xref: /freebsd/lib/libc/stdlib/qsort.3 (revision 8bcb0991864975618c09697b1aca10683346d9f0)
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32.\"     @(#)qsort.3	8.1 (Berkeley) 6/4/93
33.\" $FreeBSD$
34.\"
35.Dd January 20, 2020
36.Dt QSORT 3
37.Os
38.Sh NAME
39.Nm qsort ,
40.Nm qsort_b ,
41.Nm qsort_r ,
42.Nm heapsort ,
43.Nm heapsort_b ,
44.Nm mergesort ,
45.Nm mergesort_b
46.Nd sort functions
47.Sh LIBRARY
48.Lb libc
49.Sh SYNOPSIS
50.In stdlib.h
51.Ft void
52.Fo qsort
53.Fa "void *base"
54.Fa "size_t nmemb"
55.Fa "size_t size"
56.Fa "int \*[lp]*compar\*[rp]\*[lp]const void *, const void *\*[rp]"
57.Fc
58.Ft void
59.Fo qsort_b
60.Fa "void *base"
61.Fa "size_t nmemb"
62.Fa "size_t size"
63.Fa "int \*[lp]^compar\*[rp]\*[lp]const void *, const void *\*[rp]"
64.Fc
65.Ft void
66.Fo qsort_r
67.Fa "void *base"
68.Fa "size_t nmemb"
69.Fa "size_t size"
70.Fa "void *thunk"
71.Fa "int \*[lp]*compar\*[rp]\*[lp]void *, const void *, const void *\*[rp]"
72.Fc
73.Ft int
74.Fo heapsort
75.Fa "void *base"
76.Fa "size_t nmemb"
77.Fa "size_t size"
78.Fa "int \*[lp]*compar\*[rp]\*[lp]const void *, const void *\*[rp]"
79.Fc
80.Ft int
81.Fo heapsort_b
82.Fa "void *base"
83.Fa "size_t nmemb"
84.Fa "size_t size"
85.Fa "int \*[lp]^compar\*[rp]\*[lp]const void *, const void *\*[rp]"
86.Fc
87.Ft int
88.Fo mergesort
89.Fa "void *base"
90.Fa "size_t nmemb"
91.Fa "size_t size"
92.Fa "int \*[lp]*compar\*[rp]\*[lp]const void *, const void *\*[rp]"
93.Fc
94.Ft int
95.Fo mergesort_b
96.Fa "void *base"
97.Fa "size_t nmemb"
98.Fa "size_t size"
99.Fa "int \*[lp]^compar\*[rp]\*[lp]const void *, const void *\*[rp]"
100.Fc
101.Fd #define __STDC_WANT_LIB_EXT1__ 1
102.Ft errno_t
103.Fo qsort_s
104.Fa "void *base"
105.Fa "rsize_t nmemb"
106.Fa "rsize_t size"
107.Fa "int \*[lp]*compar\*[rp]\*[lp]const void *, const void *, void *\*[rp]"
108.Fa "void *thunk"
109.Fc
110.Sh DESCRIPTION
111The
112.Fn qsort
113function is a modified partition-exchange sort, or quicksort.
114The
115.Fn heapsort
116function is a modified selection sort.
117The
118.Fn mergesort
119function is a modified merge sort with exponential search
120intended for sorting data with pre-existing order.
121.Pp
122The
123.Fn qsort
124and
125.Fn heapsort
126functions sort an array of
127.Fa nmemb
128objects, the initial member of which is pointed to by
129.Fa base .
130The size of each object is specified by
131.Fa size .
132The
133.Fn mergesort
134function
135behaves similarly, but
136.Em requires
137that
138.Fa size
139be greater than
140.Dq "sizeof(void *) / 2" .
141.Pp
142The contents of the array
143.Fa base
144are sorted in ascending order according to
145a comparison function pointed to by
146.Fa compar ,
147which requires two arguments pointing to the objects being
148compared.
149.Pp
150The comparison function must return an integer less than, equal to, or
151greater than zero if the first argument is considered to be respectively
152less than, equal to, or greater than the second.
153.Pp
154The
155.Fn qsort_r
156function behaves identically to
157.Fn qsort ,
158except that it takes an additional argument,
159.Fa thunk ,
160which is passed unchanged as the first argument to function pointed to
161.Fa compar .
162This allows the comparison function to access additional
163data without using global variables, and thus
164.Fn qsort_r
165is suitable for use in functions which must be reentrant.
166The
167.Fn qsort_b
168function behaves identically to
169.Fn qsort ,
170except that it takes a block, rather than a function pointer.
171.Pp
172The algorithms implemented by
173.Fn qsort ,
174.Fn qsort_r ,
175and
176.Fn heapsort
177are
178.Em not
179stable, that is, if two members compare as equal, their order in
180the sorted array is undefined.
181The
182.Fn heapsort_b
183function behaves identically to
184.Fn heapsort ,
185except that it takes a block, rather than a function pointer.
186The
187.Fn mergesort
188algorithm is stable.
189The
190.Fn mergesort_b
191function behaves identically to
192.Fn mergesort ,
193except that it takes a block, rather than a function pointer.
194.Pp
195The
196.Fn qsort
197and
198.Fn qsort_r
199functions are an implementation of C.A.R.
200Hoare's
201.Dq quicksort
202algorithm,
203a variant of partition-exchange sorting; in particular, see
204.An D.E. Knuth Ns 's
205.%T "Algorithm Q" .
206.Sy Quicksort
207takes O N lg N average time.
208This implementation uses median selection to avoid its
209O N**2 worst-case behavior.
210.Pp
211The
212.Fn heapsort
213function is an implementation of
214.An "J.W.J. William" Ns 's
215.Dq heapsort
216algorithm,
217a variant of selection sorting; in particular, see
218.An "D.E. Knuth" Ns 's
219.%T "Algorithm H" .
220.Sy Heapsort
221takes O N lg N worst-case time.
222Its
223.Em only
224advantage over
225.Fn qsort
226is that it uses almost no additional memory; while
227.Fn qsort
228does not allocate memory, it is implemented using recursion.
229.Pp
230The function
231.Fn mergesort
232requires additional memory of size
233.Fa nmemb *
234.Fa size
235bytes; it should be used only when space is not at a premium.
236The
237.Fn mergesort
238function
239is optimized for data with pre-existing order; its worst case
240time is O N lg N; its best case is O N.
241.Pp
242Normally,
243.Fn qsort
244is faster than
245.Fn mergesort
246is faster than
247.Fn heapsort .
248Memory availability and pre-existing order in the data can make this
249untrue.
250.Pp
251The
252.Fn qsort_s
253function behaves the same as
254.Fn qsort_r , except that:
255.Bl -dash
256.It
257The order of arguments is different
258.It
259The order of arguments to
260.Fa compar
261is different
262.It
263if
264.Fa nmemb
265or
266.Fa size
267are greater than
268.Dv RSIZE_MAX ,
269or
270.Fa nmemb
271is not zero and
272.Fa compar
273is NULL, then the runtime-constraint handler is called, and
274.Fn qsort_s
275returns an error.
276Note that the handler is called before
277.Fn qsort_s
278returns the error, and the handler function might not return.
279.El
280.Sh RETURN VALUES
281The
282.Fn qsort
283and
284.Fn qsort_r
285functions
286return no value.
287The
288.Fn qsort_s
289function returns zero on success, non-zero on error.
290.Pp
291.Rv -std heapsort mergesort
292.Sh EXAMPLES
293A sample program that sorts an array of
294.Vt int
295values in place using
296.Fn qsort ,
297and then prints the sorted array to standard output is:
298.Bd -literal
299#include <stdio.h>
300#include <stdlib.h>
301
302/*
303 * Custom comparison function that compares 'int' values through pointers
304 * passed by qsort(3).
305 */
306static int
307int_compare(const void *p1, const void *p2)
308{
309	int left = *(const int *)p1;
310	int right = *(const int *)p2;
311
312	return ((left > right) - (left < right));
313}
314
315/*
316 * Sort an array of 'int' values and print it to standard output.
317 */
318int
319main(void)
320{
321	int int_array[] = { 4, 5, 9, 3, 0, 1, 7, 2, 8, 6 };
322	size_t array_size = sizeof(int_array) / sizeof(int_array[0]);
323	size_t k;
324
325	qsort(&int_array, array_size, sizeof(int_array[0]), int_compare);
326	for (k = 0; k < array_size; k++)
327		printf(" %d", int_array[k]);
328	puts("");
329	return (EXIT_SUCCESS);
330}
331.Ed
332.Sh COMPATIBILITY
333The order of arguments for the comparison function used with
334.Fn qsort_r
335is different from the one used by
336.Fn qsort_s ,
337and the GNU libc implementation of
338.Fn qsort_r .
339When porting software written for GNU libc, it is usually possible
340to replace
341.Fn qsort_r
342with
343.Fn qsort_s
344to work around this problem.
345.Pp
346.Fn qsort_s
347is part of the
348.Em optional
349Annex K portion of
350.St -isoC-2011
351and may not be portable to other standards-conforming platforms.
352.Pp
353Previous versions of
354.Fn qsort
355did not permit the comparison routine itself to call
356.Fn qsort 3 .
357This is no longer true.
358.Sh ERRORS
359The
360.Fn heapsort
361and
362.Fn mergesort
363functions succeed unless:
364.Bl -tag -width Er
365.It Bq Er EINVAL
366The
367.Fa size
368argument is zero, or,
369the
370.Fa size
371argument to
372.Fn mergesort
373is less than
374.Dq "sizeof(void *) / 2" .
375.It Bq Er ENOMEM
376The
377.Fn heapsort
378or
379.Fn mergesort
380functions
381were unable to allocate memory.
382.El
383.Sh SEE ALSO
384.Xr sort 1 ,
385.Xr radixsort 3
386.Rs
387.%A Hoare, C.A.R.
388.%D 1962
389.%T "Quicksort"
390.%J "The Computer Journal"
391.%V 5:1
392.%P pp. 10-15
393.Re
394.Rs
395.%A Williams, J.W.J
396.%D 1964
397.%T "Heapsort"
398.%J "Communications of the ACM"
399.%V 7:1
400.%P pp. 347-348
401.Re
402.Rs
403.%A Knuth, D.E.
404.%D 1968
405.%B "The Art of Computer Programming"
406.%V Vol. 3
407.%T "Sorting and Searching"
408.%P pp. 114-123, 145-149
409.Re
410.Rs
411.%A McIlroy, P.M.
412.%T "Optimistic Sorting and Information Theoretic Complexity"
413.%J "Fourth Annual ACM-SIAM Symposium on Discrete Algorithms"
414.%V January 1992
415.Re
416.Rs
417.%A Bentley, J.L.
418.%A McIlroy, M.D.
419.%T "Engineering a Sort Function"
420.%J "Software--Practice and Experience"
421.%V Vol. 23(11)
422.%P pp. 1249-1265
423.%D November\ 1993
424.Re
425.Sh STANDARDS
426The
427.Fn qsort
428function
429conforms to
430.St -isoC .
431.Fn qsort_s
432conforms to
433.St -isoC-2011
434K.3.6.3.2.
435.Sh HISTORY
436The variants of these functions that take blocks as arguments first appeared in
437Mac OS X.
438This implementation was created by David Chisnall.
439