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ucx/list.c@51311a5685d3 (annotated)

ucx/list.c

Thu, 17 Jan 2013 23:56:48 +0100

author

Mike Becker <universe@uap-core.de>

date

Thu, 17 Jan 2013 23:56:48 +0100

changeset 77

51311a5685d3

parent 73

f15c7d6aebb9

child 87

bd444539cced

permissions

-rw-r--r--

used more library friendly optimization level

universe@10	1	#include "list.h"
olaf@2	2
universe@67	3	UcxList *restrict ucx_list_clone(UcxList *restrict l,
universe@67	4	copy_func fnc, void *data) {
universe@18	5	UcxList *ret = NULL;
universe@18	6	while (l != NULL) {
universe@18	7	if (fnc != NULL) {
universe@18	8	ret = ucx_list_append(ret, fnc(l->data, data));
universe@18	9	} else {
universe@18	10	ret = ucx_list_append(ret, l->data);
universe@18	11	}
universe@18	12	l = l->next;
universe@18	13	}
universe@18	14	return ret;
universe@18	15	}
universe@18	16
universe@67	17	int ucx_list_equals(const UcxList *l1, const UcxList *l2,
universe@67	18	cmp_func fnc, void* data) {
universe@18	19	if (l1 == l2) return 1;
universe@18	20
universe@18	21	while (l1 != NULL && l2 != NULL) {
universe@18	22	if (fnc == NULL) {
universe@18	23	if (l1->data != l2->data) return 0;
universe@18	24	} else {
universe@18	25	if (fnc(l1->data, l2->data, data) != 0) return 0;
universe@18	26	}
universe@18	27	l1 = l1->next;
universe@18	28	l2 = l2->next;
universe@18	29	}
universe@18	30
universe@18	31	return (l1 == NULL && l2 == NULL);
universe@18	32	}
universe@18	33
universe@10	34	void ucx_list_free(UcxList *l) {
universe@10	35	UcxList *e = l, *f;
universe@10	36	while (e != NULL) {
universe@10	37	f = e;
universe@10	38	e = e->next;
universe@10	39	free(f);
universe@10	40	}
universe@10	41	}
universe@10	42
universe@10	43	UcxList *ucx_list_append(UcxList *l, void *data) {
universe@10	44	UcxList *nl = (UcxList*) malloc(sizeof(UcxList));
universe@10	45	if (nl == NULL) return NULL;
universe@10	46
universe@10	47	nl->data = data;
universe@10	48	nl->next = NULL;
universe@10	49	if (l == NULL) {
universe@10	50	return nl;
universe@10	51	} else {
universe@10	52	UcxList *t = ucx_list_last(l);
universe@10	53	t->next = nl;
universe@10	54	return l;
universe@10	55	}
universe@10	56	}
universe@10	57
universe@10	58	UcxList *ucx_list_prepend(UcxList *l, void *data) {
universe@10	59	UcxList *nl = ucx_list_append(NULL, data);
universe@10	60	if (nl == NULL) return NULL;
universe@10	61
universe@10	62	if (l != NULL) {
universe@10	63	nl->next = l;
universe@10	64	}
universe@10	65	return nl;
universe@10	66	}
universe@10	67
universe@67	68	UcxList *ucx_list_concat(UcxList *restrict l1, UcxList *restrict l2) {
universe@10	69	if (l1 == NULL) {
universe@10	70	return l2;
universe@10	71	} else {
universe@10	72	UcxList *last = ucx_list_last(l1);
universe@10	73	last->next = l2;
universe@10	74	return l1;
universe@10	75	}
universe@10	76	}
universe@10	77
universe@67	78	UcxList *ucx_list_last(const UcxList *l) {
universe@10	79	if (l == NULL) return NULL;
universe@10	80
universe@67	81	const UcxList *e = l;
universe@10	82	while (e->next != NULL) {
universe@10	83	e = e->next;
universe@10	84	}
universe@67	85	return (UcxList*)e;
universe@10	86	}
universe@10	87
universe@67	88	UcxList *ucx_list_get(const UcxList *l, int index) {
universe@10	89	if (l == NULL) return NULL;
universe@10	90
universe@67	91	const UcxList *e = l;
universe@10	92	while (e->next != NULL && index > 0) {
universe@10	93	e = e->next;
universe@10	94	index--;
universe@10	95	}
universe@10	96
universe@67	97	return (UcxList*)(index == 0 ? e : NULL);
universe@10	98	}
universe@10	99
universe@67	100	size_t ucx_list_size(const UcxList *l) {
universe@10	101	if (l == NULL) return 0;
universe@10	102
universe@67	103	const UcxList *e = l;
universe@10	104	size_t s = 1;
universe@10	105	while (e->next != NULL) {
universe@10	106	e = e->next;
universe@10	107	s++;
universe@10	108	}
universe@10	109
universe@10	110	return s;
universe@10	111	}
universe@10	112
universe@37	113	UcxList *ucx_list_sort_merge(int length,
universe@67	114	UcxList* restrict ls, UcxList* restrict le, UcxList* restrict re,
universe@37	115	cmp_func fnc, void* data) {
universe@69	116
universe@73	117	UcxList** sorted = (UcxList**) malloc(sizeof(UcxList*)*length);
universe@37	118	UcxList *rc, *lc;
universe@35	119
universe@67	120	lc = ls; rc = le;
universe@37	121	int n = 0;
universe@67	122	while (lc && lc != le && rc != re) {
universe@37	123	if (fnc(lc->data, rc->data, data) <= 0) {
universe@37	124	sorted[n] = lc;
universe@37	125	lc = lc->next;
universe@37	126	} else {
universe@37	127	sorted[n] = rc;
universe@37	128	rc = rc->next;
universe@35	129	}
universe@37	130	n++;
universe@37	131	}
universe@67	132	while (lc && lc != le) {
universe@37	133	sorted[n] = lc;
universe@37	134	lc = lc->next;
universe@37	135	n++;
universe@37	136	}
universe@67	137	while (rc && rc != re) {
universe@37	138	sorted[n] = rc;
universe@37	139	rc = rc->next;
universe@37	140	n++;
universe@35	141	}
universe@35	142
universe@37	143	// Update pointer
universe@37	144	for (int i = 0 ; i < length-1 ; i++) {
universe@37	145	sorted[i]->next = sorted[i+1];
universe@37	146	}
universe@37	147	sorted[length-1]->next = NULL;
universe@35	148
universe@69	149	UcxList *ret = sorted[0];
universe@73	150	free(sorted);
universe@69	151	return ret;
universe@35	152	}
universe@35	153
universe@36	154	UcxList *ucx_list_sort(UcxList *l, cmp_func fnc, void *data) {
universe@35	155	if (l == NULL) {
universe@35	156	return NULL;
universe@35	157	}
universe@37	158
universe@37	159	UcxList *lc;
universe@37	160	int ln = 1;
universe@37	161
universe@67	162	UcxList *restrict ls = l, *restrict le, *restrict re;
universe@37	163	lc = ls;
universe@37	164	while (lc->next != NULL && fnc(lc->next->data, lc->data, data) > 0) {
universe@37	165	lc = lc->next;
universe@37	166	ln++;
universe@37	167	}
universe@37	168	le = lc->next;
universe@37	169
universe@67	170	if (le == NULL) {
universe@37	171	return l; // this list is already sorted :)
universe@37	172	} else {
universe@37	173	UcxList *rc;
universe@37	174	int rn = 1;
universe@67	175	rc = le;
universe@37	176	while (rc->next != NULL && fnc(rc->next->data, rc->data, data) > 0) {
universe@37	177	rc = rc->next;
universe@37	178	rn++;
universe@37	179	}
universe@37	180	re = rc->next;
universe@37	181
universe@37	182	// Something left? Sort it!
universe@37	183	UcxList *remainder = re;
universe@37	184	size_t remainder_length = ucx_list_size(remainder);
universe@37	185	if (remainder != NULL) {
universe@37	186	remainder = ucx_list_sort(remainder, fnc, data);
universe@37	187	}
universe@37	188
universe@37	189	// {ls,...,le->prev} and {rs,...,re->prev} are sorted - merge them
universe@37	190	UcxList *sorted = ucx_list_sort_merge(ln+rn,
universe@67	191	ls, le, re,
universe@37	192	fnc, data);
universe@37	193
universe@37	194	// merge sorted list with (also sorted) remainder
universe@37	195	l = ucx_list_sort_merge(ln+rn+remainder_length,
universe@67	196	sorted, remainder, NULL, fnc, data);
universe@37	197
universe@35	198	return l;
universe@35	199	}
universe@35	200	}
universe@35	201
universe@23	202	/* list specific functions */
universe@23	203	UcxList *ucx_list_remove(UcxList *l, UcxList *e) {
universe@23	204	if (e == l) {
universe@23	205	l = e->next;
universe@23	206	free(e);
universe@23	207	} else {
universe@23	208	UcxList *f = l;
universe@23	209	while (f->next != NULL && f->next != e) {
universe@23	210	f = f->next;
universe@23	211	}
olaf@31	212	/* perform remove if this element is found in this list */
universe@23	213	if (f->next == e) {
universe@23	214	f->next = e->next;
universe@23	215	free(e);
universe@23	216	}
universe@23	217	}
universe@23	218	return l;
universe@24	219	}