/** * File: hash_map_chaining.c * Created Time: 2023-10-13 * Author: SenMing (1206575349@qq.com), Krahets (krahets@163.com) */ #include #include #include // 假设 val 最大长度为 100 #define MAX_SIZE 100 /* 键值对 */ typedef struct { int key; char val[MAX_SIZE]; } Pair; /* 链表节点 */ typedef struct Node { Pair *pair; struct Node *next; } Node; /* 链式地址哈希表 */ typedef struct { int size; // 键值对数量 int capacity; // 哈希表容量 double loadThres; // 触发扩容的负载因子阈值 int extendRatio; // 扩容倍数 Node **buckets; // 桶数组 } HashMapChaining; /* 构造函数 */ HashMapChaining *newHashMapChaining() { HashMapChaining *hashMap = (HashMapChaining *)malloc(sizeof(HashMapChaining)); hashMap->size = 0; hashMap->capacity = 4; hashMap->loadThres = 2.0 / 3.0; hashMap->extendRatio = 2; hashMap->buckets = (Node **)malloc(hashMap->capacity * sizeof(Node *)); for (int i = 0; i < hashMap->capacity; i++) { hashMap->buckets[i] = NULL; } return hashMap; } /* 析构函数 */ void delHashMapChaining(HashMapChaining *hashMap) { for (int i = 0; i < hashMap->capacity; i++) { Node *cur = hashMap->buckets[i]; while (cur) { Node *tmp = cur; cur = cur->next; free(tmp->pair); free(tmp); } } free(hashMap->buckets); free(hashMap); } /* 哈希函数 */ int hashFunc(HashMapChaining *hashMap, int key) { return key % hashMap->capacity; } /* 负载因子 */ double loadFactor(HashMapChaining *hashMap) { return (double)hashMap->size / (double)hashMap->capacity; } /* 查询操作 */ char *get(HashMapChaining *hashMap, int key) { int index = hashFunc(hashMap, key); // 遍历桶,若找到 key 则返回对应 val Node *cur = hashMap->buckets[index]; while (cur) { if (cur->pair->key == key) { return cur->pair->val; } cur = cur->next; } return ""; // 若未找到 key 则返回空字符串 } /* 添加操作 */ void put(HashMapChaining *hashMap, int key, const char *val); /* 扩容哈希表 */ void extend(HashMapChaining *hashMap) { // 暂存原哈希表 int oldCapacity = hashMap->capacity; Node **oldBuckets = hashMap->buckets; // 初始化扩容后的新哈希表 hashMap->capacity *= hashMap->extendRatio; hashMap->buckets = (Node **)malloc(hashMap->capacity * sizeof(Node *)); for (int i = 0; i < hashMap->capacity; i++) { hashMap->buckets[i] = NULL; } hashMap->size = 0; // 将键值对从原哈希表搬运至新哈希表 for (int i = 0; i < oldCapacity; i++) { Node *cur = oldBuckets[i]; while (cur) { put(hashMap, cur->pair->key, cur->pair->val); Node *temp = cur; cur = cur->next; // 释放内存 free(temp->pair); free(temp); } } free(oldBuckets); } /* 添加操作 */ void put(HashMapChaining *hashMap, int key, const char *val) { // 当负载因子超过阈值时,执行扩容 if (loadFactor(hashMap) > hashMap->loadThres) { extend(hashMap); } int index = hashFunc(hashMap, key); // 遍历桶,若遇到指定 key ,则更新对应 val 并返回 Node *cur = hashMap->buckets[index]; while (cur) { if (cur->pair->key == key) { strcpy(cur->pair->val, val); // 若遇到指定 key ,则更新对应 val 并返回 return; } cur = cur->next; } // 若无该 key ,则将键值对添加至链表头部 Pair *newPair = (Pair *)malloc(sizeof(Pair)); newPair->key = key; strcpy(newPair->val, val); Node *newNode = (Node *)malloc(sizeof(Node)); newNode->pair = newPair; newNode->next = hashMap->buckets[index]; hashMap->buckets[index] = newNode; hashMap->size++; } /* 删除操作 */ void removeItem(HashMapChaining *hashMap, int key) { int index = hashFunc(hashMap, key); Node *cur = hashMap->buckets[index]; Node *pre = NULL; while (cur) { if (cur->pair->key == key) { // 从中删除键值对 if (pre) { pre->next = cur->next; } else { hashMap->buckets[index] = cur->next; } // 释放内存 free(cur->pair); free(cur); hashMap->size--; return; } pre = cur; cur = cur->next; } } /* 打印哈希表 */ void print(HashMapChaining *hashMap) { for (int i = 0; i < hashMap->capacity; i++) { Node *cur = hashMap->buckets[i]; printf("["); while (cur) { printf("%d -> %s, ", cur->pair->key, cur->pair->val); cur = cur->next; } printf("]\n"); } } /* Driver Code */ int main() { /* 初始化哈希表 */ HashMapChaining *hashMap = newHashMapChaining(); /* 添加操作 */ // 在哈希表中添加键值对 (key, value) put(hashMap, 12836, "小哈"); put(hashMap, 15937, "小啰"); put(hashMap, 16750, "小算"); put(hashMap, 13276, "小法"); put(hashMap, 10583, "小鸭"); printf("\n添加完成后,哈希表为\nKey -> Value\n"); print(hashMap); /* 查询操作 */ // 向哈希表输入键 key ,得到值 value char *name = get(hashMap, 13276); printf("\n输入学号 13276 ,查询到姓名 %s\n", name); /* 删除操作 */ // 在哈希表中删除键值对 (key, value) removeItem(hashMap, 12836); printf("\n删除学号 12836 后,哈希表为\nKey -> Value\n"); print(hashMap); /* 释放哈希表空间 */ delHashMapChaining(hashMap); return 0; }