feat: add rust codes for chapter heap (#612)

Co-authored-by: Yudong Jin <krahets@163.com>
1 year ago · a296786b2a
parent ead33ca863
commit a296786b2a
5 changed files with 322 additions and 21 deletions
--- a/codes/rust/Cargo.toml
+++ b/codes/rust/Cargo.toml
@ -179,6 +179,41 @@ path = "chapter_tree/binary_tree_dfs.rs"
 name = "binary_tree"
 path = "chapter_tree/binary_tree.rs"
 # Run Command: cargo run --bin heap
 [[bin]]
 name = "heap"
 path = "chapter_heap/heap.rs"
 # Run Command: cargo run --bin my_heap
 [[bin]]
 name = "my_heap"
 path = "chapter_heap/my_heap.rs"
 # Run Command: cargo run --bin top_k
 [[bin]]
 name = "top_k"
 path = "chapter_heap/top_k.rs"
 # Run Command: cargo run --bin graph_adjacency_list
 [[bin]]
 name = "graph_adjacency_list"
 path = "chapter_graph/graph_adjacency_list.rs"
 # Run Command: cargo run --bin graph_adjacency_matrix
 [[bin]]
 name = "graph_adjacency_matrix"
 path = "chapter_graph/graph_adjacency_matrix.rs"
 # Run Command: cargo run --bin graph_bfs
 [[bin]]
 name = "graph_bfs"
 path = "chapter_graph/graph_bfs.rs"
 # Run Command: cargo run --bin graph_dfs
 [[bin]]
 name = "graph_dfs"
 path = "chapter_graph/graph_dfs.rs"
 # Run Command: cargo run --bin linear_search
 [[bin]]
 name = "linear_search"
@ -234,26 +269,6 @@ path = "chapter_backtracking/subset_sum_i.rs"
 name = "subset_sum_ii"
 path = "chapter_backtracking/subset_sum_ii.rs"
 # Run Command: cargo run --bin graph_adjacency_list
 [[bin]]
 name = "graph_adjacency_list"
 path = "chapter_graph/graph_adjacency_list.rs"
 # Run Command: cargo run --bin graph_adjacency_matrix
 [[bin]]
 name = "graph_adjacency_matrix"
 path = "chapter_graph/graph_adjacency_matrix.rs"
 # Run Command: cargo run --bin graph_bfs
 [[bin]]
 name = "graph_bfs"
 path = "chapter_graph/graph_bfs.rs"
 # Run Command: cargo run --bin graph_dfs
 [[bin]]
 name = "graph_dfs"
 path = "chapter_graph/graph_dfs.rs"
 # Run Command: cargo run --bin coin_change
 [[bin]]
 name = "coin_change"
--- a/codes/rust/chapter_heap/heap.rs
+++ b/codes/rust/chapter_heap/heap.rs
@ -0,0 +1,73 @@
 /*
 * File: heap.rs
 * Created Time: 2023-07-16
 * Author: night-cruise (2586447362@qq.com)
 */
 include!("../include/include.rs");
 use std::collections::BinaryHeap;
 fn test_push(heap: &mut BinaryHeap<i32>, val: i32, flag: i32) {
    heap.push(flag * val); // 元素入堆
    println!("\n元素 {} 入堆后", val);
    print_util::print_heap(heap.iter().map(|&val| flag * val).collect());
 }
 fn test_pop(heap: &mut BinaryHeap<i32>, flag: i32) {
    let val = heap.pop().unwrap();
    println!("\n堆顶元素 {} 出堆后", flag * val);
    print_util::print_heap(heap.iter().map(|&val| flag * val).collect());
 }
 /* Driver Code */
 fn main() {
    /* 初始化堆 */
    // 初始化小顶堆
    #[allow(unused_assignments)]
    let mut min_heap = BinaryHeap::new();
    // Rust 的 BinaryHeap 是大顶堆，当入队时将元素值乘以 -1 将其反转，当出队时将元素值乘以 -1 将其还原
    let min_heap_flag = -1;
    // 初始化大顶堆
    let mut max_heap = BinaryHeap::new();
    let max_heap_flag = 1;
    println!("\n以下测试样例为大顶堆");
    /* 元素入堆 */
    test_push(&mut max_heap, 1, max_heap_flag);
    test_push(&mut max_heap, 3, max_heap_flag);
    test_push(&mut max_heap, 2, max_heap_flag);
    test_push(&mut max_heap, 5, max_heap_flag);
    test_push(&mut max_heap, 4, max_heap_flag);
    /* 获取堆顶元素 */
    let peek = max_heap.peek().unwrap() * max_heap_flag;
    println!("\n堆顶元素为 {}", peek);
    /* 堆顶元素出堆 */
    test_pop(&mut max_heap, max_heap_flag);
    test_pop(&mut max_heap, max_heap_flag);
    test_pop(&mut max_heap, max_heap_flag);
    test_pop(&mut max_heap, max_heap_flag);
    test_pop(&mut max_heap, max_heap_flag);
    /* 获取堆大小 */
    let size = max_heap.len();
    println!("\n堆元素数量为 {}", size);
    /* 判断堆是否为空 */
    let is_empty = max_heap.is_empty();
    println!("\n堆是否为空 {}", is_empty);
    /* 输入列表并建堆 */
    // 时间复杂度为 O(n) ，而非 O(nlogn)
    min_heap = BinaryHeap::from(
        vec![1, 3, 2, 5, 4]
            .into_iter()
            .map(|val| min_heap_flag * val)
            .collect::<Vec<i32>>(),
    );
    println!("\n输入列表并建立小顶堆后");
    print_util::print_heap(min_heap.iter().map(|&val| min_heap_flag * val).collect());
 }
--- a/codes/rust/chapter_heap/my_heap.rs
+++ b/codes/rust/chapter_heap/my_heap.rs
@ -0,0 +1,165 @@
 /*
 * File: my_heap.rs
 * Created Time: 2023-07-16
 * Author: night-cruise (2586447362@qq.com)
 */
 include!("../include/include.rs");
 /* 大顶堆 */
 struct MaxHeap {
    // 使用 vector 而非数组，这样无需考虑扩容问题
    max_heap: Vec<i32>,
 }
 impl MaxHeap {
    /* 构造方法，根据输入列表建堆 */
    fn new(nums: Vec<i32>) -> Self {
        // 将列表元素原封不动添加进堆
        let mut heap = MaxHeap { max_heap: nums };
        // 堆化除叶节点以外的其他所有节点
        for i in (0..=Self::parent(heap.size() - 1)).rev() {
            heap.sift_down(i);
        }
        heap
    }
    /* 获取左子节点索引 */
    fn left(i: usize) -> usize {
        2 * i + 1
    }
    /* 获取右子节点索引 */
    fn right(i: usize) -> usize {
        2 * i + 2
    }
    /* 获取父节点索引 */
    fn parent(i: usize) -> usize {
        (i - 1) / 2 // 向下整除
    }
    /* 交换元素 */
    fn swap(&mut self, i: usize, j: usize) {
        self.max_heap.swap(i, j);
    }
    /* 获取堆大小 */
    fn size(&self) -> usize {
        self.max_heap.len()
    }
    /* 判断堆是否为空 */
    fn is_empty(&self) -> bool {
        self.max_heap.is_empty()
    }
    /* 访问堆顶元素 */
    fn peek(&self) -> Option<i32> {
        self.max_heap.first().copied()
    }
    /* 元素入堆 */
    fn push(&mut self, val: i32) {
        // 添加节点
        self.max_heap.push(val);
        // 从底至顶堆化
        self.sift_up(self.size() - 1);
    }
    /* 从节点 i 开始，从底至顶堆化 */
    fn sift_up(&mut self, mut i: usize) {
        loop {
            // 节点 i 已经是堆顶节点了，结束堆化
            if i == 0 {
                break;
            }
            // 获取节点 i 的父节点
            let p = Self::parent(i);
            // 当“节点无需修复”时，结束堆化
            if self.max_heap[i] <= self.max_heap[p] {
                break;
            }
            // 交换两节点
            self.swap(i, p);
            // 循环向上堆化
            i = p;
        }
    }
    /* 元素出堆 */
    fn pop(&mut self) -> i32 {
        // 判空处理
        if self.is_empty() {
            panic!("index out of bounds");
        }
        // 交换根节点与最右叶节点（即交换首元素与尾元素）
        self.swap(0, self.size() - 1);
        // 删除节点
        let val = self.max_heap.remove(self.size() - 1);
        // 从顶至底堆化
        self.sift_down(0);
        // 返回堆顶元素
        val
    }
    /* 从节点 i 开始，从顶至底堆化 */
    fn sift_down(&mut self, mut i: usize) {
        loop {
            // 判断节点 i, l, r 中值最大的节点，记为 ma
            let (l, r, mut ma) = (Self::left(i), Self::right(i), i);
            if l < self.size() && self.max_heap[l] > self.max_heap[ma] {
                ma = l;
            }
            if r < self.size() && self.max_heap[r] > self.max_heap[ma] {
                ma = r;
            }
            // 若节点 i 最大或索引 l, r 越界，则无需继续堆化，跳出
            if ma == i {
                break;
            }
            // 交换两节点
            self.swap(i, ma);
            // 循环向下堆化
            i = ma;
        }
    }
    /* 打印堆（二叉树） */
    fn print(&self) {
        print_util::print_heap(self.max_heap.clone());
    }
 }
 /* Driver Code */
 fn main() {
    /* 初始化大顶堆 */
    let mut max_heap = MaxHeap::new(vec![9, 8, 6, 6, 7, 5, 2, 1, 4, 3, 6, 2]);
    println!("\n输入列表并建堆后");
    max_heap.print();
    /* 获取堆顶元素 */
    let peek = max_heap.peek();
    if let Some(peek) = peek {
        println!("\n堆顶元素为 {}", peek);
    }
    /* 元素入堆 */
    let val = 7;
    max_heap.push(val);
    println!("\n元素 {} 入堆后", val);
    max_heap.print();
    /* 堆顶元素出堆 */
    let peek = max_heap.pop();
    println!("\n堆顶元素 {} 出堆后", peek);
    max_heap.print();
    /* 获取堆大小 */
    let size = max_heap.size();
    println!("\n堆元素数量为 {}", size);
    /* 判断堆是否为空 */
    let is_empty = max_heap.is_empty();
    println!("\n堆是否为空 {}", is_empty);
 }
--- a/codes/rust/chapter_heap/top_k.rs
+++ b/codes/rust/chapter_heap/top_k.rs
@ -0,0 +1,39 @@
 /*
 * File: top_k.rs
 * Created Time: 2023-07-16
 * Author: night-cruise (2586447362@qq.com)
 */
 include!("../include/include.rs");
 use std::cmp::Reverse;
 use std::collections::BinaryHeap;
 /* 基于堆查找数组中最大的 k 个元素 */
 fn top_k_heap(nums: Vec<i32>, k: usize) -> BinaryHeap<Reverse<i32>> {
    // Rust 的 BinaryHeap 是大顶堆，使用 Reverse 将元素大小反转
    let mut heap = BinaryHeap::<Reverse<i32>>::new();
    // 将数组的前 k 个元素入堆
    for &num in nums.iter().take(k) {
        heap.push(Reverse(num));
    }
    // 从第 k+1 个元素开始，保持堆的长度为 k
    for &num in nums.iter().skip(k) {
        // 若当前元素大于堆顶元素，则将堆顶元素出堆、当前元素入堆
        if num > heap.peek().unwrap().0 {
            heap.pop();
            heap.push(Reverse(num));
        }
    }
    heap
 }
 /* Driver Code */
 fn main() {
    let nums = vec![1, 7, 6, 3, 2];
    let k = 3;
    let res = top_k_heap(nums, k);
    println!("最大的 {} 个元素为", k);
    print_util::print_heap(res.into_iter().map(|item| item.0).collect());
 }
--- a/codes/rust/include/print_util.rs
+++ b/codes/rust/include/print_util.rs
@ -10,7 +10,7 @@ use std::collections::{HashMap, VecDeque};
 use std::rc::Rc;
 use crate::list_node::ListNode;
-use crate::tree_node::TreeNode;
+use crate::tree_node::{TreeNode, vec_to_tree};
 struct Trunk<'a, 'b> {
    prev: Option<&'a Trunk<'a, 'b>>,
@ -90,3 +90,12 @@ fn show_trunks(trunk: Option<&Trunk>) {
        print!("{}", trunk.str.get());
    }
 }
 /* Print a heap both in array and tree representations */
 pub fn print_heap(heap: Vec<i32>) {
    println!("堆的数组表示：{:?}", heap);
    println!("堆的树状表示：");
    if let Some(root) = vec_to_tree(heap.into_iter().map(|val| Some(val)).collect()) {
        print_tree(&root);
    } 
 }