Open MPI logo

Portable Hardware Locality (hwloc) Documentation: v2.9.3

  |   Home   |   Support   |   FAQ   |  
helper.h
1/*
2 * Copyright © 2009 CNRS
3 * Copyright © 2009-2023 Inria. All rights reserved.
4 * Copyright © 2009-2012 Université Bordeaux
5 * Copyright © 2009-2010 Cisco Systems, Inc. All rights reserved.
6 * See COPYING in top-level directory.
7 */
8
13#ifndef HWLOC_HELPER_H
14#define HWLOC_HELPER_H
15
16#ifndef HWLOC_H
17#error Please include the main hwloc.h instead
18#endif
19
20#include <stdlib.h>
21#include <errno.h>
22
23
24#ifdef __cplusplus
25extern "C" {
26#endif
27
28
42static __hwloc_inline hwloc_obj_t
44{
45 hwloc_obj_t obj = hwloc_get_root_obj(topology);
46 if (!hwloc_bitmap_intersects(obj->cpuset, set))
47 return NULL;
48 while (!hwloc_bitmap_isincluded(obj->cpuset, set)) {
49 /* while the object intersects without being included, look at its children */
50 hwloc_obj_t child = obj->first_child;
51 while (child) {
52 if (hwloc_bitmap_intersects(child->cpuset, set))
53 break;
54 child = child->next_sibling;
55 }
56 if (!child)
57 /* no child intersects, return their father */
58 return obj;
59 /* found one intersecting child, look at its children */
60 obj = child;
61 }
62 /* obj is included, return it */
63 return obj;
64}
65
72 hwloc_obj_t * __hwloc_restrict objs, int max);
73
89static __hwloc_inline hwloc_obj_t
91 int depth, hwloc_obj_t prev)
92{
93 hwloc_obj_t next = hwloc_get_next_obj_by_depth(topology, depth, prev);
94 if (!next)
95 return NULL;
96 while (next && (hwloc_bitmap_iszero(next->cpuset) || !hwloc_bitmap_isincluded(next->cpuset, set)))
97 next = next->next_cousin;
98 return next;
99}
100
119static __hwloc_inline hwloc_obj_t
121 hwloc_obj_type_t type, hwloc_obj_t prev)
122{
123 int depth = hwloc_get_type_depth(topology, type);
125 return NULL;
126 return hwloc_get_next_obj_inside_cpuset_by_depth(topology, set, depth, prev);
127}
128
139static __hwloc_inline hwloc_obj_t
141 int depth, unsigned idx) __hwloc_attribute_pure;
142static __hwloc_inline hwloc_obj_t
144 int depth, unsigned idx)
145{
146 hwloc_obj_t obj = hwloc_get_obj_by_depth (topology, depth, 0);
147 unsigned count = 0;
148 if (!obj)
149 return NULL;
150 while (obj) {
151 if (!hwloc_bitmap_iszero(obj->cpuset) && hwloc_bitmap_isincluded(obj->cpuset, set)) {
152 if (count == idx)
153 return obj;
154 count++;
155 }
156 obj = obj->next_cousin;
157 }
158 return NULL;
159}
160
175static __hwloc_inline hwloc_obj_t
177 hwloc_obj_type_t type, unsigned idx) __hwloc_attribute_pure;
178static __hwloc_inline hwloc_obj_t
180 hwloc_obj_type_t type, unsigned idx)
181{
182 int depth = hwloc_get_type_depth(topology, type);
184 return NULL;
185 return hwloc_get_obj_inside_cpuset_by_depth(topology, set, depth, idx);
186}
187
199static __hwloc_inline unsigned
201 int depth) __hwloc_attribute_pure;
202static __hwloc_inline unsigned
204 int depth)
205{
206 hwloc_obj_t obj = hwloc_get_obj_by_depth (topology, depth, 0);
207 unsigned count = 0;
208 if (!obj)
209 return 0;
210 while (obj) {
212 count++;
213 obj = obj->next_cousin;
214 }
215 return count;
216}
217
231static __hwloc_inline int
233 hwloc_obj_type_t type) __hwloc_attribute_pure;
234static __hwloc_inline int
236 hwloc_obj_type_t type)
237{
238 int depth = hwloc_get_type_depth(topology, type);
239 if (depth == HWLOC_TYPE_DEPTH_UNKNOWN)
240 return 0;
241 if (depth == HWLOC_TYPE_DEPTH_MULTIPLE)
242 return -1; /* FIXME: agregate nbobjs from different levels? */
243 return (int) hwloc_get_nbobjs_inside_cpuset_by_depth(topology, set, depth);
244}
245
262static __hwloc_inline int
263hwloc_get_obj_index_inside_cpuset (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_const_cpuset_t set,
264 hwloc_obj_t obj) __hwloc_attribute_pure;
265static __hwloc_inline int
267 hwloc_obj_t obj)
268{
269 int idx = 0;
270 if (!hwloc_bitmap_isincluded(obj->cpuset, set))
271 return -1;
272 /* count how many objects are inside the cpuset on the way from us to the beginning of the level */
273 while ((obj = obj->prev_cousin) != NULL)
275 idx++;
276 return idx;
277}
278
294static __hwloc_inline hwloc_obj_t
295hwloc_get_child_covering_cpuset (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_const_cpuset_t set,
296 hwloc_obj_t parent) __hwloc_attribute_pure;
297static __hwloc_inline hwloc_obj_t
299 hwloc_obj_t parent)
300{
301 hwloc_obj_t child;
302 if (hwloc_bitmap_iszero(set))
303 return NULL;
304 child = parent->first_child;
305 while (child) {
306 if (child->cpuset && hwloc_bitmap_isincluded(set, child->cpuset))
307 return child;
308 child = child->next_sibling;
309 }
310 return NULL;
311}
312
318static __hwloc_inline hwloc_obj_t
319hwloc_get_obj_covering_cpuset (hwloc_topology_t topology, hwloc_const_cpuset_t set) __hwloc_attribute_pure;
320static __hwloc_inline hwloc_obj_t
322{
323 struct hwloc_obj *current = hwloc_get_root_obj(topology);
324 if (hwloc_bitmap_iszero(set) || !hwloc_bitmap_isincluded(set, current->cpuset))
325 return NULL;
326 while (1) {
327 hwloc_obj_t child = hwloc_get_child_covering_cpuset(topology, set, current);
328 if (!child)
329 return current;
330 current = child;
331 }
332}
333
347static __hwloc_inline hwloc_obj_t
349 int depth, hwloc_obj_t prev)
350{
351 hwloc_obj_t next = hwloc_get_next_obj_by_depth(topology, depth, prev);
352 if (!next)
353 return NULL;
354 while (next && !hwloc_bitmap_intersects(set, next->cpuset))
355 next = next->next_cousin;
356 return next;
357}
358
375static __hwloc_inline hwloc_obj_t
378{
379 int depth = hwloc_get_type_depth(topology, type);
381 return NULL;
382 return hwloc_get_next_obj_covering_cpuset_by_depth(topology, set, depth, prev);
383}
384
408static __hwloc_inline hwloc_obj_t
409hwloc_get_ancestor_obj_by_depth (hwloc_topology_t topology __hwloc_attribute_unused, int depth, hwloc_obj_t obj) __hwloc_attribute_pure;
410static __hwloc_inline hwloc_obj_t
411hwloc_get_ancestor_obj_by_depth (hwloc_topology_t topology __hwloc_attribute_unused, int depth, hwloc_obj_t obj)
412{
413 hwloc_obj_t ancestor = obj;
414 if (obj->depth < depth)
415 return NULL;
416 while (ancestor && ancestor->depth > depth)
417 ancestor = ancestor->parent;
418 return ancestor;
419}
420
434static __hwloc_inline hwloc_obj_t
435hwloc_get_ancestor_obj_by_type (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_type_t type, hwloc_obj_t obj) __hwloc_attribute_pure;
436static __hwloc_inline hwloc_obj_t
438{
439 hwloc_obj_t ancestor = obj->parent;
440 while (ancestor && ancestor->type != type)
441 ancestor = ancestor->parent;
442 return ancestor;
443}
444
451static __hwloc_inline hwloc_obj_t
452hwloc_get_common_ancestor_obj (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t obj1, hwloc_obj_t obj2) __hwloc_attribute_pure;
453static __hwloc_inline hwloc_obj_t
454hwloc_get_common_ancestor_obj (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t obj1, hwloc_obj_t obj2)
455{
456 /* the loop isn't so easy since intermediate ancestors may have
457 * different depth, causing us to alternate between using obj1->parent
458 * and obj2->parent. Also, even if at some point we find ancestors of
459 * of the same depth, their ancestors may have different depth again.
460 */
461 while (obj1 != obj2) {
462 while (obj1->depth > obj2->depth)
463 obj1 = obj1->parent;
464 while (obj2->depth > obj1->depth)
465 obj2 = obj2->parent;
466 if (obj1 != obj2 && obj1->depth == obj2->depth) {
467 obj1 = obj1->parent;
468 obj2 = obj2->parent;
469 }
470 }
471 return obj1;
472}
473
481static __hwloc_inline int
482hwloc_obj_is_in_subtree (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t obj, hwloc_obj_t subtree_root) __hwloc_attribute_pure;
483static __hwloc_inline int
484hwloc_obj_is_in_subtree (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t obj, hwloc_obj_t subtree_root)
485{
486 return obj->cpuset && subtree_root->cpuset && hwloc_bitmap_isincluded(obj->cpuset, subtree_root->cpuset);
487}
488
499static __hwloc_inline hwloc_obj_t
500hwloc_get_next_child (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t parent, hwloc_obj_t prev)
501{
502 hwloc_obj_t obj;
503 int state = 0;
504 if (prev) {
505 if (prev->type == HWLOC_OBJ_MISC)
506 state = 3;
507 else if (prev->type == HWLOC_OBJ_BRIDGE || prev->type == HWLOC_OBJ_PCI_DEVICE || prev->type == HWLOC_OBJ_OS_DEVICE)
508 state = 2;
509 else if (prev->type == HWLOC_OBJ_NUMANODE || prev->type == HWLOC_OBJ_MEMCACHE)
510 state = 1;
511 obj = prev->next_sibling;
512 } else {
513 obj = parent->first_child;
514 }
515 if (!obj && state == 0) {
517 state = 1;
518 }
519 if (!obj && state == 1) {
520 obj = parent->io_first_child;
521 state = 2;
522 }
523 if (!obj && state == 2) {
525 state = 3;
526 }
527 return obj;
528}
529
556HWLOC_DECLSPEC int
558
567HWLOC_DECLSPEC int
569
578HWLOC_DECLSPEC int
580
587HWLOC_DECLSPEC int
589
596HWLOC_DECLSPEC int
598
605HWLOC_DECLSPEC int
607
639static __hwloc_inline int
641 unsigned cachelevel, hwloc_obj_cache_type_t cachetype)
642{
643 int depth;
644 int found = HWLOC_TYPE_DEPTH_UNKNOWN;
645 for (depth=0; ; depth++) {
646 hwloc_obj_t obj = hwloc_get_obj_by_depth(topology, depth, 0);
647 if (!obj)
648 break;
649 if (!hwloc_obj_type_is_dcache(obj->type) || obj->attr->cache.depth != cachelevel)
650 /* doesn't match, try next depth */
651 continue;
652 if (cachetype == (hwloc_obj_cache_type_t) -1) {
653 if (found != HWLOC_TYPE_DEPTH_UNKNOWN) {
654 /* second match, return MULTIPLE */
656 }
657 /* first match, mark it as found */
658 found = depth;
659 continue;
660 }
661 if (obj->attr->cache.type == cachetype || obj->attr->cache.type == HWLOC_OBJ_CACHE_UNIFIED)
662 /* exact match (either unified is alone, or we match instruction or data), return immediately */
663 return depth;
664 }
665 /* went to the bottom, return what we found */
666 return found;
667}
668
673static __hwloc_inline hwloc_obj_t
674hwloc_get_cache_covering_cpuset (hwloc_topology_t topology, hwloc_const_cpuset_t set) __hwloc_attribute_pure;
675static __hwloc_inline hwloc_obj_t
677{
678 hwloc_obj_t current = hwloc_get_obj_covering_cpuset(topology, set);
679 while (current) {
680 if (hwloc_obj_type_is_dcache(current->type))
681 return current;
682 current = current->parent;
683 }
684 return NULL;
685}
686
692static __hwloc_inline hwloc_obj_t
693hwloc_get_shared_cache_covering_obj (hwloc_topology_t topology __hwloc_attribute_unused, hwloc_obj_t obj) __hwloc_attribute_pure;
694static __hwloc_inline hwloc_obj_t
696{
697 hwloc_obj_t current = obj->parent;
698 if (!obj->cpuset)
699 return NULL;
700 while (current) {
701 if (!hwloc_bitmap_isequal(current->cpuset, obj->cpuset)
702 && hwloc_obj_type_is_dcache(current->type))
703 return current;
704 current = current->parent;
705 }
706 return NULL;
707}
708
740HWLOC_DECLSPEC int hwloc_bitmap_singlify_per_core(hwloc_topology_t topology, hwloc_bitmap_t cpuset, unsigned which);
741
753static __hwloc_inline hwloc_obj_t
754hwloc_get_pu_obj_by_os_index(hwloc_topology_t topology, unsigned os_index) __hwloc_attribute_pure;
755static __hwloc_inline hwloc_obj_t
757{
758 hwloc_obj_t obj = NULL;
759 while ((obj = hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_PU, obj)) != NULL)
760 if (obj->os_index == os_index)
761 return obj;
762 return NULL;
763}
764
776static __hwloc_inline hwloc_obj_t
777hwloc_get_numanode_obj_by_os_index(hwloc_topology_t topology, unsigned os_index) __hwloc_attribute_pure;
778static __hwloc_inline hwloc_obj_t
780{
781 hwloc_obj_t obj = NULL;
782 while ((obj = hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_NUMANODE, obj)) != NULL)
783 if (obj->os_index == os_index)
784 return obj;
785 return NULL;
786}
787
799/* TODO: rather provide an iterator? Provide a way to know how much should be allocated? By returning the total number of objects instead? */
800HWLOC_DECLSPEC unsigned hwloc_get_closest_objs (hwloc_topology_t topology, hwloc_obj_t src, hwloc_obj_t * __hwloc_restrict objs, unsigned max);
801
816static __hwloc_inline hwloc_obj_t
818 hwloc_obj_type_t type1, unsigned idx1,
819 hwloc_obj_type_t type2, unsigned idx2) __hwloc_attribute_pure;
820static __hwloc_inline hwloc_obj_t
822 hwloc_obj_type_t type1, unsigned idx1,
823 hwloc_obj_type_t type2, unsigned idx2)
824{
825 hwloc_obj_t obj;
826 obj = hwloc_get_obj_by_type (topology, type1, idx1);
827 if (!obj)
828 return NULL;
829 return hwloc_get_obj_inside_cpuset_by_type(topology, obj->cpuset, type2, idx2);
830}
831
852static __hwloc_inline hwloc_obj_t
853hwloc_get_obj_below_array_by_type (hwloc_topology_t topology, int nr, hwloc_obj_type_t *typev, unsigned *idxv) __hwloc_attribute_pure;
854static __hwloc_inline hwloc_obj_t
856{
857 hwloc_obj_t obj = hwloc_get_root_obj(topology);
858 int i;
859 for(i=0; i<nr; i++) {
860 if (!obj)
861 return NULL;
862 obj = hwloc_get_obj_inside_cpuset_by_type(topology, obj->cpuset, typev[i], idxv[i]);
863 }
864 return obj;
865}
866
905HWLOC_DECLSPEC hwloc_obj_t
907 hwloc_obj_type_t type, const char *subtype, const char *nameprefix,
908 unsigned long flags);
909
926
949static __hwloc_inline int
951 hwloc_obj_t *roots, unsigned n_roots,
952 hwloc_cpuset_t *set,
953 unsigned n,
954 int until, unsigned long flags)
955{
956 unsigned i;
957 unsigned tot_weight;
958 unsigned given, givenweight;
959 hwloc_cpuset_t *cpusetp = set;
960
961 if (flags & ~HWLOC_DISTRIB_FLAG_REVERSE) {
962 errno = EINVAL;
963 return -1;
964 }
965
966 tot_weight = 0;
967 for (i = 0; i < n_roots; i++)
968 tot_weight += (unsigned) hwloc_bitmap_weight(roots[i]->cpuset);
969
970 for (i = 0, given = 0, givenweight = 0; i < n_roots; i++) {
971 unsigned chunk, weight;
972 hwloc_obj_t root = roots[flags & HWLOC_DISTRIB_FLAG_REVERSE ? n_roots-1-i : i];
974 while (!hwloc_obj_type_is_normal(root->type))
975 /* If memory/io/misc, walk up to normal parent */
976 root = root->parent;
977 weight = (unsigned) hwloc_bitmap_weight(cpuset);
978 if (!weight)
979 continue;
980 /* Give to root a chunk proportional to its weight.
981 * If previous chunks got rounded-up, we may get a bit less. */
982 chunk = (( (givenweight+weight) * n + tot_weight-1) / tot_weight)
983 - (( givenweight * n + tot_weight-1) / tot_weight);
984 if (!root->arity || chunk <= 1 || root->depth >= until) {
985 /* We can't split any more, put everything there. */
986 if (chunk) {
987 /* Fill cpusets with ours */
988 unsigned j;
989 for (j=0; j < chunk; j++)
990 cpusetp[j] = hwloc_bitmap_dup(cpuset);
991 } else {
992 /* We got no chunk, just merge our cpuset to a previous one
993 * (the first chunk cannot be empty)
994 * so that this root doesn't get ignored.
995 */
996 assert(given);
997 hwloc_bitmap_or(cpusetp[-1], cpusetp[-1], cpuset);
998 }
999 } else {
1000 /* Still more to distribute, recurse into children */
1001 hwloc_distrib(topology, root->children, root->arity, cpusetp, chunk, until, flags);
1002 }
1003 cpusetp += chunk;
1004 given += chunk;
1005 givenweight += weight;
1006 }
1007
1008 return 0;
1009}
1010
1030HWLOC_DECLSPEC hwloc_const_cpuset_t
1032
1046HWLOC_DECLSPEC hwloc_const_cpuset_t
1048
1067HWLOC_DECLSPEC hwloc_const_cpuset_t
1069
1081HWLOC_DECLSPEC hwloc_const_nodeset_t
1083
1097HWLOC_DECLSPEC hwloc_const_nodeset_t
1099
1118HWLOC_DECLSPEC hwloc_const_nodeset_t
1120
1144static __hwloc_inline int
1146{
1148 hwloc_obj_t obj = NULL;
1151 while ((obj = hwloc_get_next_obj_covering_cpuset_by_depth(topology, _cpuset, depth, obj)) != NULL)
1152 if (hwloc_bitmap_set(nodeset, obj->os_index) < 0)
1153 return -1;
1154 return 0;
1155}
1156
1171static __hwloc_inline int
1173{
1175 hwloc_obj_t obj = NULL;
1177 hwloc_bitmap_zero(_cpuset);
1178 while ((obj = hwloc_get_next_obj_by_depth(topology, depth, obj)) != NULL) {
1180 /* no need to check obj->cpuset because objects in levels always have a cpuset */
1181 if (hwloc_bitmap_or(_cpuset, _cpuset, obj->cpuset) < 0)
1182 return -1;
1183 }
1184 return 0;
1185}
1186
1210static __hwloc_inline hwloc_obj_t
1211hwloc_get_non_io_ancestor_obj(hwloc_topology_t topology __hwloc_attribute_unused,
1212 hwloc_obj_t ioobj)
1213{
1214 hwloc_obj_t obj = ioobj;
1215 while (obj && !obj->cpuset) {
1216 obj = obj->parent;
1217 }
1218 return obj;
1219}
1220
1227static __hwloc_inline hwloc_obj_t
1229{
1230 return hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_PCI_DEVICE, prev);
1231}
1232
1238static __hwloc_inline hwloc_obj_t
1240 unsigned domain, unsigned bus, unsigned dev, unsigned func)
1241{
1242 hwloc_obj_t obj = NULL;
1243 while ((obj = hwloc_get_next_pcidev(topology, obj)) != NULL) {
1244 if (obj->attr->pcidev.domain == domain
1245 && obj->attr->pcidev.bus == bus
1246 && obj->attr->pcidev.dev == dev
1247 && obj->attr->pcidev.func == func)
1248 return obj;
1249 }
1250 return NULL;
1251}
1252
1258static __hwloc_inline hwloc_obj_t
1260{
1261 unsigned domain = 0; /* default */
1262 unsigned bus, dev, func;
1263
1264 if (sscanf(busid, "%x:%x.%x", &bus, &dev, &func) != 3
1265 && sscanf(busid, "%x:%x:%x.%x", &domain, &bus, &dev, &func) != 4) {
1266 errno = EINVAL;
1267 return NULL;
1268 }
1269
1270 return hwloc_get_pcidev_by_busid(topology, domain, bus, dev, func);
1271}
1272
1279static __hwloc_inline hwloc_obj_t
1281{
1282 return hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_OS_DEVICE, prev);
1283}
1284
1291static __hwloc_inline hwloc_obj_t
1293{
1294 return hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_BRIDGE, prev);
1295}
1296
1297/* \brief Checks whether a given bridge covers a given PCI bus.
1298 *
1299 * \return 1 if it covers, 0 if not.
1300 */
1301static __hwloc_inline int
1303 unsigned domain, unsigned bus)
1304{
1305 return bridge->type == HWLOC_OBJ_BRIDGE
1307 && bridge->attr->bridge.downstream.pci.domain == domain
1308 && bridge->attr->bridge.downstream.pci.secondary_bus <= bus
1309 && bridge->attr->bridge.downstream.pci.subordinate_bus >= bus;
1310}
1311
1316#ifdef __cplusplus
1317} /* extern "C" */
1318#endif
1319
1320
1321#endif /* HWLOC_HELPER_H */
hwloc_const_bitmap_t hwloc_const_cpuset_t
A non-modifiable hwloc_cpuset_t.
Definition: hwloc.h:163
hwloc_const_bitmap_t hwloc_const_nodeset_t
A non-modifiable hwloc_nodeset_t.
Definition: hwloc.h:181
hwloc_bitmap_t hwloc_nodeset_t
A node set is a bitmap whose bits are set according to NUMA memory node physical OS indexes.
Definition: hwloc.h:178
hwloc_bitmap_t hwloc_cpuset_t
A CPU set is a bitmap whose bits are set according to CPU physical OS indexes.
Definition: hwloc.h:161
enum hwloc_obj_cache_type_e hwloc_obj_cache_type_t
Cache type.
hwloc_obj_type_t
Type of topology object.
Definition: hwloc.h:197
@ HWLOC_OBJ_BRIDGE_PCI
PCI-side of a bridge.
Definition: hwloc.h:356
@ HWLOC_OBJ_CACHE_UNIFIED
Unified cache.
Definition: hwloc.h:348
@ HWLOC_OBJ_MEMCACHE
Memory-side cache (filtered out by default). A cache in front of a specific NUMA node.
Definition: hwloc.h:326
@ HWLOC_OBJ_MISC
Miscellaneous objects (filtered out by default). Objects without particular meaning,...
Definition: hwloc.h:311
@ HWLOC_OBJ_OS_DEVICE
Operating system device (filtered out by default).
Definition: hwloc.h:300
@ HWLOC_OBJ_PCI_DEVICE
PCI device (filtered out by default).
Definition: hwloc.h:290
@ HWLOC_OBJ_BRIDGE
Bridge (filtered out by default). Any bridge (or PCI switch) that connects the host or an I/O bus,...
Definition: hwloc.h:278
@ HWLOC_OBJ_NUMANODE
NUMA node. An object that contains memory that is directly and byte-accessible to the host processors...
Definition: hwloc.h:257
@ HWLOC_OBJ_PU
Processing Unit, or (Logical) Processor. An execution unit (may share a core with some other logical ...
Definition: hwloc.h:222
struct hwloc_topology * hwloc_topology_t
Topology context.
Definition: hwloc.h:716
static hwloc_obj_t hwloc_get_root_obj(hwloc_topology_t topology)
Returns the top-object of the topology-tree.
hwloc_obj_t hwloc_get_obj_by_depth(hwloc_topology_t topology, int depth, unsigned idx)
Returns the topology object at logical index idx from depth depth.
static hwloc_obj_t hwloc_get_obj_by_type(hwloc_topology_t topology, hwloc_obj_type_t type, unsigned idx)
Returns the topology object at logical index idx with type type.
static hwloc_obj_t hwloc_get_next_obj_by_type(hwloc_topology_t topology, hwloc_obj_type_t type, hwloc_obj_t prev)
Returns the next object of type type.
int hwloc_get_type_depth(hwloc_topology_t topology, hwloc_obj_type_t type)
Returns the depth of objects of type type.
static hwloc_obj_t hwloc_get_next_obj_by_depth(hwloc_topology_t topology, int depth, hwloc_obj_t prev)
Returns the next object at depth depth.
@ HWLOC_TYPE_DEPTH_UNKNOWN
No object of given type exists in the topology.
Definition: hwloc.h:853
@ HWLOC_TYPE_DEPTH_MULTIPLE
Objects of given type exist at different depth in the topology (only for Groups).
Definition: hwloc.h:854
static int hwloc_get_nbobjs_inside_cpuset_by_type(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_type_t type)
Return the number of objects of type type included in CPU set set.
Definition: helper.h:235
static hwloc_obj_t hwloc_get_obj_inside_cpuset_by_type(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_type_t type, unsigned idx)
Return the idx -th object of type type included in CPU set set.
Definition: helper.h:179
int hwloc_get_largest_objs_inside_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_t *restrict objs, int max)
Get the set of largest objects covering exactly a given cpuset set.
static int hwloc_get_obj_index_inside_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_t obj)
Return the logical index among the objects included in CPU set set.
Definition: helper.h:266
static hwloc_obj_t hwloc_get_first_largest_obj_inside_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set)
Get the first largest object included in the given cpuset set.
Definition: helper.h:43
static hwloc_obj_t hwloc_get_next_obj_inside_cpuset_by_depth(hwloc_topology_t topology, hwloc_const_cpuset_t set, int depth, hwloc_obj_t prev)
Return the next object at depth depth included in CPU set set.
Definition: helper.h:90
static unsigned hwloc_get_nbobjs_inside_cpuset_by_depth(hwloc_topology_t topology, hwloc_const_cpuset_t set, int depth)
Return the number of objects at depth depth included in CPU set set.
Definition: helper.h:203
static hwloc_obj_t hwloc_get_obj_inside_cpuset_by_depth(hwloc_topology_t topology, hwloc_const_cpuset_t set, int depth, unsigned idx)
Return the (logically) idx -th object at depth depth included in CPU set set.
Definition: helper.h:143
static hwloc_obj_t hwloc_get_next_obj_inside_cpuset_by_type(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_type_t type, hwloc_obj_t prev)
Return the next object of type type included in CPU set set.
Definition: helper.h:120
static hwloc_obj_t hwloc_get_child_covering_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_t parent)
Get the child covering at least CPU set set.
Definition: helper.h:298
static hwloc_obj_t hwloc_get_obj_covering_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set)
Get the lowest object covering at least CPU set set.
Definition: helper.h:321
static hwloc_obj_t hwloc_get_next_obj_covering_cpuset_by_type(hwloc_topology_t topology, hwloc_const_cpuset_t set, hwloc_obj_type_t type, hwloc_obj_t prev)
Iterate through same-type objects covering at least CPU set set.
Definition: helper.h:376
static hwloc_obj_t hwloc_get_next_obj_covering_cpuset_by_depth(hwloc_topology_t topology, hwloc_const_cpuset_t set, int depth, hwloc_obj_t prev)
Iterate through same-depth objects covering at least CPU set set.
Definition: helper.h:348
static hwloc_obj_t hwloc_get_next_child(hwloc_topology_t topology, hwloc_obj_t parent, hwloc_obj_t prev)
Return the next child.
Definition: helper.h:500
static int hwloc_obj_is_in_subtree(hwloc_topology_t topology, hwloc_obj_t obj, hwloc_obj_t subtree_root)
Returns true if obj is inside the subtree beginning with ancestor object subtree_root.
Definition: helper.h:484
static hwloc_obj_t hwloc_get_ancestor_obj_by_type(hwloc_topology_t topology, hwloc_obj_type_t type, hwloc_obj_t obj)
Returns the ancestor object of obj with type type.
Definition: helper.h:437
static hwloc_obj_t hwloc_get_ancestor_obj_by_depth(hwloc_topology_t topology, int depth, hwloc_obj_t obj)
Returns the ancestor object of obj at depth depth.
Definition: helper.h:411
static hwloc_obj_t hwloc_get_common_ancestor_obj(hwloc_topology_t topology, hwloc_obj_t obj1, hwloc_obj_t obj2)
Returns the common parent object to objects obj1 and obj2.
Definition: helper.h:454
int hwloc_obj_type_is_memory(hwloc_obj_type_t type)
Check whether an object type is Memory.
int hwloc_obj_type_is_cache(hwloc_obj_type_t type)
Check whether an object type is a CPU Cache (Data, Unified or Instruction).
int hwloc_obj_type_is_dcache(hwloc_obj_type_t type)
Check whether an object type is a CPU Data or Unified Cache.
int hwloc_obj_type_is_normal(hwloc_obj_type_t type)
Check whether an object type is Normal.
int hwloc_obj_type_is_icache(hwloc_obj_type_t type)
Check whether an object type is a CPU Instruction Cache,.
int hwloc_obj_type_is_io(hwloc_obj_type_t type)
Check whether an object type is I/O.
static hwloc_obj_t hwloc_get_shared_cache_covering_obj(hwloc_topology_t topology, hwloc_obj_t obj)
Get the first data (or unified) cache shared between an object and somebody else.
Definition: helper.h:695
static hwloc_obj_t hwloc_get_cache_covering_cpuset(hwloc_topology_t topology, hwloc_const_cpuset_t set)
Get the first data (or unified) cache covering a cpuset set.
Definition: helper.h:676
static int hwloc_get_cache_type_depth(hwloc_topology_t topology, unsigned cachelevel, hwloc_obj_cache_type_t cachetype)
Find the depth of cache objects matching cache level and type.
Definition: helper.h:640
int hwloc_bitmap_singlify_per_core(hwloc_topology_t topology, hwloc_bitmap_t cpuset, unsigned which)
Remove simultaneous multithreading PUs from a CPU set.
unsigned hwloc_get_closest_objs(hwloc_topology_t topology, hwloc_obj_t src, hwloc_obj_t *restrict objs, unsigned max)
Do a depth-first traversal of the topology to find and sort.
static hwloc_obj_t hwloc_get_pu_obj_by_os_index(hwloc_topology_t topology, unsigned os_index)
Returns the object of type HWLOC_OBJ_PU with os_index.
Definition: helper.h:756
static hwloc_obj_t hwloc_get_obj_below_by_type(hwloc_topology_t topology, hwloc_obj_type_t type1, unsigned idx1, hwloc_obj_type_t type2, unsigned idx2)
Find an object below another object, both specified by types and indexes.
Definition: helper.h:821
hwloc_obj_t hwloc_get_obj_with_same_locality(hwloc_topology_t topology, hwloc_obj_t src, hwloc_obj_type_t type, const char *subtype, const char *nameprefix, unsigned long flags)
Return an object of a different type with same locality.
static hwloc_obj_t hwloc_get_numanode_obj_by_os_index(hwloc_topology_t topology, unsigned os_index)
Returns the object of type HWLOC_OBJ_NUMANODE with os_index.
Definition: helper.h:779
static hwloc_obj_t hwloc_get_obj_below_array_by_type(hwloc_topology_t topology, int nr, hwloc_obj_type_t *typev, unsigned *idxv)
Find an object below a chain of objects specified by types and indexes.
Definition: helper.h:855
static int hwloc_distrib(hwloc_topology_t topology, hwloc_obj_t *roots, unsigned n_roots, hwloc_cpuset_t *set, unsigned n, int until, unsigned long flags)
Distribute n items over the topology under roots.
Definition: helper.h:950
hwloc_distrib_flags_e
Flags to be given to hwloc_distrib().
Definition: helper.h:920
@ HWLOC_DISTRIB_FLAG_REVERSE
Distrib in reverse order, starting from the last objects.
Definition: helper.h:924
hwloc_const_nodeset_t hwloc_topology_get_allowed_nodeset(hwloc_topology_t topology)
Get allowed node set.
hwloc_const_nodeset_t hwloc_topology_get_topology_nodeset(hwloc_topology_t topology)
Get topology node set.
hwloc_const_cpuset_t hwloc_topology_get_allowed_cpuset(hwloc_topology_t topology)
Get allowed CPU set.
hwloc_const_nodeset_t hwloc_topology_get_complete_nodeset(hwloc_topology_t topology)
Get complete node set.
hwloc_const_cpuset_t hwloc_topology_get_topology_cpuset(hwloc_topology_t topology)
Get topology CPU set.
hwloc_const_cpuset_t hwloc_topology_get_complete_cpuset(hwloc_topology_t topology)
Get complete CPU set.
static int hwloc_cpuset_to_nodeset(hwloc_topology_t topology, hwloc_const_cpuset_t _cpuset, hwloc_nodeset_t nodeset)
Convert a CPU set into a NUMA node set.
Definition: helper.h:1145
static int hwloc_cpuset_from_nodeset(hwloc_topology_t topology, hwloc_cpuset_t _cpuset, hwloc_const_nodeset_t nodeset)
Convert a NUMA node set into a CPU set.
Definition: helper.h:1172
static int hwloc_bridge_covers_pcibus(hwloc_obj_t bridge, unsigned domain, unsigned bus)
Definition: helper.h:1302
static hwloc_obj_t hwloc_get_pcidev_by_busidstring(hwloc_topology_t topology, const char *busid)
Find the PCI device object matching the PCI bus id given as a string xxxx:yy:zz.t or yy:zz....
Definition: helper.h:1259
static hwloc_obj_t hwloc_get_next_pcidev(hwloc_topology_t topology, hwloc_obj_t prev)
Get the next PCI device in the system.
Definition: helper.h:1228
static hwloc_obj_t hwloc_get_next_osdev(hwloc_topology_t topology, hwloc_obj_t prev)
Get the next OS device in the system.
Definition: helper.h:1280
static hwloc_obj_t hwloc_get_next_bridge(hwloc_topology_t topology, hwloc_obj_t prev)
Get the next bridge in the system.
Definition: helper.h:1292
static hwloc_obj_t hwloc_get_pcidev_by_busid(hwloc_topology_t topology, unsigned domain, unsigned bus, unsigned dev, unsigned func)
Find the PCI device object matching the PCI bus id given domain, bus device and function PCI bus id.
Definition: helper.h:1239
static hwloc_obj_t hwloc_get_non_io_ancestor_obj(hwloc_topology_t topology, hwloc_obj_t ioobj)
Get the first non-I/O ancestor object.
Definition: helper.h:1211
int hwloc_bitmap_weight(hwloc_const_bitmap_t bitmap)
Compute the "weight" of bitmap bitmap (i.e., number of indexes that are in the bitmap).
int hwloc_bitmap_isincluded(hwloc_const_bitmap_t sub_bitmap, hwloc_const_bitmap_t super_bitmap)
Test whether bitmap sub_bitmap is part of bitmap super_bitmap.
int hwloc_bitmap_set(hwloc_bitmap_t bitmap, unsigned id)
Add index id in bitmap bitmap.
int hwloc_bitmap_isset(hwloc_const_bitmap_t bitmap, unsigned id)
Test whether index id is part of bitmap bitmap.
int hwloc_bitmap_or(hwloc_bitmap_t res, hwloc_const_bitmap_t bitmap1, hwloc_const_bitmap_t bitmap2)
Or bitmaps bitmap1 and bitmap2 and store the result in bitmap res.
int hwloc_bitmap_isequal(hwloc_const_bitmap_t bitmap1, hwloc_const_bitmap_t bitmap2)
Test whether bitmap bitmap1 is equal to bitmap bitmap2.
int hwloc_bitmap_iszero(hwloc_const_bitmap_t bitmap)
Test whether bitmap bitmap is empty.
struct hwloc_bitmap_s * hwloc_bitmap_t
Set of bits represented as an opaque pointer to an internal bitmap.
Definition: bitmap.h:69
void hwloc_bitmap_zero(hwloc_bitmap_t bitmap)
Empty the bitmap bitmap.
hwloc_bitmap_t hwloc_bitmap_dup(hwloc_const_bitmap_t bitmap)
Duplicate bitmap bitmap by allocating a new bitmap and copying bitmap contents.
int hwloc_bitmap_intersects(hwloc_const_bitmap_t bitmap1, hwloc_const_bitmap_t bitmap2)
Test whether bitmaps bitmap1 and bitmap2 intersects.
Structure of a topology object.
Definition: hwloc.h:420
struct hwloc_obj ** children
Normal children, children[0 .. arity -1].
Definition: hwloc.h:480
hwloc_nodeset_t nodeset
NUMA nodes covered by this object or containing this object.
Definition: hwloc.h:564
int depth
Vertical index in the hierarchy.
Definition: hwloc.h:443
struct hwloc_obj * misc_first_child
First Misc child. Misc objects are listed here (misc_arity and misc_first_child) instead of in the no...
Definition: hwloc.h:529
char * subtype
Subtype string to better describe the type field.
Definition: hwloc.h:423
unsigned os_index
OS-provided physical index number. It is not guaranteed unique across the entire machine,...
Definition: hwloc.h:425
hwloc_cpuset_t cpuset
CPUs covered by this object.
Definition: hwloc.h:536
struct hwloc_obj * next_sibling
Next object below the same parent (inside the same list of children).
Definition: hwloc.h:472
struct hwloc_obj * next_cousin
Next object of same type and depth.
Definition: hwloc.h:466
struct hwloc_obj * io_first_child
First I/O child. Bridges, PCI and OS devices are listed here (io_arity and io_first_child) instead of...
Definition: hwloc.h:517
unsigned arity
Number of normal children. Memory, Misc and I/O children are not listed here but rather in their dedi...
Definition: hwloc.h:476
struct hwloc_obj * memory_first_child
First Memory child. NUMA nodes and Memory-side caches are listed here (memory_arity and memory_first_...
Definition: hwloc.h:499
struct hwloc_obj * prev_cousin
Previous object of same type and depth.
Definition: hwloc.h:467
hwloc_obj_type_t type
Type of object.
Definition: hwloc.h:422
union hwloc_obj_attr_u * attr
Object type-specific Attributes, may be NULL if no attribute value was found.
Definition: hwloc.h:439
struct hwloc_obj * parent
Parent, NULL if root (Machine object)
Definition: hwloc.h:470
struct hwloc_obj * first_child
First normal child.
Definition: hwloc.h:481
struct hwloc_obj_attr_u::hwloc_pcidev_attr_s pcidev
struct hwloc_obj_attr_u::hwloc_bridge_attr_s bridge
struct hwloc_obj_attr_u::hwloc_cache_attr_s cache
unsigned depth
Depth of cache (e.g., L1, L2, ...etc.)
Definition: hwloc.h:642
hwloc_obj_cache_type_t type
Cache type.
Definition: hwloc.h:646
unsigned char dev
Definition: hwloc.h:663
unsigned char func
Definition: hwloc.h:663
unsigned short domain
Definition: hwloc.h:659
unsigned char bus
Definition: hwloc.h:663
union hwloc_obj_attr_u::hwloc_bridge_attr_s::@1 downstream
struct hwloc_pcidev_attr_s pci
Definition: hwloc.h:672
hwloc_obj_bridge_type_t downstream_type
Definition: hwloc.h:685