xref: /freebsd/share/man/man9/bitset.9 (revision f61e92ca5a23450bc28169bbdd71d7674df98c19)
1.\" Copyright (c) 2015 Conrad Meyer <cem@FreeBSD.org>
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25.\" $FreeBSD$
26.\"
27.Dd December 31, 2020
28.Dt BITSET 9
29.Os
30.Sh NAME
31.Nm bitset(9)
32\(em
33.Nm BITSET_DEFINE ,
34.Nm BITSET_T_INITIALIZER ,
35.Nm BITSET_FSET ,
36.Nm BIT_CLR ,
37.Nm BIT_COPY ,
38.Nm BIT_ISSET ,
39.Nm BIT_SET ,
40.Nm BIT_ZERO ,
41.Nm BIT_FILL ,
42.Nm BIT_SETOF ,
43.Nm BIT_EMPTY ,
44.Nm BIT_ISFULLSET ,
45.Nm BIT_FFS ,
46.Nm BIT_FFS_AT ,
47.Nm BIT_FLS ,
48.Nm BIT_COUNT ,
49.Nm BIT_SUBSET ,
50.Nm BIT_OVERLAP ,
51.Nm BIT_CMP ,
52.Nm BIT_OR ,
53.Nm BIT_OR2 ,
54.Nm BIT_AND ,
55.Nm BIT_AND2 ,
56.Nm BIT_ANDNOT ,
57.Nm BIT_ANDNOT2 ,
58.Nm BIT_XOR ,
59.Nm BIT_XOR2 ,
60.Nm BIT_CLR_ATOMIC ,
61.Nm BIT_SET_ATOMIC ,
62.Nm BIT_SET_ATOMIC_ACQ ,
63.Nm BIT_TEST_SET_ATOMIC ,
64.Nm BIT_TEST_CLR_ATOMIC ,
65.Nm BIT_AND_ATOMIC ,
66.Nm BIT_OR_ATOMIC ,
67.Nm BIT_COPY_STORE_REL
68.Nd bitset manipulation macros
69.Sh SYNOPSIS
70.In sys/_bitset.h
71.In sys/bitset.h
72.\"
73.Fn BITSET_DEFINE "STRUCTNAME" "const SETSIZE"
74.Fn BITSET_T_INITIALIZER "ARRAY_CONTENTS"
75.Fn BITSET_FSET "N_WORDS"
76.\"
77.Fn BIT_CLR "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
78.Fn BIT_COPY "const SETSIZE" "struct STRUCTNAME *from" "struct STRUCTNAME *to"
79.Ft bool
80.Fn BIT_ISSET "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
81.Fn BIT_SET "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
82.Fn BIT_ZERO "const SETSIZE" "struct STRUCTNAME *bitset"
83.Fn BIT_FILL "const SETSIZE" "struct STRUCTNAME *bitset"
84.Fn BIT_SETOF "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
85.Ft bool
86.Fn BIT_EMPTY "const SETSIZE" "struct STRUCTNAME *bitset"
87.Ft bool
88.Fn BIT_ISFULLSET "const SETSIZE" "struct STRUCTNAME *bitset"
89.Ft long
90.Fn BIT_FFS "const SETSIZE" "struct STRUCTNAME *bitset"
91.Ft long
92.Fn BIT_FFS_AT "const SETSIZE" "struct STRUCTNAME *bitset" "long start"
93.Ft long
94.Fn BIT_FLS "const SETSIZE" "struct STRUCTNAME *bitset"
95.Ft long
96.Fn BIT_COUNT "const SETSIZE" "struct STRUCTNAME *bitset"
97.\"
98.Ft bool
99.Fo BIT_SUBSET
100.Fa "const SETSIZE" "struct STRUCTNAME *haystack" "struct STRUCTNAME *needle"
101.Fc
102.Ft bool
103.Fo BIT_OVERLAP
104.Fa "const SETSIZE" "struct STRUCTNAME *bitset1" "struct STRUCTNAME *bitset2"
105.Fc
106.Ft bool
107.Fo BIT_CMP
108.Fa "const SETSIZE" "struct STRUCTNAME *bitset1" "struct STRUCTNAME *bitset2"
109.Fc
110.Fn BIT_OR "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
111.Fo BIT_OR2
112.Fa "const SETSIZE"
113.Fa "struct STRUCTNAME *dst"
114.Fa "struct STRUCTNAME *src1"
115.Fa "struct STRUCTNAME *src2"
116.Fc
117.Fn BIT_AND "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
118.Fo BIT_AND2
119.Fa "const SETSIZE"
120.Fa "struct STRUCTNAME *dst"
121.Fa "struct STRUCTNAME *src1"
122.Fa "struct STRUCTNAME *src2"
123.Fc
124.Fn BIT_ANDNOT "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
125.Fo BIT_ANDNOT2
126.Fa "const SETSIZE"
127.Fa "struct STRUCTNAME *dst"
128.Fa "struct STRUCTNAME *src1"
129.Fa "struct STRUCTNAME *src2"
130.Fc
131.Fn BIT_XOR "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
132.Fo BIT_XOR2
133.Fa "const SETSIZE"
134.Fa "struct STRUCTNAME *dst"
135.Fa "struct STRUCTNAME *src1"
136.Fa "struct STRUCTNAME *src2"
137.Fc
138.\"
139.Fn BIT_CLR_ATOMIC "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
140.Fn BIT_SET_ATOMIC "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
141.Fn BIT_SET_ATOMIC_ACQ "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
142.Ft bool
143.Fn BIT_TEST_SET_ATOMIC "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
144.Ft bool
145.Fn BIT_TEST_CLR_ATOMIC "const SETSIZE" "size_t bit" "struct STRUCTNAME *bitset"
146.\"
147.Fo BIT_AND_ATOMIC
148.Fa "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
149.Fc
150.Fo BIT_OR_ATOMIC
151.Fa "const SETSIZE" "struct STRUCTNAME *dst" "struct STRUCTNAME *src"
152.Fc
153.Fo BIT_COPY_STORE_REL
154.Fa "const SETSIZE" "struct STRUCTNAME *from" "struct STRUCTNAME *to"
155.Fc
156.Sh DESCRIPTION
157The
158.Nm
159family of macros provide a flexible and efficient bitset implementation if the
160maximum size of the set is known at compilation.
161Throughout this manual page, the name
162.Fa SETSIZE
163refers to the size of the bitset in bits.
164Individual bits in bitsets are referenced with indices zero through
165.Fa SETSIZE - 1 .
166One example use of
167.In sys/bitset.h
168is
169.In sys/cpuset.h .
170.Pp
171The
172.Fn BITSET_DEFINE
173macro defines a bitset struct
174.Fa STRUCTNAME
175with room to represent
176.Fa SETSIZE
177bits.
178.Pp
179The
180.Fn BITSET_T_INITIALIZER
181macro allows one to initialize a bitset struct with a compile time literal
182value.
183.Pp
184The
185.Fn BITSET_FSET
186macro generates a compile time literal, usable by
187.Fn BITSET_T_INITIALIZER ,
188representing a full bitset (all bits set).
189For examples of
190.Fn BITSET_T_INITIALIZER
191and
192.Fn BITSET_FSET
193usage, see the
194.Sx BITSET_T_INITIALIZER EXAMPLE
195section.
196The
197.Fa N_WORDS
198parameter to
199.Fn BITSET_FSET
200should be:
201.Bd -literal -offset indent
202__bitset_words(SETSIZE)
203.Ed
204.Pp
205The
206.Fn BIT_CLR
207macro clears bit
208.Fa bit
209in the bitset pointed to by
210.Fa bitset .
211The
212.Fn BIT_CLR_ATOMIC
213macro is identical, but the bit is cleared atomically.
214The
215.Fn BIT_TEST_CLR_ATOMIC
216macro atomically clears the bit and returns whether it was set.
217.Pp
218The
219.Fn BIT_COPY
220macro copies the contents of the bitset
221.Fa from
222to the bitset
223.Fa to .
224.Fn BIT_COPY_STORE_REL
225is similar, but copies component machine words from
226.Fa from
227and writes them to
228.Fa to
229with atomic store with release semantics.
230(That is, if
231.Fa to
232is composed of multiple machine words,
233.Fn BIT_COPY_STORE_REL
234performs multiple individually atomic operations.)
235.Pp
236The
237.Fn BIT_SET
238macro sets bit
239.Fa bit
240in the bitset pointed to by
241.Fa bitset .
242The
243.Fn BIT_SET_ATOMIC
244macro is identical, but the bit is set atomically.
245The
246.Fn BIT_SET_ATOMIC_ACQ
247macro sets the bit with acquire semantics.
248The
249.Fn BIT_TEST_SET_ATOMIC
250macro atomically sets the bit and returns whether it was set.
251.Pp
252The
253.Fn BIT_ZERO
254macro clears all bits in
255.Fa bitset .
256.Pp
257The
258.Fn BIT_FILL
259macro sets all bits in
260.Fa bitset .
261.Pp
262The
263.Fn BIT_SETOF
264macro clears all bits in
265.Fa bitset
266before setting only bit
267.Fa bit .
268.Pp
269The
270.Fn BIT_EMPTY
271macro returns
272.Dv true
273if
274.Fa bitset
275is empty.
276.Pp
277The
278.Fn BIT_ISFULLSET
279macro returns
280.Dv true
281if
282.Fa bitset
283is full (all bits set).
284.Pp
285The
286.Fn BIT_FFS
287macro returns the 1-index of the first (lowest) set bit in
288.Fa bitset ,
289or zero if
290.Fa bitset
291is empty.
292Like with
293.Xr ffs 3 ,
294to use the non-zero result of
295.Fn BIT_FFS
296as a
297.Fa bit
298index parameter to any other
299.Nm
300macro, you must subtract one from the result.
301.Pp
302The
303.Fn BIT_FFS_AT
304macro returns the 1-index of the first (lowest) set bit in
305.Fa bitset ,
306which is greater than the given 1-indexed
307.Fa start ,
308or zero if no bits in
309.Fa bitset
310greater than
311.Fa start
312are set.
313.Pp
314The
315.Fn BIT_FLS
316macro returns the 1-index of the last (highest) set bit in
317.Fa bitset ,
318or zero if
319.Fa bitset
320is empty.
321Like with
322.Xr fls 3 ,
323to use the non-zero result of
324.Fn BIT_FLS
325as a
326.Fa bit
327index parameter to any other
328.Nm
329macro, you must subtract one from the result.
330.Pp
331The
332.Fn BIT_COUNT
333macro returns the total number of set bits in
334.Fa bitset .
335.Pp
336The
337.Fn BIT_SUBSET
338macro returns
339.Dv true
340if
341.Fa needle
342is a subset of
343.Fa haystack .
344.Pp
345The
346.Fn BIT_OVERLAP
347macro returns
348.Dv true
349if
350.Fa bitset1
351and
352.Fa bitset2
353have any common bits.
354(That is, if
355.Fa bitset1
356AND
357.Fa bitset2
358is not the empty set.)
359.Pp
360The
361.Fn BIT_CMP
362macro returns
363.Dv true
364if
365.Fa bitset1
366is NOT equal to
367.Fa bitset2 .
368.Pp
369The
370.Fn BIT_OR
371macro sets bits present in
372.Fa src
373in
374.Fa dst .
375(It is the
376.Nm
377equivalent of the scalar:
378.Fa dst
379|=
380.Fa src . )
381.Fn BIT_OR_ATOMIC
382is similar, but sets bits in the component machine words in
383.Fa dst
384atomically.
385(That is, if
386.Fa dst
387is composed of multiple machine words,
388.Fn BIT_OR_ATOMIC
389performs multiple individually atomic operations.)
390.Pp
391The
392.Fn BIT_OR2
393macro computes
394.Fa src1
395bitwise or
396.Fa src2
397and assigns the result to
398.Fa dst .
399(It is the
400.Nm
401equivalent of the scalar:
402.Fa dst
403=
404.Fa src1
405|
406.Fa src2 . )
407.Pp
408The
409.Fn BIT_AND
410macro clears bits absent from
411.Fa src
412from
413.Fa dst .
414(It is the
415.Nm
416equivalent of the scalar:
417.Fa dst
418&=
419.Fa src . )
420.Fn BIT_AND_ATOMIC
421is similar, with the same atomic semantics as
422.Fn BIT_OR_ATOMIC .
423.Pp
424The
425.Fn BIT_AND2
426macro computes
427.Fa src1
428bitwise and
429.Fa src2
430and assigns the result to
431.Fa dst .
432(It is the
433.Nm
434equivalent of the scalar:
435.Fa dst
436=
437.Fa src1
438&
439.Fa src2 . )
440.Pp
441The
442.Fn BIT_ANDNOT
443macro clears bits set in
444.Fa src
445from
446.Fa dst .
447(It is the
448.Nm
449equivalent of the scalar:
450.Fa dst
451&=
452.Fa ~ src . )
453.Pp
454The
455.Fn BIT_ANDNOT2
456macro computes
457.Fa src1
458bitwise and not
459.Fa src2
460and assigns the result to
461.Fa dst .
462(It is the
463.Nm
464equivalent of the scalar:
465.Fa dst
466=
467.Fa src1
468& ~
469.Fa src2 . )
470.Pp
471The
472.Fn BIT_XOR
473macro toggles bits set in
474.Fa src
475in
476.Fa dst .
477(It is the
478.Nm
479equivalent of the scalar:
480.Fa dst
481^=
482.Fa src . )
483.Pp
484The
485.Fn BIT_XOR2
486macro computes
487.Fa src1
488bitwise exclusive or
489.Fa src2
490and assigns the result to
491.Fa dst .
492(It is the
493.Nm
494equivalent of the scalar:
495.Fa dst
496=
497.Fa src1
498^
499.Fa src2 . )
500.Sh BITSET_T_INITIALIZER EXAMPLE
501.Bd -literal
502BITSET_DEFINE(_myset, MYSETSIZE);
503
504struct _myset myset;
505
506/* Initialize myset to filled (all bits set) */
507myset = BITSET_T_INITIALIZER(BITSET_FSET(__bitset_words(MYSETSIZE)));
508
509/* Initialize myset to only the lowest bit set */
510myset = BITSET_T_INITIALIZER(0x1);
511.Ed
512.Sh SEE ALSO
513.Xr bitstring 3 ,
514.Xr cpuset 9
515.Sh HISTORY
516The
517.Nm
518macros first appeared in
519.Fx 10.0
520in January 2014.
521They were MFCed to
522.Fx 9.3 ,
523released in July 2014.
524.Pp
525This manual page first appeared in
526.Fx 11.0 .
527.Sh AUTHORS
528.An -nosplit
529The
530.Nm
531macros were generalized and pulled out of
532.In sys/cpuset.h
533as
534.In sys/_bitset.h
535and
536.In sys/bitset.h
537by
538.An Attilio Rao Aq Mt attilio@FreeBSD.org .
539This manual page was written by
540.An Conrad Meyer Aq Mt cem@FreeBSD.org .
541.Sh CAVEATS
542The
543.Fa SETSIZE
544argument to all of these macros must match the value given to
545.Fn BITSET_DEFINE .
546.Pp
547Unlike every other reference to individual set members, which are zero-indexed,
548.Fn BIT_FFS ,
549.Fn BIT_FFS_AT
550and
551.Fn BIT_FLS
552return a one-indexed result (or zero if the set is empty).
553