/* * File: hash_map_chaining.rs * Created Time: 2023-07-07 * Author: WSL0809 (wslzzy@outlook.com) */ #[derive(Clone)] /* Key-value pair */ struct Pair { key: i32, val: String, } /* Chained address hash table */ struct HashMapChaining { size: i32, capacity: i32, load_thres: f32, extend_ratio: i32, buckets: Vec>, } impl HashMapChaining { /* Constructor */ fn new() -> Self { Self { size: 0, capacity: 4, load_thres: 2.0 / 3.0, extend_ratio: 2, buckets: vec![vec![]; 4], } } /* Hash function */ fn hash_func(&self, key: i32) -> usize { key as usize % self.capacity as usize } /* Load factor */ fn load_factor(&self) -> f32 { self.size as f32 / self.capacity as f32 } /* Remove operation */ fn remove(&mut self, key: i32) -> Option { let index = self.hash_func(key); let bucket = &mut self.buckets[index]; // Traverse the bucket, remove the key-value pair from it for i in 0..bucket.len() { if bucket[i].key == key { let pair = bucket.remove(i); self.size -= 1; return Some(pair.val); } } // If the key is not found, return None None } /* Extend hash table */ fn extend(&mut self) { // Temporarily store the original hash table let buckets_tmp = std::mem::replace(&mut self.buckets, vec![]); // Initialize the extended new hash table self.capacity *= self.extend_ratio; self.buckets = vec![Vec::new(); self.capacity as usize]; self.size = 0; // Move key-value pairs from the original hash table to the new hash table for bucket in buckets_tmp { for pair in bucket { self.put(pair.key, pair.val); } } } /* Print hash table */ fn print(&self) { for bucket in &self.buckets { let mut res = Vec::new(); for pair in bucket { res.push(format!("{} -> {}", pair.key, pair.val)); } println!("{:?}", res); } } /* Add operation */ fn put(&mut self, key: i32, val: String) { // When the load factor exceeds the threshold, perform expansion if self.load_factor() > self.load_thres { self.extend(); } let index = self.hash_func(key); let bucket = &mut self.buckets[index]; // Traverse the bucket, if the specified key is encountered, update the corresponding val and return for pair in bucket { if pair.key == key { pair.val = val; return; } } let bucket = &mut self.buckets[index]; // If the key is not found, add the key-value pair to the end let pair = Pair { key, val }; bucket.push(pair); self.size += 1; } /* Query operation */ fn get(&self, key: i32) -> Option<&str> { let index = self.hash_func(key); let bucket = &self.buckets[index]; // Traverse the bucket, if the key is found, return the corresponding val for pair in bucket { if pair.key == key { return Some(&pair.val); } } // If the key is not found, return None None } } /* Driver Code */ pub fn main() { /* Initialize hash table */ let mut map = HashMapChaining::new(); /* Add operation */ // Add key-value pair (key, value) to the hash table map.put(12836, "Ha".to_string()); map.put(15937, "Luo".to_string()); map.put(16750, "Suan".to_string()); map.put(13276, "Fa".to_string()); map.put(10583, "Ya".to_string()); println!("\nAfter adding, the hash table is\nKey -> Value"); map.print(); /* Query operation */ // Enter key to the hash table, get value println!( "\nInput student ID 13276, found name {}", match map.get(13276) { Some(value) => value, None => "Not a valid Key", } ); /* Remove operation */ // Remove key-value pair (key, value) from the hash table map.remove(12836); println!("\nAfter removing 12836, the hash table is\nKey -> Value"); map.print(); }