;
5909	}
5910	}
5911	return rc;
5912	}
5913
5914	#if defined(KMP_DEBUG1) && KMP_AFFINITY_SUPPORTED1
5915	static void __kmp_print_affinity_settings(const kmp_affinity_t *affinity) {
5916	K_DIAG(1, ("%s:\n", affinity->env_var)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("%s:\n", affinity ->env_var); } };
5917	K_DIAG(1, (" type : %d\n", affinity->type)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" type : %d\n" , affinity->type); } };
5918	K_DIAG(1, (" compact : %d\n", affinity->compact)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" compact : %d\n" , affinity->compact); } };
5919	K_DIAG(1, (" offset : %d\n", affinity->offset)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" offset : %d\n" , affinity->offset); } };
5920	K_DIAG(1, (" verbose : %u\n", affinity->flags.verbose)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" verbose : %u\n" , affinity->flags.verbose); } };
5921	K_DIAG(1, (" warnings : %u\n", affinity->flags.warnings)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" warnings : %u\n" , affinity->flags.warnings); } };
5922	K_DIAG(1, (" respect : %u\n", affinity->flags.respect)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" respect : %u\n" , affinity->flags.respect); } };
5923	K_DIAG(1, (" reset : %u\n", affinity->flags.reset)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" reset : %u\n" , affinity->flags.reset); } };
5924	K_DIAG(1, (" dups : %u\n", affinity->flags.dups)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" dups : %u\n" , affinity->flags.dups); } };
5925	K_DIAG(1, (" gran : %d\n", (int)affinity->gran)){ if (kmp_diag == 1) { __kmp_debug_printf_stdout (" gran : %d\n" , (int)affinity->gran); } };
5926	KMP_DEBUG_ASSERT(affinity->type != affinity_default)if (!(affinity->type != affinity_default)) { __kmp_debug_assert ("affinity->type != affinity_default", "openmp/runtime/src/kmp_settings.cpp" , 5926); };
5927	}
5928	#endif
5929
5930	static void __kmp_aux_env_initialize(kmp_env_blk_t *block) {
5931
5932	char const *value;
5933
5934	/* OMP_NUM_THREADS */
5935	value = __kmp_env_blk_var(block, "OMP_NUM_THREADS");
5936	if (value) {
5937	ompc_set_num_threads(__kmp_dflt_team_nth);
5938	}
5939
5940	/* KMP_BLOCKTIME */
5941	value = __kmp_env_blk_var(block, "KMP_BLOCKTIME");
5942	if (value) {
5943	kmpc_set_blocktime(__kmp_dflt_blocktime);
5944	}
5945
5946	/* OMP_NESTED */
5947	value = __kmp_env_blk_var(block, "OMP_NESTED");
5948	if (value) {
5949	ompc_set_nested(__kmp_dflt_max_active_levels > 1);
5950	}
5951
5952	/* OMP_DYNAMIC */
5953	value = __kmp_env_blk_var(block, "OMP_DYNAMIC");
5954	if (value) {
5955	ompc_set_dynamic(__kmp_global.g.g_dynamic);
5956	}
5957	}
5958
5959	void __kmp_env_initialize(char const *string) {
5960
5961	kmp_env_blk_t block;
5962	int i;
5963
5964	__kmp_stg_init();
5965
5966	// Hack!!!
5967	if (string == NULL__null) {
5968	// __kmp_max_nth = __kmp_sys_max_nth;
5969	__kmp_threads_capacity =
5970	__kmp_initial_threads_capacity(__kmp_dflt_team_nth_ub);
5971	}
5972	__kmp_env_blk_init(&block, string);
5973
5974	// update the set flag on all entries that have an env var
5975	for (i = 0; i < block.count; ++i) {
5976	if ((block.vars[i].name == NULL__null) \|\| (*block.vars[i].name == '\0')) {
5977	continue;
5978	}
5979	if (block.vars[i].value == NULL__null) {
5980	continue;
5981	}
5982	kmp_setting_t *setting = __kmp_stg_find(block.vars[i].name);
5983	if (setting != NULL__null) {
5984	setting->set = 1;
5985	}
5986	}
5987
5988	// We need to know if blocktime was set when processing OMP_WAIT_POLICY
5989	blocktime_str = __kmp_env_blk_var(&block, "KMP_BLOCKTIME");
5990
5991	// Special case. If we parse environment, not a string, process KMP_WARNINGS
5992	// first.
5993	if (string == NULL__null) {
5994	char const *name = "KMP_WARNINGS";
5995	char const *value = __kmp_env_blk_var(&block, name);
5996	__kmp_stg_parse(name, value);
5997	}
5998
5999	#if KMP_AFFINITY_SUPPORTED1
6000	// Special case. KMP_AFFINITY is not a rival to other affinity env vars
6001	// if no affinity type is specified. We want to allow
6002	// KMP_AFFINITY=[no],verbose/[no]warnings/etc. to be enabled when
6003	// specifying the affinity type via GOMP_CPU_AFFINITY or the OMP 4.0
6004	// affinity mechanism.
6005	__kmp_affinity_notype = NULL__null;
6006	char const *aff_str = __kmp_env_blk_var(&block, "KMP_AFFINITY");
6007	if (aff_str != NULL__null) {
6008	// Check if the KMP_AFFINITY type is specified in the string.
6009	// We just search the string for "compact", "scatter", etc.
6010	// without really parsing the string. The syntax of the
6011	// KMP_AFFINITY env var is such that none of the affinity
6012	// type names can appear anywhere other that the type
6013	// specifier, even as substrings.
6014	//
6015	// I can't find a case-insensitive version of strstr on Windows* OS.
6016	// Use the case-sensitive version for now.
6017
6018	#if KMP_OS_WINDOWS0
6019	#define FIND strstr
6020	#else
6021	#define FIND strcasestr
6022	#endif
6023
6024	if ((FIND(aff_str, "none") == NULL__null) &&
6025	(FIND(aff_str, "physical") == NULL__null) &&
6026	(FIND(aff_str, "logical") == NULL__null) &&
6027	(FIND(aff_str, "compact") == NULL__null) &&
6028	(FIND(aff_str, "scatter") == NULL__null) &&
6029	(FIND(aff_str, "explicit") == NULL__null) &&
6030	(FIND(aff_str, "balanced") == NULL__null) &&
6031	(FIND(aff_str, "disabled") == NULL__null)) {
6032	__kmp_affinity_notype = __kmp_stg_find("KMP_AFFINITY");
6033	} else {
6034	// A new affinity type is specified.
6035	// Reset the affinity flags to their default values,
6036	// in case this is called from kmp_set_defaults().
6037	__kmp_affinity.type = affinity_default;
6038	__kmp_affinity.gran = KMP_HW_UNKNOWN;
6039	__kmp_affinity_top_method = affinity_top_method_default;
6040	__kmp_affinity.flags.respect = affinity_respect_mask_default(2);
6041	}
6042	#undef FIND
6043
6044	// Also reset the affinity flags if OMP_PROC_BIND is specified.
6045	aff_str = __kmp_env_blk_var(&block, "OMP_PROC_BIND");
6046	if (aff_str != NULL__null) {
6047	__kmp_affinity.type = affinity_default;
6048	__kmp_affinity.gran = KMP_HW_UNKNOWN;
6049	__kmp_affinity_top_method = affinity_top_method_default;
6050	__kmp_affinity.flags.respect = affinity_respect_mask_default(2);
6051	}
6052	}
6053
6054	#endif /* KMP_AFFINITY_SUPPORTED */
6055
6056	// Set up the nested proc bind type vector.
6057	if (__kmp_nested_proc_bind.bind_types == NULL__null) {
6058	__kmp_nested_proc_bind.bind_types =
6059	(kmp_proc_bind_t *)KMP_INTERNAL_MALLOC(sizeof(kmp_proc_bind_t))malloc(sizeof(kmp_proc_bind_t));
6060	if (__kmp_nested_proc_bind.bind_types == NULL__null) {
6061	KMP_FATAL(MemoryAllocFailed)__kmp_fatal(__kmp_msg_format(kmp_i18n_msg_MemoryAllocFailed), __kmp_msg_null);
6062	}
6063	__kmp_nested_proc_bind.size = 1;
6064	__kmp_nested_proc_bind.used = 1;
6065	#if KMP_AFFINITY_SUPPORTED1
6066	__kmp_nested_proc_bind.bind_types[0] = proc_bind_default;
6067	#else
6068	// default proc bind is false if affinity not supported
6069	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
6070	#endif
6071	}
6072
6073	// Set up the affinity format ICV
6074	// Grab the default affinity format string from the message catalog
6075	kmp_msg_t m =
6076	__kmp_msg_format(kmp_i18n_msg_AffFormatDefault, "%P", "%i", "%n", "%A");
6077	KMP_DEBUG_ASSERT(KMP_STRLEN(m.str) < KMP_AFFINITY_FORMAT_SIZE)if (!(strlen(m.str) < KMP_AFFINITY_FORMAT_SIZE)) { __kmp_debug_assert ("strlen(m.str) < KMP_AFFINITY_FORMAT_SIZE", "openmp/runtime/src/kmp_settings.cpp" , 6077); };
6078
6079	if (__kmp_affinity_format == NULL__null) {
6080	__kmp_affinity_format =
6081	(char )KMP_INTERNAL_MALLOC(sizeof(char) KMP_AFFINITY_FORMAT_SIZE)malloc(sizeof(char) * KMP_AFFINITY_FORMAT_SIZE);
6082	}
6083	KMP_STRCPY_S(__kmp_affinity_format, KMP_AFFINITY_FORMAT_SIZE, m.str)strcpy(__kmp_affinity_format, m.str);
6084	__kmp_str_free(&m.str);
6085
6086	// Now process all of the settings.
6087	for (i = 0; i < block.count; ++i) {
6088	__kmp_stg_parse(block.vars[i].name, block.vars[i].value);
6089	}
6090
6091	// If user locks have been allocated yet, don't reset the lock vptr table.
6092	if (!__kmp_init_user_locks) {
6093	if (__kmp_user_lock_kind == lk_default) {
6094	__kmp_user_lock_kind = lk_queuing;
6095	}
6096	#if KMP_USE_DYNAMIC_LOCK1
6097	__kmp_init_dynamic_user_locks();
6098	#else
6099	__kmp_set_user_lock_vptrs(__kmp_user_lock_kind);
6100	#endif
6101	} else {
6102	KMP_DEBUG_ASSERT(string != NULL)if (!(string != __null)) { __kmp_debug_assert("string != __null" , "openmp/runtime/src/kmp_settings.cpp", 6102); }; // kmp_set_defaults() was called
6103	KMP_DEBUG_ASSERT(__kmp_user_lock_kind != lk_default)if (!(__kmp_user_lock_kind != lk_default)) { __kmp_debug_assert ("__kmp_user_lock_kind != lk_default", "openmp/runtime/src/kmp_settings.cpp" , 6103); };
6104	// Binds lock functions again to follow the transition between different
6105	// KMP_CONSISTENCY_CHECK values. Calling this again is harmless as long
6106	// as we do not allow lock kind changes after making a call to any
6107	// user lock functions (true).
6108	#if KMP_USE_DYNAMIC_LOCK1
6109	__kmp_init_dynamic_user_locks();
6110	#else
6111	__kmp_set_user_lock_vptrs(__kmp_user_lock_kind);
6112	#endif
6113	}
6114
6115	#if KMP_AFFINITY_SUPPORTED1
6116
6117	if (!TCR_4(__kmp_init_middle)(__kmp_init_middle)) {
6118	#if KMP_USE_HWLOC0
6119	// Force using hwloc when either tiles or numa nodes requested within
6120	// KMP_HW_SUBSET or granularity setting and no other topology method
6121	// is requested
6122	if (__kmp_hw_subset &&
6123	__kmp_affinity_top_method == affinity_top_method_default)
6124	if (__kmp_hw_subset->specified(KMP_HW_NUMA) \|\|
6125	__kmp_hw_subset->specified(KMP_HW_TILE) \|\|
6126	__kmp_affinity.gran == KMP_HW_TILE \|\|
6127	__kmp_affinity.gran == KMP_HW_NUMA)
6128	__kmp_affinity_top_method = affinity_top_method_hwloc;
6129	// Force using hwloc when tiles or numa nodes requested for OMP_PLACES
6130	if (__kmp_affinity.gran == KMP_HW_NUMA \|\|
6131	__kmp_affinity.gran == KMP_HW_TILE)
6132	__kmp_affinity_top_method = affinity_top_method_hwloc;
6133	#endif
6134	// Determine if the machine/OS is actually capable of supporting
6135	// affinity.
6136	const char *var = "KMP_AFFINITY";
6137	KMPAffinity::pick_api();
6138	#if KMP_USE_HWLOC0
6139	// If Hwloc topology discovery was requested but affinity was also disabled,
6140	// then tell user that Hwloc request is being ignored and use default
6141	// topology discovery method.
6142	if (__kmp_affinity_top_method == affinity_top_method_hwloc &&
6143	__kmp_affinity_dispatch->get_api_type() != KMPAffinity::HWLOC) {
6144	KMP_WARNING(AffIgnoringHwloc, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffIgnoringHwloc , var), __kmp_msg_null);
6145	__kmp_affinity_top_method = affinity_top_method_all;
6146	}
6147	#endif
6148	if (__kmp_affinity.type == affinity_disabled) {
6149	KMP_AFFINITY_DISABLE()(__kmp_affin_mask_size = 0);
6150	} else if (!KMP_AFFINITY_CAPABLE()(__kmp_affin_mask_size > 0)) {
6151	__kmp_affinity_dispatch->determine_capable(var);
6152	if (!KMP_AFFINITY_CAPABLE()(__kmp_affin_mask_size > 0)) {
6153	if (__kmp_affinity.flags.verbose \|\|
6154	(__kmp_affinity.flags.warnings &&
6155	(__kmp_affinity.type != affinity_default) &&
6156	(__kmp_affinity.type != affinity_none) &&
6157	(__kmp_affinity.type != affinity_disabled))) {
6158	KMP_WARNING(AffNotSupported, var)__kmp_msg(kmp_ms_warning, __kmp_msg_format(kmp_i18n_msg_AffNotSupported , var), __kmp_msg_null);
6159	}
6160	__kmp_affinity.type = affinity_disabled;
6161	__kmp_affinity.flags.respect = FALSE0;
6162	__kmp_affinity.gran = KMP_HW_THREAD;
6163	}
6164	}
6165
6166	if (__kmp_affinity.type == affinity_disabled) {
6167	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
6168	} else if (__kmp_nested_proc_bind.bind_types[0] == proc_bind_true) {
6169	// OMP_PROC_BIND=true maps to OMP_PROC_BIND=spread.
6170	__kmp_nested_proc_bind.bind_types[0] = proc_bind_spread;
6171	}
6172
6173	if (KMP_AFFINITY_CAPABLE()(__kmp_affin_mask_size > 0)) {
6174
6175	#if KMP_GROUP_AFFINITY0
6176	// This checks to see if the initial affinity mask is equal
6177	// to a single windows processor group. If it is, then we do
6178	// not respect the initial affinity mask and instead, use the
6179	// entire machine.
6180	bool exactly_one_group = false;
6181	if (__kmp_num_proc_groups > 1) {
6182	int group;
6183	bool within_one_group;
6184	// Get the initial affinity mask and determine if it is
6185	// contained within a single group.
6186	kmp_affin_mask_t *init_mask;
6187	KMP_CPU_ALLOC(init_mask)(init_mask = __kmp_affinity_dispatch->allocate_mask());
6188	__kmp_get_system_affinity(init_mask, TRUE)(init_mask)->get_system_affinity((!0));
6189	group = __kmp_get_proc_group(init_mask)(init_mask)->get_proc_group();
6190	within_one_group = (group >= 0);
6191	// If the initial affinity is within a single group,
6192	// then determine if it is equal to that single group.
6193	if (within_one_group) {
6194	DWORD num_bits_in_group = __kmp_GetActiveProcessorCount(group);
6195	DWORD num_bits_in_mask = 0;
6196	for (int bit = init_mask->begin(); bit != init_mask->end();
6197	bit = init_mask->next(bit))
6198	num_bits_in_mask++;
6199	exactly_one_group = (num_bits_in_group == num_bits_in_mask);
6200	}
6201	KMP_CPU_FREE(init_mask)__kmp_affinity_dispatch->deallocate_mask(init_mask);
6202	}
6203
6204	// Handle the Win 64 group affinity stuff if there are multiple
6205	// processor groups, or if the user requested it, and OMP 4.0
6206	// affinity is not in effect.
6207	if (__kmp_num_proc_groups > 1 &&
6208	__kmp_affinity.type == affinity_default &&
6209	__kmp_nested_proc_bind.bind_types[0] == proc_bind_default) {
6210	// Do not respect the initial processor affinity mask if it is assigned
6211	// exactly one Windows Processor Group since this is interpreted as the
6212	// default OS assignment. Not respecting the mask allows the runtime to
6213	// use all the logical processors in all groups.
6214	if (__kmp_affinity.flags.respect == affinity_respect_mask_default(2) &&
6215	exactly_one_group) {
6216	__kmp_affinity.flags.respect = FALSE0;
6217	}
6218	// Use compact affinity with anticipation of pinning to at least the
6219	// group granularity since threads can only be bound to one group.
6220	if (__kmp_affinity.type == affinity_default) {
6221	__kmp_affinity.type = affinity_compact;
6222	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
6223	}
6224	if (__kmp_hh_affinity.type == affinity_default)
6225	__kmp_hh_affinity.type = affinity_compact;
6226	if (__kmp_affinity_top_method == affinity_top_method_default)
6227	__kmp_affinity_top_method = affinity_top_method_all;
6228	if (__kmp_affinity.gran == KMP_HW_UNKNOWN)
6229	__kmp_affinity.gran = KMP_HW_PROC_GROUP;
6230	if (__kmp_hh_affinity.gran == KMP_HW_UNKNOWN)
6231	__kmp_hh_affinity.gran = KMP_HW_PROC_GROUP;
6232	} else
6233
6234	#endif /* KMP_GROUP_AFFINITY */
6235
6236	{
6237	if (__kmp_affinity.flags.respect == affinity_respect_mask_default(2)) {
6238	#if KMP_GROUP_AFFINITY0
6239	if (__kmp_num_proc_groups > 1 && exactly_one_group) {
6240	__kmp_affinity.flags.respect = FALSE0;
6241	} else
6242	#endif /* KMP_GROUP_AFFINITY */
6243	{
6244	__kmp_affinity.flags.respect = TRUE(!0);
6245	}
6246	}
6247	if ((__kmp_nested_proc_bind.bind_types[0] != proc_bind_intel) &&
6248	(__kmp_nested_proc_bind.bind_types[0] != proc_bind_default)) {
6249	if (__kmp_affinity.type == affinity_default) {
6250	__kmp_affinity.type = affinity_compact;
6251	__kmp_affinity.flags.dups = FALSE0;
6252	}
6253	} else if (__kmp_affinity.type == affinity_default) {
6254	#if KMP_MIC_SUPPORTED((0 \|\| 1) && (1 \|\| 0))
6255	if (__kmp_mic_type != non_mic) {
6256	__kmp_nested_proc_bind.bind_types[0] = proc_bind_intel;
6257	} else
6258	#endif
6259	{
6260	__kmp_nested_proc_bind.bind_types[0] = proc_bind_false;
6261	}
6262	#if KMP_MIC_SUPPORTED((0 \|\| 1) && (1 \|\| 0))
6263	if (__kmp_mic_type != non_mic) {
6264	__kmp_affinity.type = affinity_scatter;
6265	} else
6266	#endif
6267	{
6268	__kmp_affinity.type = affinity_none;
6269	}
6270	}
6271	if (__kmp_hh_affinity.type == affinity_default)
6272	__kmp_hh_affinity.type = affinity_none;
6273	if ((__kmp_affinity.gran == KMP_HW_UNKNOWN) &&
6274	(__kmp_affinity.gran_levels < 0)) {
6275	#if KMP_MIC_SUPPORTED((0 \|\| 1) && (1 \|\| 0))
6276	if (__kmp_mic_type != non_mic) {
6277	__kmp_affinity.gran = KMP_HW_THREAD;
6278	} else
6279	#endif
6280	{
6281	__kmp_affinity.gran = KMP_HW_CORE;
6282	}
6283	}
6284	if ((__kmp_hh_affinity.gran == KMP_HW_UNKNOWN) &&
6285	(__kmp_hh_affinity.gran_levels < 0)) {
6286	#if KMP_MIC_SUPPORTED((0 \|\| 1) && (1 \|\| 0))
6287	if (__kmp_mic_type != non_mic) {
6288	__kmp_hh_affinity.gran = KMP_HW_THREAD;
6289	} else
6290	#endif
6291	{
6292	__kmp_hh_affinity.gran = KMP_HW_CORE;
6293	}
6294	}
6295	if (__kmp_affinity_top_method == affinity_top_method_default) {
6296	__kmp_affinity_top_method = affinity_top_method_all;
6297	}
6298	}
6299	} else {
6300	// If affinity is disabled, then still need to assign topology method
6301	// to attempt machine detection and affinity types
6302	if (__kmp_affinity_top_method == affinity_top_method_default)
6303	__kmp_affinity_top_method = affinity_top_method_all;
6304	if (__kmp_affinity.type == affinity_default)
6305	__kmp_affinity.type = affinity_disabled;
6306	if (__kmp_hh_affinity.type == affinity_default)
6307	__kmp_hh_affinity.type = affinity_disabled;
6308	}
6309
6310	#ifdef KMP_DEBUG1
6311	for (const kmp_affinity_t *affinity : __kmp_affinities)
6312	__kmp_print_affinity_settings(affinity);
6313	KMP_DEBUG_ASSERT(__kmp_nested_proc_bind.bind_types[0] != proc_bind_default)if (!(__kmp_nested_proc_bind.bind_types[0] != proc_bind_default )) { __kmp_debug_assert("__kmp_nested_proc_bind.bind_types[0] != proc_bind_default" , "openmp/runtime/src/kmp_settings.cpp", 6313); };
6314	K_DIAG(1, ("__kmp_nested_proc_bind.bind_types[0] == %d\n",{ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_nested_proc_bind.bind_types[0] == %d\n" , __kmp_nested_proc_bind.bind_types[0]); } }
6315	__kmp_nested_proc_bind.bind_types[0])){ if (kmp_diag == 1) { __kmp_debug_printf_stdout ("__kmp_nested_proc_bind.bind_types[0] == %d\n" , __kmp_nested_proc_bind.bind_types[0]); } };
6316	#endif
6317	}
6318
6319	#endif /* KMP_AFFINITY_SUPPORTED */
6320
6321	if (__kmp_version) {
6322	__kmp_print_version_1();
6323	}
6324
6325	// Post-initialization step: some env. vars need their value's further
6326	// processing
6327	if (string != NULL__null) { // kmp_set_defaults() was called
6328	__kmp_aux_env_initialize(&block);
6329	}
6330
6331	__kmp_env_blk_free(&block);
6332
6333	KMP_MB();
6334
6335	} // __kmp_env_initialize
6336
6337	void __kmp_env_print() {
6338
6339	kmp_env_blk_t block;
6340	int i;
6341	kmp_str_buf_t buffer;
6342
6343	__kmp_stg_init();
6344	__kmp_str_buf_init(&buffer){ (&buffer)->str = (&buffer)->bulk; (&buffer )->size = sizeof((&buffer)->bulk); (&buffer)-> used = 0; (&buffer)->bulk[0] = 0; };
6345
6346	__kmp_env_blk_init(&block, NULL__null);
6347	__kmp_env_blk_sort(&block);
6348
6349	// Print real environment values.
6350	__kmp_str_buf_print(&buffer, "\n%s\n\n", KMP_I18N_STR(UserSettings)__kmp_i18n_catgets(kmp_i18n_str_UserSettings));
6351	for (i = 0; i < block.count; ++i) {
6352	char const *name = block.vars[i].name;
6353	char const *value = block.vars[i].value;
6354	if ((KMP_STRLENstrlen(name) > 4 && strncmp(name, "KMP_", 4) == 0) \|\|
6355	strncmp(name, "OMP_", 4) == 0
6356	#ifdef KMP_GOMP_COMPAT
6357	\|\| strncmp(name, "GOMP_", 5) == 0
6358	#endif // KMP_GOMP_COMPAT
6359	) {
6360	__kmp_str_buf_print(&buffer, " %s=%s\n", name, value);
6361	}
6362	}
6363	__kmp_str_buf_print(&buffer, "\n");
6364
6365	// Print internal (effective) settings.
6366	__kmp_str_buf_print(&buffer, "%s\n\n", KMP_I18N_STR(EffectiveSettings)__kmp_i18n_catgets(kmp_i18n_str_EffectiveSettings));
6367	for (int i = 0; i < __kmp_stg_count; ++i) {
6368	if (__kmp_stg_table[i].print != NULL__null) {
6369	__kmp_stg_table[i].print(&buffer, __kmp_stg_table[i].name,
6370	__kmp_stg_table[i].data);
6371	}
6372	}
6373
6374	__kmp_printf("%s", buffer.str);
6375
6376	__kmp_env_blk_free(&block);
6377	__kmp_str_buf_free(&buffer);
6378
6379	__kmp_printf("\n");
6380
6381	} // __kmp_env_print
6382
6383	void __kmp_env_print_2() {
6384	__kmp_display_env_impl(__kmp_display_env, __kmp_display_env_verbose);
6385	} // __kmp_env_print_2
6386
6387	void __kmp_display_env_impl(int display_env, int display_env_verbose) {
6388	kmp_env_blk_t block;
6389	kmp_str_buf_t buffer;
6390
6391	__kmp_env_format = 1;
6392
6393	__kmp_stg_init();
6394	__kmp_str_buf_init(&buffer){ (&buffer)->str = (&buffer)->bulk; (&buffer )->size = sizeof((&buffer)->bulk); (&buffer)-> used = 0; (&buffer)->bulk[0] = 0; };
6395
6396	__kmp_env_blk_init(&block, NULL__null);
6397	__kmp_env_blk_sort(&block);
6398
6399	__kmp_str_buf_print(&buffer, "\n%s\n", KMP_I18N_STR(DisplayEnvBegin)__kmp_i18n_catgets(kmp_i18n_str_DisplayEnvBegin));
6400	__kmp_str_buf_print(&buffer, " _OPENMP='%d'\n", __kmp_openmp_version);
6401
6402	for (int i = 0; i < __kmp_stg_count; ++i) {
6403	if (__kmp_stg_table[i].print != NULL__null &&
6404	((display_env && strncmp(__kmp_stg_table[i].name, "OMP_", 4) == 0) \|\|
6405	display_env_verbose)) {
6406	__kmp_stg_table[i].print(&buffer, __kmp_stg_table[i].name,
6407	__kmp_stg_table[i].data);
6408	}
6409	}
6410
6411	__kmp_str_buf_print(&buffer, "%s\n", KMP_I18N_STR(DisplayEnvEnd)__kmp_i18n_catgets(kmp_i18n_str_DisplayEnvEnd));
6412	__kmp_str_buf_print(&buffer, "\n");
6413
6414	__kmp_printf("%s", buffer.str);
6415
6416	__kmp_env_blk_free(&block);
6417	__kmp_str_buf_free(&buffer);
6418
6419	__kmp_printf("\n");
6420	}
6421
6422	#if OMPD_SUPPORT1
6423	// Dump environment variables for OMPD
6424	void __kmp_env_dump() {
6425
6426	kmp_env_blk_t block;
6427	kmp_str_buf_t buffer, env, notdefined;
6428
6429	__kmp_stg_init();
6430	__kmp_str_buf_init(&buffer){ (&buffer)->str = (&buffer)->bulk; (&buffer )->size = sizeof((&buffer)->bulk); (&buffer)-> used = 0; (&buffer)->bulk[0] = 0; };
6431	__kmp_str_buf_init(&env){ (&env)->str = (&env)->bulk; (&env)->size = sizeof((&env)->bulk); (&env)->used = 0; (& env)->bulk[0] = 0; };
6432	__kmp_str_buf_init(&notdefined){ (&notdefined)->str = (&notdefined)->bulk; (& notdefined)->size = sizeof((&notdefined)->bulk); (& notdefined)->used = 0; (&notdefined)->bulk[0] = 0; };
6433
6434	__kmp_env_blk_init(&block, NULL__null);
6435	__kmp_env_blk_sort(&block);
6436
6437	__kmp_str_buf_print(&notdefined, ": %s", KMP_I18N_STR(NotDefined)__kmp_i18n_catgets(kmp_i18n_str_NotDefined));
6438
6439	for (int i = 0; i < __kmp_stg_count; ++i) {
6440	if (__kmp_stg_table[i].print == NULL__null)
6441	continue;
6442	__kmp_str_buf_clear(&env);
6443	__kmp_stg_table[i].print(&env, __kmp_stg_table[i].name,
6444	__kmp_stg_table[i].data);
6445	if (env.used < 4) // valid definition must have indents (3) and a new line
6446	continue;
6447	if (strstr(env.str, notdefined.str))
6448	// normalize the string
6449	__kmp_str_buf_print(&buffer, "%s=undefined\n", __kmp_stg_table[i].name);
6450	else
6451	__kmp_str_buf_cat(&buffer, env.str + 3, env.used - 3);
6452	}
6453
6454	ompd_env_block = (char *)__kmp_allocate(buffer.used + 1)___kmp_allocate((buffer.used + 1), "openmp/runtime/src/kmp_settings.cpp" , 6454);
6455	KMP_MEMCPYmemcpy(ompd_env_block, buffer.str, buffer.used + 1);
6456	ompd_env_block_size = (ompd_size_t)KMP_STRLENstrlen(ompd_env_block);
6457
6458	__kmp_env_blk_free(&block);
6459	__kmp_str_buf_free(&buffer);
6460	__kmp_str_buf_free(&env);
6461	__kmp_str_buf_free(&notdefined);
6462	}
6463	#endif // OMPD_SUPPORT
6464
6465	// end of file