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src/linked_list.c@d0d95740071b (annotated)

src/linked_list.c

Thu, 23 Feb 2023 22:43:13 +0100

author

Mike Becker <universe@uap-core.de>

date

Thu, 23 Feb 2023 22:43:13 +0100

changeset 662

d0d95740071b

parent 661

0a71ac9547fd

child 664

af5bf4603a5d

permissions

-rw-r--r--

add simple functions for creating lists

universe@398	1	/*
universe@398	2	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
universe@398	3	*
universe@398	4	* Copyright 2021 Mike Becker, Olaf Wintermann All rights reserved.
universe@398	5	*
universe@398	6	* Redistribution and use in source and binary forms, with or without
universe@398	7	* modification, are permitted provided that the following conditions are met:
universe@398	8	*
universe@398	9	* 1. Redistributions of source code must retain the above copyright
universe@398	10	* notice, this list of conditions and the following disclaimer.
universe@398	11	*
universe@398	12	* 2. Redistributions in binary form must reproduce the above copyright
universe@398	13	* notice, this list of conditions and the following disclaimer in the
universe@398	14	* documentation and/or other materials provided with the distribution.
universe@398	15	*
universe@398	16	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
universe@398	17	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
universe@398	18	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
universe@398	19	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
universe@398	20	* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
universe@398	21	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
universe@398	22	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
universe@398	23	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
universe@398	24	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
universe@398	25	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
universe@398	26	* POSSIBILITY OF SUCH DAMAGE.
universe@398	27	*/
universe@398	28
universe@398	29	#include "cx/linked_list.h"
universe@509	30	#include "cx/utils.h"
universe@401	31	#include <string.h>
universe@453	32	#include <assert.h>
universe@398	33
universe@628	34	// LOW LEVEL LINKED LIST FUNCTIONS
universe@398	35
universe@592	36	#define CX_LL_PTR(cur, off) (*(void**)(((char*)(cur))+(off)))
universe@480	37	#define ll_prev(node) CX_LL_PTR(node, loc_prev)
universe@480	38	#define ll_next(node) CX_LL_PTR(node, loc_next)
universe@480	39	#define ll_advance(node) CX_LL_PTR(node, loc_advance)
universe@639	40	#define ll_data(node) (((char*)(node))+loc_data)
universe@398	41
universe@481	42	void *cx_linked_list_at(
universe@508	43	void const *start,
universe@481	44	size_t start_index,
universe@481	45	ptrdiff_t loc_advance,
universe@481	46	size_t index
universe@481	47	) {
universe@473	48	assert(start != NULL);
universe@473	49	assert(loc_advance >= 0);
universe@438	50	size_t i = start_index;
universe@508	51	void const *cur = start;
universe@438	52	while (i != index && cur != NULL) {
universe@480	53	cur = ll_advance(cur);
universe@438	54	i < index ? i++ : i--;
universe@438	55	}
universe@508	56	return (void *) cur;
universe@438	57	}
universe@438	58
universe@481	59	size_t cx_linked_list_find(
universe@489	60	void const *start,
universe@481	61	ptrdiff_t loc_advance,
universe@481	62	ptrdiff_t loc_data,
universe@481	63	CxListComparator cmp_func,
universe@489	64	void const *elem
universe@481	65	) {
universe@480	66	assert(start != NULL);
universe@480	67	assert(loc_advance >= 0);
universe@480	68	assert(loc_data >= 0);
universe@480	69	assert(cmp_func);
universe@480	70
universe@489	71	void const *node = start;
universe@480	72	size_t index = 0;
universe@480	73	do {
universe@480	74	void *current = ll_data(node);
universe@480	75	if (cmp_func(current, elem) == 0) {
universe@480	76	return index;
universe@480	77	}
universe@480	78	node = ll_advance(node);
universe@480	79	index++;
universe@480	80	} while (node != NULL);
universe@480	81	return index;
universe@480	82	}
universe@480	83
universe@481	84	void *cx_linked_list_first(
universe@508	85	void const *node,
universe@481	86	ptrdiff_t loc_prev
universe@481	87	) {
universe@475	88	return cx_linked_list_last(node, loc_prev);
universe@475	89	}
universe@475	90
universe@481	91	void *cx_linked_list_last(
universe@508	92	void const *node,
universe@481	93	ptrdiff_t loc_next
universe@481	94	) {
universe@478	95	assert(node != NULL);
universe@473	96	assert(loc_next >= 0);
universe@398	97
universe@508	98	void const *cur = node;
universe@508	99	void const *last;
universe@456	100	do {
universe@456	101	last = cur;
universe@480	102	} while ((cur = ll_next(cur)) != NULL);
universe@398	103
universe@508	104	return (void *) last;
universe@398	105	}
universe@398	106
universe@481	107	void *cx_linked_list_prev(
universe@508	108	void const *begin,
universe@481	109	ptrdiff_t loc_next,
universe@508	110	void const *node
universe@481	111	) {
universe@473	112	assert(begin != NULL);
universe@478	113	assert(node != NULL);
universe@473	114	assert(loc_next >= 0);
universe@473	115	if (begin == node) return NULL;
universe@508	116	void const *cur = begin;
universe@508	117	void const *next;
universe@473	118	while (1) {
universe@480	119	next = ll_next(cur);
universe@508	120	if (next == node) return (void *) cur;
universe@473	121	cur = next;
universe@473	122	}
universe@473	123	}
universe@473	124
universe@481	125	void cx_linked_list_link(
universe@481	126	void *left,
universe@481	127	void *right,
universe@481	128	ptrdiff_t loc_prev,
universe@481	129	ptrdiff_t loc_next
universe@481	130	) {
universe@473	131	assert(loc_next >= 0);
universe@481	132	ll_next(left) = right;
universe@481	133	if (loc_prev >= 0) {
universe@481	134	ll_prev(right) = left;
universe@481	135	}
universe@481	136	}
universe@481	137
universe@481	138	void cx_linked_list_unlink(
universe@481	139	void *left,
universe@481	140	void *right,
universe@481	141	ptrdiff_t loc_prev,
universe@481	142	ptrdiff_t loc_next
universe@481	143	) {
universe@481	144	assert (loc_next >= 0);
universe@481	145	assert(ll_next(left) == right);
universe@481	146	ll_next(left) = NULL;
universe@481	147	if (loc_prev >= 0) {
universe@481	148	assert(ll_prev(right) == left);
universe@481	149	ll_prev(right) = NULL;
universe@481	150	}
universe@481	151	}
universe@481	152
universe@481	153	void cx_linked_list_add(
universe@481	154	void **begin,
universe@481	155	void **end,
universe@481	156	ptrdiff_t loc_prev,
universe@481	157	ptrdiff_t loc_next,
universe@481	158	void *new_node
universe@481	159	) {
universe@456	160	void *last;
universe@456	161	if (end == NULL) {
universe@456	162	assert(begin != NULL);
universe@478	163	last = *begin == NULL ? NULL : cx_linked_list_last(*begin, loc_next);
universe@456	164	} else {
universe@456	165	last = *end;
universe@456	166	}
universe@481	167	cx_linked_list_insert_chain(begin, end, loc_prev, loc_next, last, new_node, new_node);
universe@481	168	}
universe@481	169
universe@481	170	void cx_linked_list_prepend(
universe@481	171	void **begin,
universe@481	172	void **end,
universe@481	173	ptrdiff_t loc_prev,
universe@481	174	ptrdiff_t loc_next,
universe@481	175	void *new_node
universe@481	176	) {
universe@481	177	cx_linked_list_insert_chain(begin, end, loc_prev, loc_next, NULL, new_node, new_node);
universe@481	178	}
universe@481	179
universe@481	180	void cx_linked_list_insert(
universe@481	181	void **begin,
universe@481	182	void **end,
universe@481	183	ptrdiff_t loc_prev,
universe@481	184	ptrdiff_t loc_next,
universe@481	185	void *node,
universe@481	186	void *new_node
universe@481	187	) {
universe@481	188	cx_linked_list_insert_chain(begin, end, loc_prev, loc_next, node, new_node, new_node);
universe@481	189	}
universe@481	190
universe@481	191	void cx_linked_list_insert_chain(
universe@481	192	void **begin,
universe@481	193	void **end,
universe@481	194	ptrdiff_t loc_prev,
universe@481	195	ptrdiff_t loc_next,
universe@481	196	void *node,
universe@481	197	void *insert_begin,
universe@481	198	void *insert_end
universe@481	199	) {
universe@481	200	// find the end of the chain, if not specified
universe@481	201	if (insert_end == NULL) {
universe@481	202	insert_end = cx_linked_list_last(insert_begin, loc_next);
universe@481	203	}
universe@481	204
universe@481	205	// determine the successor
universe@481	206	void *successor;
universe@481	207	if (node == NULL) {
universe@481	208	assert(begin != NULL || (end != NULL && loc_prev >= 0));
universe@475	209	if (begin != NULL) {
universe@481	210	successor = *begin;
universe@481	211	*begin = insert_begin;
universe@481	212	} else {
universe@481	213	successor = *end == NULL ? NULL : cx_linked_list_first(*end, loc_prev);
universe@475	214	}
universe@428	215	} else {
universe@481	216	successor = ll_next(node);
universe@481	217	cx_linked_list_link(node, insert_begin, loc_prev, loc_next);
universe@398	218	}
universe@398	219
universe@481	220	if (successor == NULL) {
universe@481	221	// the list ends with the new chain
universe@481	222	if (end != NULL) {
universe@481	223	*end = insert_end;
universe@481	224	}
universe@481	225	} else {
universe@481	226	cx_linked_list_link(insert_end, successor, loc_prev, loc_next);
universe@398	227	}
universe@398	228	}
universe@398	229
universe@481	230	void cx_linked_list_remove(
universe@481	231	void **begin,
universe@481	232	void **end,
universe@481	233	ptrdiff_t loc_prev,
universe@481	234	ptrdiff_t loc_next,
universe@481	235	void *node
universe@481	236	) {
universe@477	237	assert(node != NULL);
universe@473	238	assert(loc_next >= 0);
universe@473	239	assert(loc_prev >= 0 || begin != NULL);
universe@473	240
universe@473	241	// find adjacent nodes
universe@480	242	void *next = ll_next(node);
universe@473	243	void *prev;
universe@473	244	if (loc_prev >= 0) {
universe@480	245	prev = ll_prev(node);
universe@473	246	} else {
universe@473	247	prev = cx_linked_list_prev(*begin, loc_next, node);
universe@473	248	}
universe@473	249
universe@476	250	// update next pointer of prev node, or set begin
universe@476	251	if (prev == NULL) {
universe@476	252	if (begin != NULL) {
universe@476	253	*begin = next;
universe@476	254	}
universe@476	255	} else {
universe@480	256	ll_next(prev) = next;
universe@473	257	}
universe@476	258
universe@476	259	// update prev pointer of next node, or set end
universe@476	260	if (next == NULL) {
universe@476	261	if (end != NULL) {
universe@476	262	*end = prev;
universe@476	263	}
universe@476	264	} else if (loc_prev >= 0) {
universe@480	265	ll_prev(next) = prev;
universe@473	266	}
universe@473	267	}
universe@473	268
universe@481	269	size_t cx_linked_list_size(
universe@489	270	void const *node,
universe@481	271	ptrdiff_t loc_next
universe@481	272	) {
universe@473	273	assert(loc_next >= 0);
universe@468	274	size_t size = 0;
universe@468	275	while (node != NULL) {
universe@480	276	node = ll_next(node);
universe@468	277	size++;
universe@468	278	}
universe@468	279	return size;
universe@468	280	}
universe@468	281
universe@661	282	#ifndef CX_LINKED_LIST_SORT_SBO_SIZE
universe@661	283	#define CX_LINKED_LIST_SORT_SBO_SIZE 1024
universe@661	284	#endif
universe@661	285
universe@481	286	static void *cx_linked_list_sort_merge(
universe@481	287	ptrdiff_t loc_prev,
universe@481	288	ptrdiff_t loc_next,
universe@481	289	ptrdiff_t loc_data,
universe@481	290	size_t length,
universe@481	291	void *ls,
universe@481	292	void *le,
universe@481	293	void *re,
universe@481	294	CxListComparator cmp_func
universe@481	295	) {
universe@661	296	void *sbo[CX_LINKED_LIST_SORT_SBO_SIZE];
universe@661	297	void **sorted = length >= CX_LINKED_LIST_SORT_SBO_SIZE ?
universe@662	298	malloc(sizeof(void *) * length) : sbo;
universe@508	299	if (sorted == NULL) abort();
universe@468	300	void *rc, *lc;
universe@468	301
universe@468	302	lc = ls;
universe@468	303	rc = le;
universe@468	304	size_t n = 0;
universe@468	305	while (lc && lc != le && rc != re) {
universe@468	306	if (cmp_func(ll_data(lc), ll_data(rc)) <= 0) {
universe@468	307	sorted[n] = lc;
universe@468	308	lc = ll_next(lc);
universe@468	309	} else {
universe@468	310	sorted[n] = rc;
universe@468	311	rc = ll_next(rc);
universe@468	312	}
universe@468	313	n++;
universe@468	314	}
universe@468	315	while (lc && lc != le) {
universe@468	316	sorted[n] = lc;
universe@468	317	lc = ll_next(lc);
universe@468	318	n++;
universe@468	319	}
universe@468	320	while (rc && rc != re) {
universe@468	321	sorted[n] = rc;
universe@468	322	rc = ll_next(rc);
universe@468	323	n++;
universe@468	324	}
universe@468	325
universe@468	326	// Update pointer
universe@468	327	if (loc_prev >= 0) ll_prev(sorted[0]) = NULL;
universe@509	328	cx_for_n (i, length - 1) {
universe@481	329	cx_linked_list_link(sorted[i], sorted[i + 1], loc_prev, loc_next);
universe@468	330	}
universe@468	331	ll_next(sorted[length - 1]) = NULL;
universe@468	332
universe@468	333	void *ret = sorted[0];
universe@468	334	if (sorted != sbo) {
universe@468	335	free(sorted);
universe@468	336	}
universe@468	337	return ret;
universe@468	338	}
universe@468	339
universe@628	340	void cx_linked_list_sort( // NOLINT(misc-no-recursion) - purposely recursive function
universe@481	341	void **begin,
universe@481	342	void **end,
universe@481	343	ptrdiff_t loc_prev,
universe@481	344	ptrdiff_t loc_next,
universe@481	345	ptrdiff_t loc_data,
universe@481	346	CxListComparator cmp_func
universe@481	347	) {
universe@468	348	assert(begin != NULL);
universe@473	349	assert(loc_next >= 0);
universe@473	350	assert(loc_data >= 0);
universe@473	351	assert(cmp_func);
universe@468	352
universe@468	353	void *lc, *ls, *le, *re;
universe@468	354
universe@468	355	// set start node
universe@468	356	ls = *begin;
universe@468	357
universe@468	358	// check how many elements are already sorted
universe@468	359	lc = ls;
universe@468	360	size_t ln = 1;
universe@468	361	while (ll_next(lc) != NULL && cmp_func(ll_data(ll_next(lc)), ll_data(lc)) > 0) {
universe@468	362	lc = ll_next(lc);
universe@468	363	ln++;
universe@468	364	}
universe@468	365	le = ll_next(lc);
universe@468	366
universe@468	367	// if first unsorted node is NULL, the list is already completely sorted
universe@468	368	if (le != NULL) {
universe@468	369	void *rc;
universe@468	370	size_t rn = 1;
universe@468	371	rc = le;
universe@468	372	// skip already sorted elements
universe@468	373	while (ll_next(rc) != NULL && cmp_func(ll_data(ll_next(rc)), ll_data(rc)) > 0) {
universe@468	374	rc = ll_next(rc);
universe@468	375	rn++;
universe@468	376	}
universe@468	377	re = ll_next(rc);
universe@468	378
universe@468	379	// {ls,...,le->prev} and {rs,...,re->prev} are sorted - merge them
universe@639	380	void *sorted = cx_linked_list_sort_merge(loc_prev, loc_next, loc_data,
universe@468	381	ln + rn, ls, le, re, cmp_func);
universe@468	382
universe@468	383	// Something left? Sort it!
universe@468	384	size_t remainder_length = cx_linked_list_size(re, loc_next);
universe@468	385	if (remainder_length > 0) {
universe@468	386	void *remainder = re;
universe@639	387	cx_linked_list_sort(&remainder, NULL, loc_prev, loc_next, loc_data, cmp_func);
universe@468	388
universe@468	389	// merge sorted list with (also sorted) remainder
universe@639	390	*begin = cx_linked_list_sort_merge(loc_prev, loc_next, loc_data,
universe@468	391	ln + rn + remainder_length,
universe@468	392	sorted, remainder, NULL, cmp_func);
universe@468	393	} else {
universe@468	394	// no remainder - we've got our sorted list
universe@468	395	*begin = sorted;
universe@468	396	}
universe@468	397	if (end) *end = cx_linked_list_last(sorted, loc_next);
universe@468	398	}
universe@468	399	}
universe@468	400
universe@486	401	int cx_linked_list_compare(
universe@489	402	void const *begin_left,
universe@489	403	void const *begin_right,
universe@486	404	ptrdiff_t loc_advance,
universe@486	405	ptrdiff_t loc_data,
universe@486	406	CxListComparator cmp_func
universe@486	407	) {
universe@489	408	void const *left = begin_left, *right = begin_right;
universe@486	409
universe@486	410	while (left != NULL && right != NULL) {
universe@639	411	void const *left_data = ll_data(left);
universe@639	412	void const *right_data = ll_data(right);
universe@552	413	int result = cmp_func(left_data, right_data);
universe@486	414	if (result != 0) return result;
universe@486	415	left = ll_advance(left);
universe@486	416	right = ll_advance(right);
universe@486	417	}
universe@486	418
universe@486	419	if (left != NULL) { return 1; }
universe@486	420	else if (right != NULL) { return -1; }
universe@486	421	else { return 0; }
universe@486	422	}
universe@486	423
universe@481	424	void cx_linked_list_reverse(
universe@481	425	void **begin,
universe@481	426	void **end,
universe@481	427	ptrdiff_t loc_prev,
universe@481	428	ptrdiff_t loc_next
universe@481	429	) {
universe@473	430	assert(begin != NULL);
universe@473	431	assert(loc_next >= 0);
universe@473	432
universe@473	433	// swap all links
universe@473	434	void *prev = NULL;
universe@473	435	void *cur = *begin;
universe@473	436	while (cur != NULL) {
universe@480	437	void *next = ll_next(cur);
universe@473	438
universe@480	439	ll_next(cur) = prev;
universe@473	440	if (loc_prev >= 0) {
universe@480	441	ll_prev(cur) = next;
universe@473	442	}
universe@473	443
universe@473	444	prev = cur;
universe@473	445	cur = next;
universe@473	446	}
universe@473	447
universe@473	448	// update begin and end
universe@473	449	if (end != NULL) {
universe@473	450	*end = *begin;
universe@473	451	}
universe@473	452	*begin = prev;
universe@473	453	}
universe@473	454
universe@628	455	// HIGH LEVEL LINKED LIST IMPLEMENTATION
universe@398	456
universe@647	457	bool CX_DISABLE_LINKED_LIST_SWAP_SBO = false;
universe@647	458
universe@447	459	typedef struct cx_linked_list_node cx_linked_list_node;
universe@447	460	struct cx_linked_list_node {
universe@447	461	cx_linked_list_node *prev;
universe@447	462	cx_linked_list_node *next;
universe@403	463	char payload[];
universe@447	464	};
universe@402	465
universe@446	466	#define CX_LL_LOC_PREV offsetof(cx_linked_list_node, prev)
universe@446	467	#define CX_LL_LOC_NEXT offsetof(cx_linked_list_node, next)
universe@469	468	#define CX_LL_LOC_DATA offsetof(cx_linked_list_node, payload)
universe@439	469
universe@398	470	typedef struct {
universe@500	471	struct cx_list_s base;
universe@446	472	cx_linked_list_node *begin;
universe@446	473	cx_linked_list_node *end;
universe@398	474	} cx_linked_list;
universe@398	475
universe@481	476	static cx_linked_list_node *cx_ll_node_at(
universe@489	477	cx_linked_list const *list,
universe@481	478	size_t index
universe@481	479	) {
universe@447	480	if (index >= list->base.size) {
universe@447	481	return NULL;
universe@447	482	} else if (index > list->base.size / 2) {
universe@468	483	return cx_linked_list_at(list->end, list->base.size - 1, CX_LL_LOC_PREV, index);
universe@447	484	} else {
universe@447	485	return cx_linked_list_at(list->begin, 0, CX_LL_LOC_NEXT, index);
universe@447	486	}
universe@447	487	}
universe@447	488
universe@499	489	static int cx_ll_insert_at(
universe@500	490	struct cx_list_s *list,
universe@499	491	cx_linked_list_node *node,
universe@489	492	void const *elem
universe@481	493	) {
universe@448	494
universe@481	495	// create the new new_node
universe@481	496	cx_linked_list_node *new_node = cxMalloc(list->allocator,
universe@481	497	sizeof(cx_linked_list_node) + list->itemsize);
universe@448	498
universe@448	499	// sortir if failed
universe@481	500	if (new_node == NULL) return 1;
universe@448	501
universe@481	502	// initialize new new_node
universe@481	503	new_node->prev = new_node->next = NULL;
universe@481	504	memcpy(new_node->payload, elem, list->itemsize);
universe@448	505
universe@481	506	// insert
universe@499	507	cx_linked_list *ll = (cx_linked_list *) list;
universe@481	508	cx_linked_list_insert_chain(
universe@481	509	(void **) &ll->begin, (void **) &ll->end,
universe@481	510	CX_LL_LOC_PREV, CX_LL_LOC_NEXT,
universe@481	511	node, new_node, new_node
universe@481	512	);
universe@448	513
universe@448	514	// increase the size and return
universe@448	515	list->size++;
universe@448	516	return 0;
universe@448	517	}
universe@448	518
universe@638	519	static size_t cx_ll_insert_array(
universe@638	520	struct cx_list_s *list,
universe@638	521	size_t index,
universe@638	522	void const *array,
universe@638	523	size_t n
universe@638	524	) {
universe@638	525	// out-of bounds and corner case check
universe@638	526	if (index > list->size || n == 0) return 0;
universe@638	527
universe@638	528	// find position efficiently
universe@638	529	cx_linked_list_node *node = index == 0 ? NULL : cx_ll_node_at((cx_linked_list *) list, index - 1);
universe@638	530
universe@638	531	// perform first insert
universe@638	532	if (0 != cx_ll_insert_at(list, node, array)) {
universe@638	533	return 1;
universe@638	534	}
universe@638	535
universe@638	536	// is there more?
universe@638	537	if (n == 1) return 1;
universe@638	538
universe@638	539	// we now know exactly where we are
universe@638	540	node = node == NULL ? ((cx_linked_list *) list)->begin : node->next;
universe@638	541
universe@638	542	// we can add the remaining nodes and immedately advance to the inserted node
universe@638	543	char const *source = array;
universe@638	544	for (size_t i = 1; i < n; i++) {
universe@638	545	source += list->itemsize;
universe@638	546	if (0 != cx_ll_insert_at(list, node, source)) {
universe@638	547	return i;
universe@638	548	}
universe@638	549	node = node->next;
universe@638	550	}
universe@638	551	return n;
universe@638	552	}
universe@638	553
universe@641	554	static int cx_ll_insert_element(
universe@641	555	struct cx_list_s *list,
universe@641	556	size_t index,
universe@641	557	void const *element
universe@641	558	) {
universe@641	559	return 1 != cx_ll_insert_array(list, index, element, 1);
universe@641	560	}
universe@641	561
universe@481	562	static int cx_ll_remove(
universe@500	563	struct cx_list_s *list,
universe@481	564	size_t index
universe@481	565	) {
universe@447	566	cx_linked_list *ll = (cx_linked_list *) list;
universe@447	567	cx_linked_list_node *node = cx_ll_node_at(ll, index);
universe@447	568
universe@447	569	// out-of-bounds check
universe@447	570	if (node == NULL) return 1;
universe@447	571
universe@476	572	// remove
universe@476	573	cx_linked_list_remove((void **) &ll->begin, (void **) &ll->end,
universe@476	574	CX_LL_LOC_PREV, CX_LL_LOC_NEXT, node);
universe@447	575
universe@447	576	// adjust size
universe@447	577	list->size--;
universe@447	578
universe@447	579	// free and return
universe@447	580	cxFree(list->allocator, node);
universe@447	581
universe@438	582	return 0;
universe@398	583	}
universe@398	584
universe@647	585	#ifndef CX_LINKED_LIST_SWAP_SBO_SIZE
universe@647	586	#define CX_LINKED_LIST_SWAP_SBO_SIZE 16
universe@647	587	#endif
universe@647	588
universe@647	589	static int cx_ll_swap(
universe@647	590	struct cx_list_s *list,
universe@647	591	size_t i,
universe@647	592	size_t j
universe@647	593	) {
universe@647	594	if (i >= list->size || j >= list->size) return 1;
universe@647	595	if (i == j) return 0;
universe@647	596
universe@647	597	// perform an optimized search that finds both elements in one run
universe@647	598	cx_linked_list *ll = (cx_linked_list *) list;
universe@647	599	size_t mid = list->size / 2;
universe@647	600	size_t left, right;
universe@647	601	if (i < j) {
universe@647	602	left = i;
universe@647	603	right = j;
universe@647	604	} else {
universe@647	605	left = j;
universe@647	606	right = i;
universe@647	607	}
universe@647	608	cx_linked_list_node *nleft, *nright;
universe@647	609	if (left < mid && right < mid) {
universe@647	610	// case 1: both items left from mid
universe@647	611	nleft = cx_ll_node_at(ll, left);
universe@647	612	nright = nleft;
universe@647	613	for (size_t c = left; c < right; c++) {
universe@647	614	nright = nright->next;
universe@647	615	}
universe@647	616	} else if (left >= mid && right >= mid) {
universe@647	617	// case 2: both items right from mid
universe@647	618	nright = cx_ll_node_at(ll, right);
universe@647	619	nleft = nright;
universe@647	620	for (size_t c = right; c > left; c--) {
universe@647	621	nleft = nleft->prev;
universe@647	622	}
universe@647	623	} else {
universe@647	624	// case 3: one item left, one item right
universe@647	625
universe@647	626	// chose the closest to begin / end
universe@647	627	size_t closest;
universe@647	628	size_t other;
universe@647	629	size_t diff2boundary = list->size - right - 1;
universe@647	630	if (left <= diff2boundary) {
universe@647	631	closest = left;
universe@647	632	other = right;
universe@647	633	nleft = cx_ll_node_at(ll, left);
universe@647	634	} else {
universe@647	635	closest = right;
universe@647	636	other = left;
universe@647	637	diff2boundary = left;
universe@647	638	nright = cx_ll_node_at(ll, right);
universe@647	639	}
universe@647	640
universe@647	641	// is other element closer to us or closer to boundary?
universe@647	642	if (right - left <= diff2boundary) {
universe@647	643	// search other element starting from already found element
universe@647	644	if (closest == left) {
universe@647	645	nright = nleft;
universe@647	646	for (size_t c = left; c < right; c++) {
universe@647	647	nright = nright->next;
universe@647	648	}
universe@647	649	} else {
universe@647	650	nleft = nright;
universe@647	651	for (size_t c = right; c > left; c--) {
universe@647	652	nleft = nleft->prev;
universe@647	653	}
universe@647	654	}
universe@647	655	} else {
universe@647	656	// search other element starting at the boundary
universe@647	657	if (closest == left) {
universe@647	658	nright = cx_ll_node_at(ll, other);
universe@647	659	} else {
universe@647	660	nleft = cx_ll_node_at(ll, other);
universe@647	661	}
universe@647	662	}
universe@647	663	}
universe@647	664
universe@647	665	if (list->itemsize > CX_LINKED_LIST_SWAP_SBO_SIZE || CX_DISABLE_LINKED_LIST_SWAP_SBO) {
universe@647	666	cx_linked_list_node *prev = nleft->prev;
universe@647	667	cx_linked_list_node *next = nright->next;
universe@647	668	cx_linked_list_node *midstart = nleft->next;
universe@647	669	cx_linked_list_node *midend = nright->prev;
universe@647	670
universe@647	671	if (prev == NULL) {
universe@647	672	ll->begin = nright;
universe@647	673	} else {
universe@647	674	prev->next = nright;
universe@647	675	}
universe@647	676	nright->prev = prev;
universe@647	677	if (midstart == nright) {
universe@647	678	// special case: both nodes are adjacent
universe@647	679	nright->next = nleft;
universe@647	680	nleft->prev = nright;
universe@647	681	} else {
universe@647	682	// likely case: a chain is between the two nodes
universe@647	683	nright->next = midstart;
universe@647	684	midstart->prev = nright;
universe@647	685	midend->next = nleft;
universe@647	686	nleft->prev = midend;
universe@647	687	}
universe@647	688	nleft->next = next;
universe@647	689	if (next == NULL) {
universe@647	690	ll->end = nleft;
universe@647	691	} else {
universe@647	692	next->prev = nleft;
universe@647	693	}
universe@647	694	} else {
universe@647	695	// swap payloads to avoid relinking
universe@647	696	char buf[CX_LINKED_LIST_SWAP_SBO_SIZE];
universe@647	697	memcpy(buf, nleft->payload, list->itemsize);
universe@647	698	memcpy(nleft->payload, nright->payload, list->itemsize);
universe@647	699	memcpy(nright->payload, buf, list->itemsize);
universe@647	700	}
universe@647	701
universe@647	702	return 0;
universe@647	703	}
universe@647	704
universe@481	705	static void *cx_ll_at(
universe@500	706	struct cx_list_s const *list,
universe@481	707	size_t index
universe@481	708	) {
universe@439	709	cx_linked_list *ll = (cx_linked_list *) list;
universe@447	710	cx_linked_list_node *node = cx_ll_node_at(ll, index);
universe@466	711	return node == NULL ? NULL : node->payload;
universe@466	712	}
universe@466	713
universe@481	714	static size_t cx_ll_find(
universe@500	715	struct cx_list_s const *list,
universe@489	716	void const *elem
universe@481	717	) {
universe@480	718	return cx_linked_list_find(((cx_linked_list *) list)->begin,
universe@480	719	CX_LL_LOC_NEXT, CX_LL_LOC_DATA,
universe@639	720	list->cmpfunc, elem);
universe@466	721	}
universe@466	722
universe@500	723	static void cx_ll_sort(struct cx_list_s *list) {
universe@469	724	cx_linked_list *ll = (cx_linked_list *) list;
universe@469	725	cx_linked_list_sort((void **) &ll->begin, (void **) &ll->end,
universe@469	726	CX_LL_LOC_PREV, CX_LL_LOC_NEXT, CX_LL_LOC_DATA,
universe@639	727	list->cmpfunc);
universe@469	728	}
universe@469	729
universe@500	730	static void cx_ll_reverse(struct cx_list_s *list) {
universe@490	731	cx_linked_list *ll = (cx_linked_list *) list;
universe@521	732	cx_linked_list_reverse((void **) &ll->begin, (void **) &ll->end, CX_LL_LOC_PREV, CX_LL_LOC_NEXT);
universe@490	733	}
universe@490	734
universe@488	735	static int cx_ll_compare(
universe@500	736	struct cx_list_s const *list,
universe@500	737	struct cx_list_s const *other
universe@488	738	) {
universe@488	739	cx_linked_list *left = (cx_linked_list *) list;
universe@488	740	cx_linked_list *right = (cx_linked_list *) other;
universe@488	741	return cx_linked_list_compare(left->begin, right->begin,
universe@488	742	CX_LL_LOC_NEXT, CX_LL_LOC_DATA,
universe@639	743	list->cmpfunc);
universe@488	744	}
universe@488	745
universe@630	746	static bool cx_ll_iter_valid(void const *it) {
universe@630	747	struct cx_iterator_s const *iter = it;
universe@495	748	return iter->elem_handle != NULL;
universe@494	749	}
universe@494	750
universe@630	751	static void cx_ll_iter_next(void *it) {
universe@630	752	struct cx_iterator_base_s *itbase = it;
universe@630	753	if (itbase->remove) {
universe@630	754	itbase->remove = false;
universe@630	755	struct cx_mut_iterator_s *iter = it;
universe@495	756	cx_linked_list *ll = iter->src_handle;
universe@495	757	cx_linked_list_node *node = iter->elem_handle;
universe@495	758	iter->elem_handle = node->next;
universe@495	759	cx_linked_list_remove((void **) &ll->begin, (void **) &ll->end,
universe@495	760	CX_LL_LOC_PREV, CX_LL_LOC_NEXT, node);
universe@495	761	ll->base.size--;
universe@495	762	cxFree(ll->base.allocator, node);
universe@495	763	} else {
universe@630	764	struct cx_iterator_s *iter = it;
universe@495	765	iter->index++;
universe@495	766	cx_linked_list_node *node = iter->elem_handle;
universe@495	767	iter->elem_handle = node->next;
universe@495	768	}
universe@494	769	}
universe@494	770
universe@655	771	static void cx_ll_iter_prev(void *it) {
universe@655	772	struct cx_iterator_base_s *itbase = it;
universe@655	773	if (itbase->remove) {
universe@655	774	itbase->remove = false;
universe@655	775	struct cx_mut_iterator_s *iter = it;
universe@655	776	cx_linked_list *ll = iter->src_handle;
universe@655	777	cx_linked_list_node *node = iter->elem_handle;
universe@655	778	iter->elem_handle = node->prev;
universe@655	779	iter->index--;
universe@655	780	cx_linked_list_remove((void **) &ll->begin, (void **) &ll->end,
universe@655	781	CX_LL_LOC_PREV, CX_LL_LOC_NEXT, node);
universe@655	782	ll->base.size--;
universe@655	783	cxFree(ll->base.allocator, node);
universe@655	784	} else {
universe@655	785	struct cx_iterator_s *iter = it;
universe@655	786	iter->index--;
universe@655	787	cx_linked_list_node *node = iter->elem_handle;
universe@655	788	iter->elem_handle = node->prev;
universe@655	789	}
universe@655	790	}
universe@655	791
universe@630	792	static void *cx_ll_iter_current(void const *it) {
universe@630	793	struct cx_iterator_s const *iter = it;
universe@495	794	cx_linked_list_node *node = iter->elem_handle;
universe@494	795	return node->payload;
universe@494	796	}
universe@494	797
universe@630	798	static bool cx_ll_iter_flag_rm(void *it) {
universe@630	799	struct cx_iterator_base_s *iter = it;
universe@630	800	if (iter->mutating) {
universe@630	801	iter->remove = true;
universe@630	802	return true;
universe@630	803	} else {
universe@630	804	return false;
universe@630	805	}
universe@630	806	}
universe@630	807
universe@494	808	static CxIterator cx_ll_iterator(
universe@630	809	struct cx_list_s const *list,
universe@655	810	size_t index,
universe@655	811	bool backwards
universe@494	812	) {
universe@494	813	CxIterator iter;
universe@494	814	iter.index = index;
universe@495	815	iter.src_handle = list;
universe@495	816	iter.elem_handle = cx_ll_node_at((cx_linked_list const *) list, index);
universe@630	817	iter.base.valid = cx_ll_iter_valid;
universe@630	818	iter.base.current = cx_ll_iter_current;
universe@655	819	iter.base.next = backwards ? cx_ll_iter_prev : cx_ll_iter_next;
universe@630	820	iter.base.flag_removal = cx_ll_iter_flag_rm;
universe@630	821	iter.base.mutating = false;
universe@630	822	iter.base.remove = false;
universe@494	823	return iter;
universe@494	824	}
universe@494	825
universe@499	826	static int cx_ll_insert_iter(
universe@630	827	CxMutIterator *iter,
universe@499	828	void const *elem,
universe@499	829	int prepend
universe@499	830	) {
universe@500	831	struct cx_list_s *list = iter->src_handle;
universe@499	832	cx_linked_list_node *node = iter->elem_handle;
universe@499	833	if (node != NULL) {
universe@499	834	assert(prepend >= 0 && prepend <= 1);
universe@499	835	cx_linked_list_node *choice[2] = {node, node->prev};
universe@499	836	int result = cx_ll_insert_at(list, choice[prepend], elem);
universe@499	837	iter->index += prepend * (0 == result);
universe@499	838	return result;
universe@499	839	} else {
universe@641	840	int result = cx_ll_insert_element(list, list->size, elem);
universe@499	841	iter->index = list->size;
universe@499	842	return result;
universe@499	843	}
universe@499	844	}
universe@499	845
universe@524	846	static void cx_ll_destructor(CxList *list) {
universe@524	847	cx_linked_list *ll = (cx_linked_list *) list;
universe@524	848
universe@524	849	cx_linked_list_node *node = ll->begin;
universe@524	850	while (node) {
universe@524	851	void *next = node->next;
universe@524	852	cxFree(list->allocator, node);
universe@524	853	node = next;
universe@524	854	}
universe@524	855	// do not free the list pointer, this is just a destructor!
universe@524	856	}
universe@524	857
universe@451	858	static cx_list_class cx_linked_list_class = {
universe@524	859	cx_ll_destructor,
universe@641	860	cx_ll_insert_element,
universe@638	861	cx_ll_insert_array,
universe@499	862	cx_ll_insert_iter,
universe@398	863	cx_ll_remove,
universe@647	864	cx_ll_swap,
universe@439	865	cx_ll_at,
universe@404	866	cx_ll_find,
universe@488	867	cx_ll_sort,
universe@490	868	cx_ll_compare,
universe@494	869	cx_ll_reverse,
universe@630	870	cx_ll_iterator,
universe@398	871	};
universe@398	872
universe@662	873	static CxList *cx_linked_list_create(
universe@508	874	CxAllocator const *allocator,
universe@481	875	CxListComparator comparator,
universe@481	876	size_t item_size
universe@481	877	) {
universe@503	878	cx_linked_list *list = cxCalloc(allocator, 1, sizeof(cx_linked_list));
universe@528	879	if (list == NULL) return NULL;
universe@398	880
universe@435	881	list->base.cl = &cx_linked_list_class;
universe@435	882	list->base.allocator = allocator;
universe@435	883	list->base.cmpfunc = comparator;
universe@435	884	list->base.itemsize = item_size;
universe@435	885	list->base.capacity = SIZE_MAX;
universe@406	886
universe@500	887	return (CxList *) list;
universe@406	888	}
universe@662	889
universe@662	890	CxList *cxLinkedListCreate(
universe@662	891	CxAllocator const *allocator,
universe@662	892	CxListComparator comparator,
universe@662	893	size_t item_size
universe@662	894	) {
universe@662	895	return cx_linked_list_create(allocator, comparator, item_size);
universe@662	896	}
universe@662	897
universe@662	898	CxList *cxLinkedListCreateSimple(size_t item_size) {
universe@662	899	return cx_linked_list_create(cxDefaultAllocator, NULL, item_size);
universe@662	900	}