This commit was manufactured by cvs2git to create tag 'butholakala'.butholakala

author: cvs2svn <admin@example.com> 2014-04-13 15:49:51 +0000
committer: cvs2svn <admin@example.com> 2014-04-13 15:49:51 +0000
commit: 9ef0d5fb5b0acfd35d73a5557198f46525ab1667 (patch)
tree: 61e7e25839f716a30db270f15cddf0be6903781f /src/lib/libc/stdlib/radixsort.c
parent: ff237038a541d51619efa5b36fb251c8dc1e9637 (diff)
download: openbsd-butholakala.tar.gz
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1 files changed, 0 insertions, 294 deletions
diff --git a/src/lib/libc/stdlib/radixsort.c b/src/lib/libc/stdlib/radixsort.c
deleted file mode 100644
index 49d03b52d5..0000000000
--- a/src/lib/libc/stdlib/radixsort.c
+++ /dev/null
@@ -1,294 +0,0 @@
-/*      $OpenBSD: radixsort.c,v 1.9 2007/09/02 15:19:17 deraadt Exp $ */
-/*-
- * Copyright (c) 1990, 1993
- *      The Regents of the University of California.  All rights reserved.
- *
- * This code is derived from software contributed to Berkeley by
- * Peter McIlroy and by Dan Bernstein at New York University, 
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions
- * are met:
- * 1. Redistributions of source code must retain the above copyright
- *    notice, this list of conditions and the following disclaimer.
- * 2. Redistributions in binary form must reproduce the above copyright
- *    notice, this list of conditions and the following disclaimer in the
- *    documentation and/or other materials provided with the distribution.
- * 3. Neither the name of the University nor the names of its contributors
- *    may be used to endorse or promote products derived from this software
- *    without specific prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
- * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
- * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
- * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
- * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
- * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
- * SUCH DAMAGE.
- */
-/*
- * Radixsort routines.
- * 
- * Program r_sort_a() is unstable but uses O(logN) extra memory for a stack.
- * Use radixsort(a, n, trace, endchar) for this case.
- * 
- * For stable sorting (using N extra pointers) use sradixsort(), which calls
- * r_sort_b().
- * 
- * For a description of this code, see D. McIlroy, P. McIlroy, K. Bostic,
- * "Engineering Radix Sort".
- */
-#include <sys/types.h>
-#include <stdlib.h>
-#include <errno.h>
-typedef struct {
-        const u_char **sa;
-        int sn, si;
-} stack;
-static __inline void simplesort
-(const u_char **, int, int, const u_char *, u_int);
-static void r_sort_a(const u_char **, int, int, const u_char *, u_int);
-static void r_sort_b(const u_char **,
-            const u_char **, int, int, const u_char *, u_int);
-#define THRESHOLD       20              /* Divert to simplesort(). */
-#define SIZE            512             /* Default stack size. */
-#define SETUP {                                                         \
-        if (tab == NULL) {                                              \
-                tr = tr0;                                               \
-                for (c = 0; c < endch; c++)                             \
-                        tr0[c] = c + 1;                                 \
-                tr0[c] = 0;                                             \
-                for (c++; c < 256; c++)                                 \
-                        tr0[c] = c;                                     \
-                endch = 0;                                              \
-        } else {                                                        \
-                endch = tab[endch];                                     \
-                tr = tab;                                               \
-                if (endch != 0 && endch != 255) {                       \
-                        errno = EINVAL;                                 \
-                        return (-1);                                    \
-                }                                                       \
-        }                                                               \
-}
-int
-radixsort(const u_char **a, int n, const u_char *tab, u_int endch)
-{
-        const u_char *tr;
-        int c;
-        u_char tr0[256];
-        SETUP;
-        r_sort_a(a, n, 0, tr, endch);
-        return (0);
-}
-int
-sradixsort(const u_char **a, int n, const u_char *tab, u_int endch)
-{
-        const u_char *tr, **ta;
-        int c;
-        u_char tr0[256];
-        SETUP;
-        if (n < THRESHOLD)
-                simplesort(a, n, 0, tr, endch);
-        else {
-                if ((ta = calloc(n, sizeof(a))) == NULL)
-                        return (-1);
-                r_sort_b(a, ta, n, 0, tr, endch);
-                free(ta);
-        }
-        return (0);
-}
-#define empty(s)        (s >= sp)
-#define pop(a, n, i)    a = (--sp)->sa, n = sp->sn, i = sp->si
-#define push(a, n, i)   sp->sa = a, sp->sn = n, (sp++)->si = i
-#define swap(a, b, t)   t = a, a = b, b = t
-/* Unstable, in-place sort. */
-void
-r_sort_a(const u_char **a, int n, int i, const u_char *tr, u_int endch)
-{
-        static int count[256], nc, bmin;
-        int c;
-        const u_char **ak, *r;
-        stack s[SIZE], *sp, *sp0, *sp1, temp;
-        int *cp, bigc;
-        const u_char **an, *t, **aj, **top[256];
-        /* Set up stack. */
-        sp = s;
-        push(a, n, i);
-        while (!empty(s)) {
-                pop(a, n, i);
-                if (n < THRESHOLD) {
-                        simplesort(a, n, i, tr, endch);
-                        continue;
-                }
-                an = a + n;
-                /* Make character histogram. */
-                if (nc == 0) {
-                        bmin = 255;     /* First occupied bin, excluding eos. */
-                        for (ak = a; ak < an;) {
-                                c = tr[(*ak++)[i]];
-                                if (++count[c] == 1 && c != endch) {
-                                        if (c < bmin)
-                                                bmin = c;
-                                        nc++;
-                                }
-                        }
-                        if (sp + nc > s + SIZE) {       /* Get more stack. */
-                                r_sort_a(a, n, i, tr, endch);
-                                continue;
-                        }
-                }
-                /*
-                 * Set top[]; push incompletely sorted bins onto stack.
-                 * top[] = pointers to last out-of-place element in bins.
-                 * count[] = counts of elements in bins.
-                 * Before permuting: top[c-1] + count[c] = top[c];
-                 * during deal: top[c] counts down to top[c-1].
-                 */
-                sp0 = sp1 = sp;         /* Stack position of biggest bin. */
-                bigc = 2;               /* Size of biggest bin. */
-                if (endch == 0)         /* Special case: set top[eos]. */
-                        top[0] = ak = a + count[0];
-                else {
-                        ak = a;
-                        top[255] = an;
-                }
-                for (cp = count + bmin; nc > 0; cp++) {
-                        while (*cp == 0)        /* Find next non-empty pile. */
-                                cp++;
-                        if (*cp > 1) {
-                                if (*cp > bigc) {
-                                        bigc = *cp;
-                                        sp1 = sp;
-                                }
-                                push(ak, *cp, i+1);
-                        }
-                        top[cp-count] = ak += *cp;
-                        nc--;
-                }
-                swap(*sp0, *sp1, temp); /* Play it safe -- biggest bin last. */
-                /*
-                 * Permute misplacements home.  Already home: everything
-                 * before aj, and in bin[c], items from top[c] on.
-                 * Inner loop:
-                 *      r = next element to put in place;
-                 *      ak = top[r[i]] = location to put the next element.
-                 *      aj = bottom of 1st disordered bin.
-                 * Outer loop:
-                 *      Once the 1st disordered bin is done, ie. aj >= ak,
-                 *      aj<-aj + count[c] connects the bins in a linked list;
-                 *      reset count[c].
-                 */
-                for (aj = a; aj < an;  *aj = r, aj += count[c], count[c] = 0)
-                        for (r = *aj;  aj < (ak = --top[c = tr[r[i]]]);)
-                                swap(*ak, r, t);
-        }
-}
-/* Stable sort, requiring additional memory. */
-void
-r_sort_b(const u_char **a, const u_char **ta, int n, int i, const u_char *tr,
-    u_int endch)
-{
-        static int count[256], nc, bmin;
-        int c;
-        const u_char **ak, **ai;
-        stack s[512], *sp, *sp0, *sp1, temp;
-        const u_char **top[256];
-        int *cp, bigc;
-        sp = s;
-        push(a, n, i);
-        while (!empty(s)) {
-                pop(a, n, i);
-                if (n < THRESHOLD) {
-                        simplesort(a, n, i, tr, endch);
-                        continue;
-                }
-                if (nc == 0) {
-                        bmin = 255;
-                        for (ak = a + n; --ak >= a;) {
-                                c = tr[(*ak)[i]];
-                                if (++count[c] == 1 && c != endch) {
-                                        if (c < bmin)
-                                                bmin = c;
-                                        nc++;
-                                }
-                        }
-                        if (sp + nc > s + SIZE) {
-                                r_sort_b(a, ta, n, i, tr, endch);
-                                continue;
-                        }
-                }
-                sp0 = sp1 = sp;
-                bigc = 2;
-                if (endch == 0) {
-                        top[0] = ak = a + count[0];
-                        count[0] = 0;
-                } else {
-                        ak = a;
-                        top[255] = a + n;
-                        count[255] = 0;
-                }
-                for (cp = count + bmin; nc > 0; cp++) {
-                        while (*cp == 0)
-                                cp++;
-                        if ((c = *cp) > 1) {
-                                if (c > bigc) {
-                                        bigc = c;
-                                        sp1 = sp;
-                                }
-                                push(ak, c, i+1);
-                        }
-                        top[cp-count] = ak += c;
-                        *cp = 0;                        /* Reset count[]. */
-                        nc--;
-                }
-                swap(*sp0, *sp1, temp);
-                for (ak = ta + n, ai = a+n; ak > ta;)   /* Copy to temp. */
-                        *--ak = *--ai;
-                for (ak = ta+n; --ak >= ta;)            /* Deal to piles. */
-                        *--top[tr[(*ak)[i]]] = *ak;
-        }
-}
-                
-static __inline void
-simplesort(const u_char **a, int n, int b, const u_char *tr, u_int endch)
-    /* insertion sort */
-{
-        u_char ch;
-        const u_char  **ak, **ai, *s, *t;
-        for (ak = a+1; --n >= 1; ak++)
-                for (ai = ak; ai > a; ai--) {
-                        for (s = ai[0] + b, t = ai[-1] + b;
-                            (ch = tr[*s]) != endch; s++, t++)
-                                if (ch != tr[*t])
-                                        break;
-                        if (ch >= tr[*t])
-                                break;
-                        swap(ai[0], ai[-1], s);
-                }
-}
author	cvs2svn <admin@example.com>	2014-04-13 15:49:51 +0000
committer	cvs2svn <admin@example.com>	2014-04-13 15:49:51 +0000
commit	9ef0d5fb5b0acfd35d73a5557198f46525ab1667 (patch)
tree	61e7e25839f716a30db270f15cddf0be6903781f /src/lib/libc/stdlib/radixsort.c
parent	ff237038a541d51619efa5b36fb251c8dc1e9637 (diff)
download	openbsd-butholakala.tar.gz openbsd-butholakala.tar.bz2 openbsd-butholakala.zip

diff --git a/src/lib/libc/stdlib/radixsort.c b/src/lib/libc/stdlib/radixsort.c deleted file mode 100644 index 49d03b52d5..0000000000 --- a/src/lib/libc/stdlib/radixsort.c +++ /dev/null
@@ -1,294 +0,0 @@
1	/* $OpenBSD: radixsort.c,v 1.9 2007/09/02 15:19:17 deraadt Exp $ */
2	/*-
3	* Copyright (c) 1990, 1993
4	* The Regents of the University of California. All rights reserved.
5	*
6	* This code is derived from software contributed to Berkeley by
7	* Peter McIlroy and by Dan Bernstein at New York University,
8	*
9	* Redistribution and use in source and binary forms, with or without
10	* modification, are permitted provided that the following conditions
11	* are met:
12	* 1. Redistributions of source code must retain the above copyright
13	* notice, this list of conditions and the following disclaimer.
14	* 2. Redistributions in binary form must reproduce the above copyright
15	* notice, this list of conditions and the following disclaimer in the
16	* documentation and/or other materials provided with the distribution.
17	* 3. Neither the name of the University nor the names of its contributors
18	* may be used to endorse or promote products derived from this software
19	* without specific prior written permission.
20	*
21	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
22	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
25	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
26	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
27	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
28	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
29	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
30	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31	* SUCH DAMAGE.
32	*/
33
34	/*
35	* Radixsort routines.
36	*
37	* Program r_sort_a() is unstable but uses O(logN) extra memory for a stack.
38	* Use radixsort(a, n, trace, endchar) for this case.
39	*
40	* For stable sorting (using N extra pointers) use sradixsort(), which calls
41	* r_sort_b().
42	*
43	* For a description of this code, see D. McIlroy, P. McIlroy, K. Bostic,
44	* "Engineering Radix Sort".
45	*/
46
47	#include <sys/types.h>
48	#include <stdlib.h>
49	#include <errno.h>
50
51	typedef struct {
52	const u_char **sa;
53	int sn, si;
54	} stack;
55
56	static __inline void simplesort
57	(const u_char *, int, int, const u_char , u_int);
58	static void r_sort_a(const u_char *, int, int, const u_char , u_int);
59	static void r_sort_b(const u_char **,
60	const u_char *, int, int, const u_char , u_int);
61
62	#define THRESHOLD 20 /* Divert to simplesort(). */
63	#define SIZE 512 /* Default stack size. */
64
65	#define SETUP { \
66	if (tab == NULL) { \
67	tr = tr0; \
68	for (c = 0; c < endch; c++) \
69	tr0[c] = c + 1; \
70	tr0[c] = 0; \
71	for (c++; c < 256; c++) \
72	tr0[c] = c; \
73	endch = 0; \
74	} else { \
75	endch = tab[endch]; \
76	tr = tab; \
77	if (endch != 0 && endch != 255) { \
78	errno = EINVAL; \
79	return (-1); \
80	} \
81	} \
82	}
83
84	int
85	radixsort(const u_char *a, int n, const u_char tab, u_int endch)
86	{
87	const u_char *tr;
88	int c;
89	u_char tr0[256];
90
91	SETUP;
92	r_sort_a(a, n, 0, tr, endch);
93	return (0);
94	}
95
96	int
97	sradixsort(const u_char *a, int n, const u_char tab, u_int endch)
98	{
99	const u_char tr, *ta;
100	int c;
101	u_char tr0[256];
102
103	SETUP;
104	if (n < THRESHOLD)
105	simplesort(a, n, 0, tr, endch);
106	else {
107	if ((ta = calloc(n, sizeof(a))) == NULL)
108	return (-1);
109	r_sort_b(a, ta, n, 0, tr, endch);
110	free(ta);
111	}
112	return (0);
113	}
114
115	#define empty(s) (s >= sp)
116	#define pop(a, n, i) a = (--sp)->sa, n = sp->sn, i = sp->si
117	#define push(a, n, i) sp->sa = a, sp->sn = n, (sp++)->si = i
118	#define swap(a, b, t) t = a, a = b, b = t
119
120	/* Unstable, in-place sort. */
121	void
122	r_sort_a(const u_char *a, int n, int i, const u_char tr, u_int endch)
123	{
124	static int count[256], nc, bmin;
125	int c;
126	const u_char *ak, r;
127	stack s[SIZE], sp, sp0, *sp1, temp;
128	int *cp, bigc;
129	const u_char *an, t, aj, top[256];
130
131	/* Set up stack. */
132	sp = s;
133	push(a, n, i);
134	while (!empty(s)) {
135	pop(a, n, i);
136	if (n < THRESHOLD) {
137	simplesort(a, n, i, tr, endch);
138	continue;
139	}
140	an = a + n;
141
142	/* Make character histogram. */
143	if (nc == 0) {
144	bmin = 255; /* First occupied bin, excluding eos. */
145	for (ak = a; ak < an;) {
146	c = tr[(*ak++)[i]];
147	if (++count[c] == 1 && c != endch) {
148	if (c < bmin)
149	bmin = c;
150	nc++;
151	}
152	}
153	if (sp + nc > s + SIZE) { /* Get more stack. */
154	r_sort_a(a, n, i, tr, endch);
155	continue;
156	}
157	}
158
159	/*
160	* Set top[]; push incompletely sorted bins onto stack.
161	* top[] = pointers to last out-of-place element in bins.
162	* count[] = counts of elements in bins.
163	* Before permuting: top[c-1] + count[c] = top[c];
164	* during deal: top[c] counts down to top[c-1].
165	*/
166	sp0 = sp1 = sp; /* Stack position of biggest bin. */
167	bigc = 2; /* Size of biggest bin. */
168	if (endch == 0) /* Special case: set top[eos]. */
169	top[0] = ak = a + count[0];
170	else {
171	ak = a;
172	top[255] = an;
173	}
174	for (cp = count + bmin; nc > 0; cp++) {
175	while (cp == 0) / Find next non-empty pile. */
176	cp++;
177	if (*cp > 1) {
178	if (*cp > bigc) {
179	bigc = *cp;
180	sp1 = sp;
181	}
182	push(ak, *cp, i+1);
183	}
184	top[cp-count] = ak += *cp;
185	nc--;
186	}
187	swap(sp0, sp1, temp); /* Play it safe -- biggest bin last. */
188
189	/*
190	* Permute misplacements home. Already home: everything
191	* before aj, and in bin[c], items from top[c] on.
192	* Inner loop:
193	* r = next element to put in place;
194	* ak = top[r[i]] = location to put the next element.
195	* aj = bottom of 1st disordered bin.
196	* Outer loop:
197	* Once the 1st disordered bin is done, ie. aj >= ak,
198	* aj<-aj + count[c] connects the bins in a linked list;
199	* reset count[c].
200	*/
201	for (aj = a; aj < an; *aj = r, aj += count[c], count[c] = 0)
202	for (r = *aj; aj < (ak = --top[c = tr[r[i]]]);)
203	swap(*ak, r, t);
204	}
205	}
206
207	/* Stable sort, requiring additional memory. */
208	void
209	r_sort_b(const u_char a, const u_char ta, int n, int i, const u_char *tr,
210	u_int endch)
211	{
212	static int count[256], nc, bmin;
213	int c;
214	const u_char ak, ai;
215	stack s[512], sp, sp0, *sp1, temp;
216	const u_char **top[256];
217	int *cp, bigc;
218
219	sp = s;
220	push(a, n, i);
221	while (!empty(s)) {
222	pop(a, n, i);
223	if (n < THRESHOLD) {
224	simplesort(a, n, i, tr, endch);
225	continue;
226	}
227
228	if (nc == 0) {
229	bmin = 255;
230	for (ak = a + n; --ak >= a;) {
231	c = tr[(*ak)[i]];
232	if (++count[c] == 1 && c != endch) {
233	if (c < bmin)
234	bmin = c;
235	nc++;
236	}
237	}
238	if (sp + nc > s + SIZE) {
239	r_sort_b(a, ta, n, i, tr, endch);
240	continue;
241	}
242	}
243
244	sp0 = sp1 = sp;
245	bigc = 2;
246	if (endch == 0) {
247	top[0] = ak = a + count[0];
248	count[0] = 0;
249	} else {
250	ak = a;
251	top[255] = a + n;
252	count[255] = 0;
253	}
254	for (cp = count + bmin; nc > 0; cp++) {
255	while (*cp == 0)
256	cp++;
257	if ((c = *cp) > 1) {
258	if (c > bigc) {
259	bigc = c;
260	sp1 = sp;
261	}
262	push(ak, c, i+1);
263	}
264	top[cp-count] = ak += c;
265	cp = 0; / Reset count[]. */
266	nc--;
267	}
268	swap(sp0, sp1, temp);
269
270	for (ak = ta + n, ai = a+n; ak > ta;) /* Copy to temp. */
271	--ak = --ai;
272	for (ak = ta+n; --ak >= ta;) /* Deal to piles. */
273	--top[tr[(ak)[i]]] = *ak;
274	}
275	}
276
277	static __inline void
278	simplesort(const u_char *a, int n, int b, const u_char tr, u_int endch)
279	/* insertion sort */
280	{
281	u_char ch;
282	const u_char ak, ai, s, t;
283
284	for (ak = a+1; --n >= 1; ak++)
285	for (ai = ak; ai > a; ai--) {
286	for (s = ai[0] + b, t = ai[-1] + b;
287	(ch = tr[*s]) != endch; s++, t++)
288	if (ch != tr[*t])
289	break;
290	if (ch >= tr[*t])
291	break;
292	swap(ai[0], ai[-1], s);
293	}
294	}