Fri, 27 Dec 2019 11:48:55 +0100
adds install target for cmake builds
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2017 Mike Becker, Olaf Wintermann All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT HOLDER 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. */ #include "avl_tests.h" #include <ucx/utils.h> static int node_height(UcxAVLNode *node) { if(!node) { return 0; } int left = 0; int right = 0; if(node->left) { left = node_height(node->left); } if(node->right) { right = node_height(node->right); } return left > right ? left+1 : right+1; } static int check_tree(UcxAVLNode *node) { if(!node) { return 1; } int left_height = node_height(node->left); int right_height = node_height(node->right); int bf = -left_height + right_height; if(bf < -1 || bf > 1) { return 0; } int height = left_height > right_height ? left_height : right_height; height++; if(height != node->height) { return 0; } if(!check_tree(node->left)) { return 0; } if(!check_tree(node->right)) { return 0; } return 1; } UCX_TEST(test_ucx_avl_put) { UcxAVLTree *tree1 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree2 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree3 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree4 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree5 = ucx_avl_new(ucx_cmp_ptr); char *data1 = (char*)"data1"; char *data2 = (char*)"data2"; char *data3 = (char*)"data3"; UCX_TEST_BEGIN ucx_avl_put(tree1, 2, (char*)data2); ucx_avl_put(tree1, 1, (char*)data1); ucx_avl_put(tree1, 3, (char*)data3); UCX_TEST_ASSERT(check_tree(tree1->root), "check_tree failed (tree1)"); UCX_TEST_ASSERT(ucx_avl_get(tree1, 1) == data1, "wrong data (tree1)"); UCX_TEST_ASSERT(ucx_avl_get(tree1, 2) == data2, "wrong data (tree1)"); UCX_TEST_ASSERT(ucx_avl_get(tree1, 3) == data3, "wrong data (tree1)"); for(int i=0;i<100000;i++) { ucx_avl_put(tree2, i, data1); } UCX_TEST_ASSERT(check_tree(tree2->root), "check_tree failed (tree2)"); for(int i=100000;i>=0;i--) { ucx_avl_put(tree3, i, data1); } UCX_TEST_ASSERT(check_tree(tree3->root), "check_tree failed (tree3)"); for(int i=0;i<100;i++) { ucx_avl_put(tree4, i, data1); } for(int i=400;i<500;i++) { ucx_avl_put(tree4, i, data2); } for(int i=399;i>200;i--) { ucx_avl_put(tree4, i, data3); } for(int i=800;i<1000;i++) { ucx_avl_put(tree4, i, data1); } UCX_TEST_ASSERT(check_tree(tree4->root), "check_tree failed (tree4)"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 0) == data1, "wrong data for key: 0"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 1) == data1, "wrong data for key: 1"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 99) == data1, "wrong data for key: 99"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 400)==data2, "wrong data for key: 400"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 410)==data2, "wrong data for key: 410"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 350)==data3, "wrong data for key: 350"); UCX_TEST_ASSERT(ucx_avl_get(tree4, 900)==data1, "wrong data for key: 900"); int values[] = { 3, 6, 12, 9, 23, 1, 0, 20, 34, 5, 8, 7, 6, 14, 15, 2, 4}; int len = sizeof(values) / sizeof(int); for(int i=0;i<len;i++) { ucx_avl_put(tree5, values[i], NULL); } UCX_TEST_ASSERT(check_tree(tree5->root), "check_tree failed (tree5)"); UCX_TEST_END ucx_avl_free(tree1); ucx_avl_free(tree2); ucx_avl_free(tree3); ucx_avl_free(tree4); ucx_avl_free(tree5); } UCX_TEST(test_ucx_avl_remove) { UcxAVLTree *tree1 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree2 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree3 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree4 = ucx_avl_new(ucx_cmp_ptr); char *data1 = (char*)"data1"; char *data2 = (char*)"data2"; char *data3 = (char*)"data3"; UCX_TEST_BEGIN ucx_avl_put(tree1, 2, (char*)data2); ucx_avl_put(tree1, 1, (char*)data1); ucx_avl_put(tree1, 3, (char*)data3); void *val; ucx_avl_remove_s(tree1, 3, NULL, &val); UCX_TEST_ASSERT(check_tree(tree1->root), "check_tree failed (tree1)"); UCX_TEST_ASSERT(val == data3, "wrong return value for key: 1 (tree1)"); UCX_TEST_ASSERT(ucx_avl_get(tree1, 3) == NULL, "value not removed (tree1)"); ucx_avl_remove_s(tree1, 2, NULL, &val); UCX_TEST_ASSERT(val == data2, "wrong return value for key: 2 (tree1)"); UCX_TEST_ASSERT(check_tree(tree1->root), "check_tree failed (tree1)"); ucx_avl_remove_s(tree1, 1, NULL, &val); UCX_TEST_ASSERT(val == data1, "wrong return value for key: 1 (tree1)"); UCX_TEST_ASSERT(check_tree(tree1->root), "check_tree failed (tree1)"); UCX_TEST_ASSERT(tree1->root == NULL, "root not NULL (tree1)"); for(int i=0;i<20;i++) { if(i==10) { ucx_avl_put(tree2, i, data3); } else if(i==15) { ucx_avl_put(tree2, i, data2); } else { ucx_avl_put(tree2, i, data1); } } ucx_avl_remove_s(tree2, 10, NULL, &val); UCX_TEST_ASSERT(val == data3, "wrong return value for key: 10 (tree2)"); UCX_TEST_ASSERT(check_tree(tree2->root), "check_tree failed (tree2)"); ucx_avl_remove_s(tree2, 15, NULL, &val); UCX_TEST_ASSERT(val == data2, "wrong return value for key: 15 (tree2)"); UCX_TEST_ASSERT(check_tree(tree2->root), "check_tree failed (tree2)"); for(int i=0;i<20;i++) { ucx_avl_remove(tree2, i); UCX_TEST_ASSERT(check_tree(tree2->root), "check_tree failed (tree2)"); } UCX_TEST_ASSERT(tree2->root == NULL, "root not NULL (tree2)"); for(int i=0;i<100000;i++) { ucx_avl_put(tree3, i, data1); } for(int i=100000-1;i>=0;i--) { ucx_avl_remove(tree3, i); } UCX_TEST_ASSERT(tree3->root == NULL, "root not NULL (tree3)"); UCX_TEST_ASSERT(check_tree(tree3->root), "check_tree failed (tree3)"); ucx_avl_put(tree4, 1, data1); ucx_avl_remove(tree4, 1); UCX_TEST_ASSERT(check_tree(tree4->root), "check_tree failed (tree4)"); UCX_TEST_ASSERT(tree4->root == NULL, "root not NULL (tree4)"); UCX_TEST_END ucx_avl_free(tree1); ucx_avl_free(tree2); ucx_avl_free(tree3); ucx_avl_free(tree4); } static intmax_t dist_int(const void* a, const void* b, void* n) { return ((intptr_t)a)-((intptr_t)b); } UCX_TEST(test_ucx_avl_find) { UcxAVLTree *tree = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree2 = ucx_avl_new(ucx_cmp_ptr); UcxAVLTree *tree3 = ucx_avl_new(ucx_cmp_ptr); size_t len = 12; int val[] = {10, 15, 3, 4, -30, 20, 14, -11, 12, -5, 1, 13}; for (size_t i = 0 ; i < len ; i++) { ucx_avl_put(tree, val[i], &(val[i])); } UCX_TEST_BEGIN void* ret; /* test present values */ ret = ucx_avl_find(tree,(intptr_t)-5, dist_int, UCX_AVL_FIND_CLOSEST); UCX_TEST_ASSERT(ret && *((int*)ret) == -5, "AVL find closest failed"); ret = ucx_avl_find(tree,(intptr_t)-5, dist_int, UCX_AVL_FIND_EXACT); UCX_TEST_ASSERT(ret && *((int*)ret) == -5, "AVL find exact failed"); ret = ucx_avl_find(tree,(intptr_t)-5, dist_int, UCX_AVL_FIND_LOWER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == -5, "AVL find LB failed"); ret = ucx_avl_find(tree,(intptr_t)-5, dist_int, UCX_AVL_FIND_UPPER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == -5, "AVL find UB failed"); ret = ucx_avl_find(tree,(intptr_t)12, dist_int, UCX_AVL_FIND_CLOSEST); UCX_TEST_ASSERT(ret && *((int*)ret) == 12, "AVL find closest failed"); ret = ucx_avl_find(tree,(intptr_t)12, dist_int, UCX_AVL_FIND_EXACT); UCX_TEST_ASSERT(ret && *((int*)ret) == 12, "AVL find exact failed"); ret = ucx_avl_find(tree,(intptr_t)12, dist_int, UCX_AVL_FIND_LOWER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == 12, "AVL find LB failed"); ret = ucx_avl_find(tree,(intptr_t)12, dist_int, UCX_AVL_FIND_UPPER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == 12, "AVL find UB failed"); /* test missing values */ ret = ucx_avl_find(tree,(intptr_t)-10, dist_int, UCX_AVL_FIND_CLOSEST); UCX_TEST_ASSERT(ret && *((int*)ret) == -11, "AVL find closest failed"); ret = ucx_avl_find(tree,(intptr_t)-8, dist_int, UCX_AVL_FIND_EXACT); UCX_TEST_ASSERT(!ret, "AVL find exact failed"); ret = ucx_avl_find(tree,(intptr_t)-8, dist_int, UCX_AVL_FIND_LOWER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == -5, "AVL find LB failed"); ret = ucx_avl_find(tree,(intptr_t)-8, dist_int, UCX_AVL_FIND_UPPER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == -11, "AVL find UB failed"); ret = ucx_avl_find(tree,(intptr_t)18, dist_int, UCX_AVL_FIND_CLOSEST); UCX_TEST_ASSERT(ret && *((int*)ret) == 20, "AVL find closest failed"); ret = ucx_avl_find(tree,(intptr_t)7, dist_int, UCX_AVL_FIND_EXACT); UCX_TEST_ASSERT(!ret, "AVL find exact failed"); ret = ucx_avl_find(tree,(intptr_t)7, dist_int, UCX_AVL_FIND_LOWER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == 10, "AVL find LB failed"); ret = ucx_avl_find(tree,(intptr_t)7, dist_int, UCX_AVL_FIND_UPPER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == 4, "AVL find UB failed"); int val2[] = { 10, 15 }; ucx_avl_put(tree2, val2[0], &(val2[0])); ucx_avl_put(tree2, val2[1], &(val2[1])); ret = ucx_avl_find(tree2,(intptr_t)11, dist_int, UCX_AVL_FIND_UPPER_BOUNDED); UCX_TEST_ASSERT(ret && *((int*)ret) == 10, "AVL find LB failed"); int val3[] = { 15, 16, 1 }; ucx_avl_put(tree3, val3[0], &(val3[0])); ucx_avl_put(tree3, val3[1], &(val3[1])); ucx_avl_put(tree3, val3[2], &(val3[2])); ret = ucx_avl_find(tree3, (intptr_t)13, dist_int, UCX_AVL_FIND_CLOSEST); UCX_TEST_ASSERT(ret && *((int*)ret) == 15, "AVL find closest failed"); UCX_TEST_END ucx_avl_free(tree); ucx_avl_free(tree2); ucx_avl_free(tree3); } UCX_TEST(test_ucx_avl_traverse) { UcxAVLTree *tree = ucx_avl_new(ucx_cmp_ptr); size_t len = 12; int val[] = {10, 15, 3, 4, -30, 20, 14, -11, 12, -5, 1, 13}; int val_ordered[] = {-30, -11, -5, 1, 3, 4, 10, 12, 13, 14, 15, 20}; for (size_t i = 0 ; i < len ; i++) { ucx_avl_put(tree, val[i], &(val[i])); } UCX_TEST_BEGIN UcxAVLNode* node = ucx_avl_get_node(tree, (intptr_t) val_ordered[0]); for (size_t i = 0 ; i < len ; i++) { UCX_TEST_ASSERT(node->key == val_ordered[i], "AVL successor failed"); node = ucx_avl_succ(node); } UCX_TEST_ASSERT(!node, "AVL maximum incorrectly has a successor"); node = ucx_avl_get_node(tree, (intptr_t) val_ordered[len-1]); for (size_t i = len ; i > 0 ; i--) { UCX_TEST_ASSERT(node->key == val_ordered[i-1],"AVL predecessor failed"); node = ucx_avl_pred(node); } UCX_TEST_ASSERT(!node, "AVL minimum incorrectly has a predecessor"); UCX_TEST_END ucx_avl_free(tree); }