#include #include #include #include #include #include #include #include #include #include /* Setting this will do two things: * 1) limit our max height across all instances of this datastructure. * 2) remove a heap allocation on frequently used paths, insert/remove/etc. * so, use it when you need it. */ #define SKIPLIST_MAX_HEIGHT 12 #include "../include/sl.h" /* * SKIPLIST EXAMPLE: * * This example creates a Skiplist keys and values are integers. * 'slex' - meaning: SkipList EXample */ /* * To start, you must create a type node that will contain the * fields you'd like to maintain in your Skiplist. In this case * we map int -> int, but what you put here is up to you. You * don't even need a "key", just a way to compare one node against * another, logic you'll provide in SKIP_DECL as a block below. */ struct slex_node { int key; char *value; SKIPLIST_ENTRY(slex_node) entries; }; /* * Generate all the access functions for our type of Skiplist. */ SKIPLIST_DECL( slex, api_, entries, /* free node */ { free(node->value); }, /* update node */ { node->value = new->value; }, /* snapshot node */ { new->key = node->key; char *nv = calloc(strlen(node->value) + 1, sizeof(char)); if (nv == NULL) return NULL; // leaks some memory... TODO new->value = strncpy(nv, node->value, strlen(node->value)); }, /* size in bytes of the content stored in an entry by you */ { size = strlen(node->value) + 1; }) /* Optional: Create the functions used to visualize a Skiplist (DOT/Graphviz) */ SKIPLIST_DECL_DOT(slex, api_, entries) void sprintf_slex_node(slex_node_t *node, char *buf) { sprintf(buf, "%d:%s", node->key, node->value); } /* * Getters and Setters * It can be useful to have simple get/put-style API, but to * do that you'll have to supply some blocks of code used to * extract data from within your nodes. */ SKIPLIST_KV_ACCESS( slex, api_, int, char *, /* query blk */ { query.key = key; }, /* return blk */ { return node->value; }) /* * Now we need a way to compare the nodes you defined above. * Let's create a function with four arguments: * - a reference to the Skiplist, `slist` * - the two nodes to compare, `a` and `b` * - and `aux`, which you can use to pass into this function * any additional information required to compare objects. * `aux` is passed from the value in the Skiplist, you can * modify that value at any time to suit your needs. * * Your function should result in a return statement: * a < b : return -1 * a == b : return 0 * a > b : return 1 * * This result provides the ordering within the Skiplist. Sometimes * your function will not be used when comparing nodes. This will * happen when `a` or `b` are references to the head or tail of the * list or when `a == b`. In those cases the comparison function * returns before using the code in your block, don't panic. :) */ int __slm_key_compare(slex_t *list, slex_node_t *a, slex_node_t *b, void *aux) { (void)list; (void)aux; if (a->key < b->key) return -1; if (a->key > b->key) return 1; return 0; } static char * to_lower(char *str) { char *p = str; for (; *p; ++p) *p = *p >= 'A' && *p <= 'Z' ? *p | 0x60 : *p; return str; } static char * to_upper(char *str) { char *p = str; for (; *p; ++p) *p = *p >= 'a' && *p <= 'z' ? *p & ~0x20 : *p; return str; } static char * int_to_roman_numeral(int num) { int del[] = { 1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1 }; // Key value in Roman counting char *sym[] = { "M", "CM", "D", "CD", "C", "XC", "L", "XL", "X", "IX", "V", "IV", "I" }; // Symbols for key values // The maximum length of the Roman numeral representation for the maximum signed 64-bit integer would be approximately 19 * 3 = 57 characters, assuming // every digit is represented by its Roman numeral equivalent up to 3 repetitions. Therefore, 64 should be more than enough. char *res = (char *)calloc(64, sizeof(char)); int i = 0; if (num < 0) { res[0] = '-'; i++; num = -num; } if (num == 0) { res[0] = '0'; return res; } while (num) { // while input number is not zero while (num / del[i]) { // while a number contains the largest key value possible strcat(res, sym[i]); // append the symbol for this key value to res string num -= del[i]; // subtract the key value from number } i++; // proceed to the next key value } return res; } void shuffle(int *array, size_t n) { if (n > 1) { size_t i; for (i = n - 1; i > 0; i--) { size_t j = (unsigned int)(rand() % (i + 1)); /* NOLINT(*-msc50-cpp) */ int t = array[j]; array[j] = array[i]; array[i] = t; } } } #define TEST_ARRAY_SIZE 50 int main() { int rc = 0; /* Allocate and initialize a Skiplist. */ slex_t *list = (slex_t *)malloc(sizeof(slex_t)); if (list == NULL) return ENOMEM; rc = api_skip_init_slex(list, 12, __slm_key_compare); if (rc) return rc; /* Test creating a snapshot of an empty Skiplist */ slex_snap_t *snap = api_skip_snapshot_slex(list); slex_t *restored = api_skip_restore_snapshot_slex(snap, __skip_key_compare_slex); api_skip_dispose_snapshot_slex(snap); api_skip_destroy_slex(restored); /* Insert 7 key/value pairs into the list. */ int amt = TEST_ARRAY_SIZE, asz = (amt * 2) + 1; int array[(TEST_ARRAY_SIZE * 2) + 1]; for (int j = 0, i = -amt; i <= amt; i++, j++) array[j] = i; shuffle(array, asz); for (int i = 0; i < asz; i++) { rc = api_skip_put_slex(list, array[i], to_lower(int_to_roman_numeral(array[i]))); char *v = api_skip_get_slex(list, array[i]); api_skip_set_slex(list, array[i], to_upper(v)); } api_skip_del_slex(list, 0); #if 0 snap = api_skip_snapshot_slex(list); restored = api_skip_restore_snapshot_slex(snap, __skip_key_compare_slex); api_skip_dispose_snapshot_slex(snap); api_skip_destroy_slex(restored); #endif assert(strcmp(api_skip_pos_slex(list, SKIP_GTE, -(TEST_ARRAY_SIZE) -1)->value, int_to_roman_numeral(-(TEST_ARRAY_SIZE))) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_GTE, -2)->value, int_to_roman_numeral(-2)) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_GTE, 0)->value, int_to_roman_numeral(1)) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_GTE, 2)->value, int_to_roman_numeral(2)) == 0); assert(api_skip_pos_slex(list, SKIP_GTE, (TEST_ARRAY_SIZE + 1)) == NULL); assert(api_skip_pos_slex(list, SKIP_LTE, -(TEST_ARRAY_SIZE) - 1) == NULL); assert(strcmp(api_skip_pos_slex(list, SKIP_LTE, -2)->value, int_to_roman_numeral(-2)) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_LTE, 0)->value, int_to_roman_numeral(-1)) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_LTE, 2)->value, int_to_roman_numeral(2)) == 0); assert(strcmp(api_skip_pos_slex(list, SKIP_LTE, (TEST_ARRAY_SIZE + 1))->value, int_to_roman_numeral(TEST_ARRAY_SIZE)) == 0); FILE *of = fopen("/tmp/slm.dot", "w"); if (!of) { perror("Failed to open file /tmp/slm.dot"); return EXIT_FAILURE; } api_skip_dot_slex(of, list, 0, sprintf_slex_node); fclose(of); api_skip_destroy_slex(list); return rc; }