WebSVN – HelenOS – Blame – /branches/rcu/kernel/test/extavltree/extavltree1.c

Rev	Author	Line No.	Line
2416	mencl	1	/*
		2	* Copyright (c) 2007 Vojtech Mencl
		3	* All rights reserved.
		4	*
		5	* Redistribution and use in source and binary forms, with or without
		6	* modification, are permitted provided that the following conditions
		7	* are met:
		8	*
		9	* - Redistributions of source code must retain the above copyright
		10	* notice, this list of conditions and the following disclaimer.
		11	* - Redistributions in binary form must reproduce the above copyright
		12	* notice, this list of conditions and the following disclaimer in the
		13	* documentation and/or other materials provided with the distribution.
		14	* - The name of the author may not be used to endorse or promote products
		15	* derived from this software without specific prior written permission.
		16	*
		17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		27	*/
		28
		29	#include <test.h>
		30	#include <print.h>
		31	#include <adt/extavl.h>
		32	#include <debug.h>
		33
		34	#include <panic.h>
		35
		36
		37	#define NODE_COUNT 100
		38
		39	/*
		40	* wrapper structure with a pointer to extended avl tree root
		41	*/
		42	static extavltree_t exttree;
		43
		44	/*
		45	* extavltree nodes in array for faster allocating
		46	*/
		47	static extavltree_node_t extavltree_nodes[NODE_COUNT];
		48
		49	/*
		50	* head of free nodes' list:
		51	*/
		52	static extavltree_node_t *first_free_node = NULL;
		53
		54
		55
		56	static int exttree_test_height(extavltree_node_t *node,bool timeout);
		57	static extavltree_node_t exttree_test_parents(extavltree_node_t node);
		58	static void print_exttree_structure_flat (extavltree_node_t *node, int level);
		59	static bool exttree_test_link(int node_count);
2421	mencl	60	static void print_exttree_link(void);
2416	mencl	61	static extavltree_node_t *alloc_extavltree_node(void);
		62
		63
		64
		65	//vraci hloubku stromu
		66	static int exttree_test_height(extavltree_node_t *node,bool timeout)
		67	{
		68	int h1, h2;
		69
		70	if (!node) return -1;
		71
		72	h1 = exttree_test_height(node->lft,timeout) + 1;
		73	if (!timeout && node->lft_height != h1) {
		74	printf("Bad height: %d of LEFT subtree in node: %d with address: %p\n",h1,node->key,node);
		75	}
		76	h2 = exttree_test_height(node->rgt,0) + 1;
		77	if (node->rgt_height != h2) {
		78	printf("Bad height: %d of RIGHT subtree in node: %d with address: %p\n",h2,node->key,node);
		79	}
		80	if (!timeout && (((h1-h2)>0?h1-h2:h2-h1) > 1)) {
		81	printf("Bad height: error in definition of avltree: %d with address: %p\n",node->key,node);
		82	}
		83
		84	return (node->lft_height > node->rgt_height? node->lft_height: node->rgt_height);
		85	}
		86
		87
		88	/** Tests par atribute of every tree node
		89	*
		90	*/
		91	static extavltree_node_t exttree_test_parents(extavltree_node_t node)
		92	{
		93	extavltree_node_t *tmp;
		94
		95	if (!node) return NULL;
		96
		97	if (node->lft) {
		98	tmp = exttree_test_parents(node->lft);
		99	if (tmp != node) {
		100	printf("Bad parent pointer at node with key: %d, address: %p\n",tmp->key,node->lft);
		101	}
		102	}
		103	if (node->rgt) {
		104	tmp = exttree_test_parents(node->rgt);
		105	if (tmp != node) {
		106	printf("Bad parent pointer at node with key: %d, address: %p\n",tmp->key,node->rgt);
		107	}
		108	}
		109	return node->par;
		110	}
		111
		112	/** Checks list of nodes
		113	*
		114	*/
		115	static bool exttree_test_link(int node_count)
		116	{
		117	extavltree_node_t *node;
		118	int i;
		119	bool test_link = true;
		120
		121	for (i = 0,node = exttree.head.next; node != &(exttree.head); i++,node = node->next) {
		122	if ((node->next != &(exttree.head)) && (node->key > node->next->key)) {
		123	printf("\nList is not sorted (forward direction) at key: %d\n",node->key);
		124	test_link = false;
		125	}
		126	}
2421	mencl	127	if (i != node_count) {
2416	mencl	128	printf("\nBad node count!!! Counted: %d, right number: %d", i, node_count);
		129	test_link = false;
		130	}
		131	for (i = 0,node = exttree.head.prev; node != &(exttree.head); i++,node = node->prev) {
		132	if ((node->prev != &(exttree.head)) && (node->key < node->prev->key)) {
		133	printf("\nList is not sorted (backward direction) at key: %d\n",node->key);
		134	test_link = false;
		135	}
		136	}
2421	mencl	137	if (i != node_count) {
2416	mencl	138	printf("\nBad node count!!! Counted: %d, right number: %d", i, node_count);
		139	test_link = false;
		140	}
		141	return test_link;
		142	}
		143
		144	/** Prints the structure of node, which is level levels from the top of the tree.
		145	*
		146	*/
		147	static void print_exttree_structure_flat (extavltree_node_t *node, int level)
		148	{
		149	extavltree_node_t *tmp;
		150	int i;
		151
		152	if (level > 16)
		153	{
		154	printf ("[...]");
		155	return;
		156	}
		157
		158	if (node == NULL)
		159	return;
		160
		161	for (tmp = node,i = 0; tmp->key == node->key; tmp = tmp->next,i++)
		162	;
		163
		164	printf ("%d[%d,%d,(%d)]", node->key,node->lft_height,node->rgt_height,i);
		165	if (node->lft != NULL \|\| node->rgt != NULL)
		166	{
		167	printf("(");
		168
		169	print_exttree_structure_flat (node->lft, level + 1);
		170	if (node->rgt != NULL)
		171	{
		172	printf(",");
		173	print_exttree_structure_flat (node->rgt, level + 1);
		174	}
		175
		176	printf(")");
		177	}
		178	}
		179
		180	/** Prints list of nodes
		181	*
		182	*/
2421	mencl	183	static void print_exttree_link(void)
2416	mencl	184	{
		185	extavltree_node_t *node;
		186	printf("\n");
		187	for (node = exttree.head.next; node != &(exttree.head); node = node->next) {
		188	printf(" %d,",node->key);
		189	}
		190	for (node = exttree.head.prev; node != &(exttree.head); node = node->prev) {
		191	printf(" %d,",node->key);
		192	}
		193	}
		194
		195	//****************************************************************
		196	static void alloc_extavltree_node_prepare(void)
		197	{
		198	int i;
		199
		200	for (i = 0; i < NODE_COUNT - 1; i++) {
		201	extavltree_nodes[i].next = &(extavltree_nodes[i+1]);
		202	}
		203	/*
		204	* Node keys which will be used for insertion. Up to NODE_COUNT size of array.
		205	*/
		206
		207	// First tree node and same key
		208	extavltree_nodes[0].key = 60;
		209	extavltree_nodes[1].key = 60;
		210	extavltree_nodes[2].key = 60;
		211	//LL rotation
		212	extavltree_nodes[3].key = 50;
		213	extavltree_nodes[4].key = 40;
		214	extavltree_nodes[5].key = 30;
		215	//LR rotation
		216	extavltree_nodes[6].key = 20;
		217	extavltree_nodes[7].key = 20;
		218	extavltree_nodes[8].key = 25;
		219	extavltree_nodes[9].key = 25;
		220	//LL rotation in lower floor
		221	extavltree_nodes[10].key = 35;
		222	//RR rotation
		223	extavltree_nodes[11].key = 70;
		224	extavltree_nodes[12].key = 80;
		225	//RL rotation
		226	extavltree_nodes[13].key = 90;
		227	extavltree_nodes[14].key = 85;
		228	extavltree_nodes[15].key = 100;
		229	extavltree_nodes[16].key = 200;
		230	extavltree_nodes[17].key = 300;
		231	extavltree_nodes[18].key = 400;
		232	extavltree_nodes[19].key = 500;
		233	extavltree_nodes[20].key = 600;
		234
		235	for (i = 21; i < NODE_COUNT; i++)
		236	extavltree_nodes[i].key = i * 3;
		237
		238	extavltree_nodes[i].next = NULL;
		239	first_free_node = &(extavltree_nodes[0]);
		240	}
		241
		242	static extavltree_node_t *alloc_extavltree_node(void)
		243	{
		244	extavltree_node_t *node;
		245
		246	node = first_free_node;
		247	first_free_node = first_free_node->next;
		248
		249	return node;
		250	}
		251	//****************************************************************
		252
		253	static void test_exttree_insert(extavltree_t *tree, unsigned int node_count, int quiet)
		254	{
		255	unsigned int i;
		256	extavltree_node_t *newnode;
		257
		258	/*
		259	* Initialize tree before using.
		260	*/
		261	extavltree_create(tree);
		262
2421	mencl	263	if (!quiet) printf("\nInserting %d nodes ...\n", node_count);
2416	mencl	264
		265	for (i = 0; i < node_count; i++) {
		266	newnode = alloc_extavltree_node();
		267	//if (!quiet) printf("[[[%d]]]\n",newnode->key);
		268
		269	extavltree_insert(tree, newnode);
		270	if (!quiet) {
		271	if (!exttree_test_link(i+1)) {
2421	mencl	272	print_exttree_link();
2416	mencl	273	printf("\n");
		274	}
		275	exttree_test_parents(tree->root);
		276	exttree_test_height(tree->root,1);
		277	}
		278	}
		279
		280	if (!quiet) printf("Inserting was finished\n");
		281	}
		282
		283	/*
		284	static extavltree_node_t exttree_random_delete_node(extavltree_t tree, int node_count, int r, bool quiet)
		285	{
		286	extavltree_node_t *delnode;
		287	int i;
		288
		289	for (i = 0,delnode = tree->head.next; i < (r-1); i++)
		290	delnode = delnode->next;
		291
		292	if (delnode == &tree->head) {
		293	if (!quiet) printf("Try to delete head! Node count: %d, number of deleted node: %d\n",node_count,r);
		294	return NULL;
		295	}
		296
		297	extavltree_delete(tree, delnode);
		298
		299	return delnode;
		300	}
		301	*/
		302
		303	static void test_exttree_delete(extavltree_t *tree, int node_count, int node_position, bool quiet)
		304	{
		305	extavltree_node_t *delnode;
		306	unsigned int i;
		307
		308	//aktualni pocet tiku:
		309	if (!quiet) printf("Deleting tree...\n");
		310
		311	switch(node_position) {
		312	case 0: //mazani vzdy korene
2421	mencl	313	if (!quiet) printf("\nDelete root nodes\n");
		314	i = node_count - 1;
2416	mencl	315	while(tree->root != NULL) {
		316	delnode = tree->root;
		317	extavltree_delete(tree,delnode);
		318	if (!quiet) {
		319	if (!exttree_test_link(i)) {
2421	mencl	320	print_exttree_link();
2416	mencl	321	printf("\n");
		322	}
		323	exttree_test_parents(tree->root);
		324	exttree_test_height(tree->root,1);
		325	}
		326	i--;
		327	}
		328
		329	break;
		330	case 1:
2421	mencl	331	if (!quiet) printf("\nDelete nodes according to their time of origin\n");
2416	mencl	332	for (i = 0; i < node_count; i++) {
		333	extavltree_delete(tree,&(extavltree_nodes[i]));
		334	if (!quiet) {
2421	mencl	335	if (!exttree_test_link(node_count-i-1)) {
		336	print_exttree_link();
2416	mencl	337	printf("\n");
		338	}
		339	exttree_test_parents(tree->root);
		340	exttree_test_height(tree->root,1);
		341	}
		342	}
		343
		344	break;
		345	}
		346
		347	if (!quiet) printf("Deletion was finished\n");
		348	}
		349
		350	static void timeout_exttree(extavltree_t *tree, int node_count, bool quiet)
		351	{
2421	mencl	352	int i = node_count - 1;
2416	mencl	353
2421	mencl	354	if (!quiet) printf("\nTimeout tree ...\n");
2416	mencl	355
		356	while(tree->head.next != &(tree->head)) {
		357	extavltree_delete_min(tree);
		358	if (!quiet) {
		359	if (!exttree_test_link(i)) {
2421	mencl	360	print_exttree_link();
2416	mencl	361	printf("\n");
		362	}
		363	exttree_test_parents(tree->root);
		364	exttree_test_height(tree->root,1);
		365	}
		366	i--;
		367	}
		368
2421	mencl	369	if (!quiet && (i != -1)) printf("Bad node count. Some nodes have been lost!\n");
2416	mencl	370
		371	if (!quiet) printf("Timeout tree finished\n");
		372	}
		373
		374	/*
		375	void timeout_exttree_run(extavltree_t *tree, int operation_count, int verbal)
		376	{
		377	int i;
		378	extavltree_node_t *node;
		379	int r;
		380	int count;
		381
		382	//inicializace stromu:
		383	extavltree_create(tree);
		384
		385	for(i = 0, count = 0; i < operation_count; i++) {
		386	if (tree->count && ((rand() % NODE_COUNT) <= tree->count)) {
		387	if ((r = rand()) % DELETE_PROB == 1) { //mazu nahodne
		388	node = exttree_random_delete_node(tree,(r % tree->count));
		389	//printf("DELETE key: %d, number: %d,address: %p\n",node->key,r % (tree->count+1),node);
		390	node->next = first_free_node;
		391	first_free_node = node;
		392	} else {
		393	node = tree->head.next;
		394	extavltree_delete_min(tree);
		395	//printf("TIMEOUT key: %d, address: %p\n",node->key,node);
		396	node->next = first_free_node;
		397	first_free_node = node;
		398	}
		399	} else {
		400	node = alloc_extavltree_node_random();
		401	//printf("INSERT key: %d, address: %p\n",node->key + tree->basetime,node);
		402	extavltree_insert(tree, node);
		403	}
		404	//test_exttree_height(tree->root,1);
		405	//exttree_test_parents(tree->root);
		406	//print_exttree_link(tree->count);
		407	//print_exttree_structure_flat(tree->root,0); putchar('\n'); putchar('\n');
		408	}
		409	}
		410	*/
		411
		412	char * test_extavltree1(bool quiet)
		413	{
		414	alloc_extavltree_node_prepare();
		415	test_exttree_insert(&exttree, NODE_COUNT, quiet);
		416	test_exttree_delete(&exttree, NODE_COUNT, 0, quiet);
		417
		418	alloc_extavltree_node_prepare();
		419	test_exttree_insert(&exttree, NODE_COUNT, quiet);
		420	test_exttree_delete(&exttree, NODE_COUNT, 1, quiet);
		421
		422	alloc_extavltree_node_prepare();
		423	test_exttree_insert(&exttree, NODE_COUNT, quiet);
		424	timeout_exttree(&exttree, NODE_COUNT, quiet);
		425
		426	return NULL;
		427	}

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(root)/branches/rcu/kernel/test/extavltree/extavltree1.c – Rev 2426