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ucx/map.c@b7d1317b138e (annotated)

ucx/map.c

Tue, 17 Oct 2017 15:15:54 +0200

author

Mike Becker <universe@uap-core.de>

date

Tue, 17 Oct 2017 15:15:54 +0200

changeset 250

b7d1317b138e

parent 225

a1a068c2c4ef

permissions

-rw-r--r--

updates license

olaf@20	1	/*
universe@103	2	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
olaf@20	3	*
universe@250	4	* Copyright 2017 Olaf Wintermann. All rights reserved.
universe@103	5	*
universe@103	6	* Redistribution and use in source and binary forms, with or without
universe@103	7	* modification, are permitted provided that the following conditions are met:
universe@103	8	*
universe@103	9	* 1. Redistributions of source code must retain the above copyright
universe@103	10	* notice, this list of conditions and the following disclaimer.
universe@103	11	*
universe@103	12	* 2. Redistributions in binary form must reproduce the above copyright
universe@103	13	* notice, this list of conditions and the following disclaimer in the
universe@103	14	* documentation and/or other materials provided with the distribution.
universe@103	15	*
universe@103	16	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
universe@103	17	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
universe@103	18	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
universe@103	19	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
universe@103	20	* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
universe@103	21	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
universe@103	22	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
universe@103	23	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
universe@103	24	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
universe@103	25	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
universe@103	26	* POSSIBILITY OF SUCH DAMAGE.
olaf@20	27	*/
olaf@2	28
olaf@20	29	#include <stdlib.h>
olaf@20	30	#include <string.h>
olaf@20	31
olaf@20	32	#include "map.h"
olaf@20	33
olaf@20	34	UcxMap *ucx_map_new(size_t size) {
olaf@137	35	return ucx_map_new_a(NULL, size);
olaf@107	36	}
olaf@107	37
olaf@137	38	UcxMap *ucx_map_new_a(UcxAllocator *allocator, size_t size) {
olaf@45	39	if(size == 0) {
olaf@45	40	size = 16;
olaf@45	41	}
olaf@108	42
olaf@107	43	if(!allocator) {
olaf@107	44	allocator = ucx_default_allocator();
olaf@107	45	}
olaf@107	46
universe@173	47	UcxMap *map = (UcxMap*)almalloc(allocator, sizeof(UcxMap));
universe@139	48	if (!map) {
olaf@20	49	return NULL;
olaf@20	50	}
olaf@107	51
olaf@107	52	map->allocator = allocator;
universe@173	53	map->map = (UcxMapElement**)alcalloc(
universe@173	54	allocator, size, sizeof(UcxMapElement*));
olaf@20	55	if(map->map == NULL) {
universe@173	56	alfree(allocator, map);
olaf@20	57	return NULL;
olaf@20	58	}
olaf@20	59	map->size = size;
olaf@45	60	map->count = 0;
olaf@20	61
olaf@20	62	return map;
olaf@20	63	}
olaf@20	64
universe@206	65	static void ucx_map_free_elmlist_contents(UcxMap *map) {
universe@29	66	for (size_t n = 0 ; n < map->size ; n++) {
universe@29	67	UcxMapElement *elem = map->map[n];
universe@29	68	if (elem != NULL) {
universe@29	69	do {
universe@29	70	UcxMapElement *next = elem->next;
universe@173	71	alfree(map->allocator, elem->key.data);
universe@173	72	alfree(map->allocator, elem);
universe@29	73	elem = next;
universe@29	74	} while (elem != NULL);
universe@29	75	}
universe@29	76	}
olaf@70	77	}
olaf@70	78
olaf@70	79	void ucx_map_free(UcxMap *map) {
universe@206	80	ucx_map_free_elmlist_contents(map);
universe@206	81	alfree(map->allocator, map->map);
universe@173	82	alfree(map->allocator, map);
universe@29	83	}
universe@29	84
universe@209	85	void ucx_map_free_content(UcxMap *map, ucx_destructor destr) {
universe@208	86	UcxMapIterator iter = ucx_map_iterator(map);
universe@208	87	void *val;
universe@208	88	UCX_MAP_FOREACH(key, val, iter) {
universe@209	89	destr(val);
universe@208	90	}
universe@208	91	}
universe@208	92
universe@206	93	void ucx_map_clear(UcxMap *map) {
universe@207	94	if (map->count == 0) {
universe@207	95	return; // nothing to do
universe@207	96	}
universe@206	97	ucx_map_free_elmlist_contents(map);
universe@206	98	memset(map->map, 0, map->size*sizeof(UcxMapElement*));
universe@206	99	map->count = 0;
universe@206	100	}
universe@206	101
universe@67	102	int ucx_map_copy(UcxMap *restrict from, UcxMap *restrict to,
universe@67	103	copy_func fnc, void *data) {
olaf@52	104	UcxMapIterator i = ucx_map_iterator(from);
olaf@52	105	void *value;
olaf@111	106	UCX_MAP_FOREACH(key, value, i) {
universe@138	107	if (ucx_map_put(to, key, fnc ? fnc(value, data) : value)) {
olaf@52	108	return 1;
olaf@52	109	}
olaf@52	110	}
olaf@52	111	return 0;
olaf@52	112	}
olaf@52	113
olaf@44	114	UcxMap *ucx_map_clone(UcxMap *map, copy_func fnc, void *data) {
universe@51	115	size_t bs = (map->count * 5) >> 1;
olaf@45	116	UcxMap *newmap = ucx_map_new(bs > map->size ? bs : map->size);
universe@138	117	if (!newmap) {
olaf@52	118	return NULL;
olaf@44	119	}
olaf@52	120	ucx_map_copy(map, newmap, fnc, data);
olaf@44	121	return newmap;
olaf@44	122	}
olaf@44	123
olaf@52	124	int ucx_map_rehash(UcxMap *map) {
universe@51	125	size_t load = (map->size * 3) >> 2;
universe@51	126	if (map->count > load) {
olaf@52	127	UcxMap oldmap;
olaf@52	128	oldmap.map = map->map;
olaf@52	129	oldmap.size = map->size;
olaf@52	130	oldmap.count = map->count;
olaf@107	131	oldmap.allocator = map->allocator;
olaf@52	132
olaf@52	133	map->size = (map->count * 5) >> 1;
universe@173	134	map->map = (UcxMapElement**)alcalloc(
universe@173	135	map->allocator, map->size, sizeof(UcxMapElement*));
universe@138	136	if (!map->map) {
olaf@52	137	*map = oldmap;
olaf@52	138	return 1;
olaf@52	139	}
olaf@52	140	map->count = 0;
olaf@52	141	ucx_map_copy(&oldmap, map, NULL, NULL);
olaf@70	142
olaf@70	143	/* free the UcxMapElement list of oldmap */
universe@206	144	ucx_map_free_elmlist_contents(&oldmap);
universe@206	145	alfree(map->allocator, oldmap.map);
universe@51	146	}
olaf@52	147	return 0;
universe@51	148	}
universe@51	149
olaf@20	150	int ucx_map_put(UcxMap *map, UcxKey key, void *data) {
olaf@107	151	UcxAllocator *allocator = map->allocator;
olaf@107	152
universe@138	153	if (key.hash == 0) {
olaf@20	154	key.hash = ucx_hash((char*)key.data, key.len);
olaf@20	155	}
olaf@20	156
universe@29	157	size_t slot = key.hash%map->size;
universe@67	158	UcxMapElement *restrict elm = map->map[slot];
universe@67	159	UcxMapElement *restrict prev = NULL;
universe@29	160
universe@138	161	while (elm && elm->key.hash < key.hash) {
universe@29	162	prev = elm;
universe@29	163	elm = elm->next;
universe@29	164	}
universe@29	165
universe@138	166	if (!elm || elm->key.hash != key.hash) {
universe@173	167	UcxMapElement *e = (UcxMapElement*)almalloc(
universe@173	168	allocator, sizeof(UcxMapElement));
universe@138	169	if (!e) {
olaf@20	170	return -1;
olaf@20	171	}
olaf@30	172	e->key.data = NULL;
universe@53	173	if (prev) {
universe@53	174	prev->next = e;
universe@53	175	} else {
universe@29	176	map->map[slot] = e;
universe@29	177	}
universe@29	178	e->next = elm;
olaf@20	179	elm = e;
olaf@20	180	}
universe@29	181
universe@138	182	if (!elm->key.data) {
universe@173	183	void *kd = almalloc(allocator, key.len);
universe@138	184	if (!kd) {
olaf@30	185	return -1;
olaf@30	186	}
olaf@30	187	memcpy(kd, key.data, key.len);
olaf@30	188	key.data = kd;
olaf@30	189	elm->key = key;
olaf@45	190	map->count++;
olaf@30	191	}
olaf@20	192	elm->data = data;
olaf@20	193
olaf@20	194	return 0;
olaf@20	195	}
olaf@20	196
universe@53	197	void* ucx_map_get_and_remove(UcxMap *map, UcxKey key, _Bool remove) {
olaf@20	198	if(key.hash == 0) {
olaf@20	199	key.hash = ucx_hash((char*)key.data, key.len);
olaf@20	200	}
olaf@20	201
universe@53	202	size_t slot = key.hash%map->size;
universe@67	203	UcxMapElement *restrict elm = map->map[slot];
universe@67	204	UcxMapElement *restrict pelm = NULL;
universe@53	205	while (elm && elm->key.hash <= key.hash) {
olaf@20	206	if(elm->key.hash == key.hash) {
olaf@20	207	int n = (key.len > elm->key.len) ? elm->key.len : key.len;
universe@29	208	if (memcmp(elm->key.data, key.data, n) == 0) {
universe@53	209	void *data = elm->data;
universe@53	210	if (remove) {
universe@53	211	if (pelm) {
universe@53	212	pelm->next = elm->next;
universe@53	213	} else {
universe@53	214	map->map[slot] = elm->next;
universe@53	215	}
universe@173	216	alfree(map->allocator, elm->key.data);
universe@173	217	alfree(map->allocator, elm);
universe@53	218	map->count--;
universe@53	219	}
universe@53	220
universe@53	221	return data;
olaf@20	222	}
olaf@20	223	}
universe@53	224	pelm = elm;
universe@53	225	elm = pelm->next;
olaf@20	226	}
olaf@20	227
olaf@20	228	return NULL;
olaf@20	229	}
olaf@20	230
universe@53	231	void *ucx_map_get(UcxMap *map, UcxKey key) {
universe@53	232	return ucx_map_get_and_remove(map, key, 0);
universe@53	233	}
universe@53	234
universe@53	235	void *ucx_map_remove(UcxMap *map, UcxKey key) {
universe@53	236	return ucx_map_get_and_remove(map, key, 1);
universe@53	237	}
universe@53	238
olaf@20	239	UcxKey ucx_key(void *data, size_t len) {
olaf@20	240	UcxKey key;
olaf@20	241	key.data = data;
olaf@20	242	key.len = len;
universe@69	243	key.hash = ucx_hash((const char*) data, len);
olaf@20	244	return key;
olaf@20	245	}
olaf@20	246
olaf@20	247
universe@67	248	int ucx_hash(const char *data, size_t len) {
olaf@20	249	/* murmur hash 2 */
olaf@20	250
olaf@20	251	int m = 0x5bd1e995;
olaf@20	252	int r = 24;
olaf@20	253
olaf@20	254	int h = 25 ^ len;
olaf@20	255
olaf@20	256	int i = 0;
olaf@20	257	while (len >= 4) {
olaf@20	258	int k = data[i + 0] & 0xFF;
olaf@20	259	k |= (data[i + 1] & 0xFF) << 8;
olaf@20	260	k |= (data[i + 2] & 0xFF) << 16;
olaf@20	261	k |= (data[i + 3] & 0xFF) << 24;
olaf@20	262
olaf@20	263	k *= m;
olaf@20	264	k ^= k >> r;
olaf@20	265	k *= m;
olaf@20	266
olaf@20	267	h *= m;
olaf@20	268	h ^= k;
olaf@20	269
olaf@20	270	i += 4;
olaf@20	271	len -= 4;
olaf@20	272	}
olaf@20	273
olaf@20	274	switch (len) {
olaf@20	275	case 3: h ^= (data[i + 2] & 0xFF) << 16;
universe@38	276	/* no break */
olaf@20	277	case 2: h ^= (data[i + 1] & 0xFF) << 8;
universe@38	278	/* no break */
olaf@20	279	case 1: h ^= (data[i + 0] & 0xFF); h *= m;
universe@38	280	/* no break */
olaf@20	281	}
olaf@20	282
olaf@20	283	h ^= h >> 13;
olaf@20	284	h *= m;
olaf@20	285	h ^= h >> 15;
olaf@20	286
olaf@20	287	return h;
olaf@20	288	}
olaf@31	289
olaf@31	290	UcxMapIterator ucx_map_iterator(UcxMap *map) {
olaf@31	291	UcxMapIterator i;
olaf@31	292	i.map = map;
olaf@31	293	i.cur = NULL;
olaf@31	294	i.index = 0;
olaf@31	295	return i;
olaf@31	296	}
olaf@31	297
olaf@111	298	int ucx_map_iter_next(UcxMapIterator *i, UcxKey *key, void **elm) {
olaf@31	299	UcxMapElement *e = i->cur;
olaf@31	300
universe@138	301	if (e) {
universe@138	302	e = e->next;
universe@138	303	} else {
olaf@31	304	e = i->map->map[0];
olaf@31	305	}
olaf@31	306
universe@138	307	while (i->index < i->map->size) {
universe@138	308	if (e) {
universe@138	309	if (e->data) {
olaf@31	310	i->cur = e;
olaf@31	311	*elm = e->data;
olaf@111	312	*key = e->key;
universe@138	313	return 1;
olaf@31	314	}
olaf@31	315
olaf@31	316	e = e->next;
olaf@31	317	} else {
olaf@31	318	i->index++;
olaf@31	319
universe@138	320	if (i->index < i->map->size) {
olaf@31	321	e = i->map->map[i->index];
olaf@31	322	}
olaf@31	323	}
olaf@31	324	}
olaf@31	325
universe@138	326	return 0;
olaf@31	327	}
universe@42	328