/* * File: hash_map_open_addressing.rs * Created Time: 2023-07-16 * Author: WSL0809 (wslzzy@outlook.com) */ #[derive(Clone, PartialEq)] /* 键值对 */ struct Pair { key: i32, val: String, } /* 开放寻址哈希表 */ struct HashMapOpenAddressing { size: usize, capacity: usize, load_thres: f32, extend_ratio: usize, buckets: Vec>, removed: Pair, } impl HashMapOpenAddressing { /* 构造方法 */ fn new() -> Self { Self { size: 0, capacity: 4, load_thres: 2.0 / 3.0, extend_ratio: 2, buckets: vec![None; 4], removed: Pair { key: -1, val: "-1".to_string(), }, } } /* 哈希函数 */ fn hash_func(&self, key: i32) -> usize { (key % self.capacity as i32) as usize } /* 负载因子 */ fn load_factor(&self) -> f32 { self.size as f32 / self.capacity as f32 } /* 查询操作 */ fn get(&self, key: i32) -> Option<&str> { let mut index = self.hash_func(key); let capacity = self.capacity; // 线性探测,从 index 开始向后遍历 for _ in 0..capacity { // 计算桶索引,越过尾部返回头部 let j = (index + 1) % capacity; match &self.buckets[j] { // 若遇到空桶,说明无此 key ,则返回 None None => return None, // 若遇到指定 key ,则返回对应 val Some(pair) if pair.key == key && pair != &self.removed => return Some(&pair.val), _ => index = j, } } None } /* 添加操作 */ fn put(&mut self, key: i32, val: String) { // 当负载因子超过阈值时,执行扩容 if self.load_factor() > self.load_thres { self.extend(); } let mut index = self.hash_func(key); let capacity = self.capacity; // 线性探测,从 index 开始向后遍历 for _ in 0..capacity { //计算桶索引,越过尾部返回头部 let j = (index + 1) % capacity; // 若遇到空桶、或带有删除标记的桶,则将键值对放入该桶 match &mut self.buckets[j] { bucket @ &mut None | bucket @ &mut Some(Pair { key: -1, .. }) => { *bucket = Some(Pair { key, val }); self.size += 1; return; } // 若遇到指定 key ,则更新对应 val Some(pair) if pair.key == key => { pair.val = val; return; } _ => index = j, } } } /* 删除操作 */ fn remove(&mut self, key: i32) { let mut index = self.hash_func(key); let capacity = self.capacity; // 遍历桶,从中删除键值对 for _ in 0..capacity { let j = (index + 1) % capacity; match &mut self.buckets[j] { // 若遇到空桶,说明无此 key ,则直接返回 None => return, // 若遇到指定 key ,则标记删除并返回 Some(pair) if pair.key == key => { *pair = Pair { key: -1, val: "-1".to_string(), }; self.size -= 1; return; } _ => index = j, } } } /* 扩容哈希表 */ fn extend(&mut self) { // 暂存原哈希表 let buckets_tmp = self.buckets.clone(); // 初始化扩容后的新哈希表 self.capacity *= self.extend_ratio; self.buckets = vec![None; self.capacity]; self.size = 0; // 将键值对从原哈希表搬运至新哈希表 for pair in buckets_tmp { if let Some(pair) = pair { self.put(pair.key, pair.val); } } } /* 打印哈希表 */ fn print(&self) { for pair in &self.buckets { match pair { Some(pair) => println!("{} -> {}", pair.key, pair.val), None => println!("None"), } } } } /* Driver Code */ fn main() { /* 初始化哈希表 */ let mut hashmap = HashMapOpenAddressing::new(); /* 添加操作 */ // 在哈希表中添加键值对 (key, value) hashmap.put(12836, "小哈".to_string()); hashmap.put(15937, "小啰".to_string()); hashmap.put(16750, "小算".to_string()); hashmap.put(13276, "小法".to_string()); hashmap.put(10583, "小鸭".to_string()); println!("\n添加完成后,哈希表为\nKey -> Value"); hashmap.print(); /* 查询操作 */ // 向哈希表输入键 key ,得到值 value let name = hashmap.get(13276).unwrap(); println!("\n输入学号 13276 ,查询到姓名 {}", name); /* 删除操作 */ // 在哈希表中删除键值对 (key, value) hashmap.remove(16750); println!("\n删除 16750 后,哈希表为\nKey -> Value"); hashmap.print(); }