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Polish rust (#1777)

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* Polish rust

* Update array queue and linkedlist queue

* Update linkedlist deque

* make array deque generic
This commit is contained in:
rongyi
2025-07-10 06:33:22 +08:00
committed by GitHub
parent e8dc4736a2
commit b0c147b67c
8 changed files with 41 additions and 47 deletions
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2
codes/rust/chapter_array_and_linkedlist/my_list.rs
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@ -90,7 +90,7 @@ impl MyList {
panic!("索引越界") panic!("索引越界")
}; };
let num = self.arr[index]; let num = self.arr[index];
// 将索引 index 之后的元素都向前移动一位 // 将索引 index 之后的元素都向前移动一位
for j in index..self.size - 1 { for j in index..self.size - 1 {
self.arr[j] = self.arr[j + 1]; self.arr[j] = self.arr[j + 1];
} }

10
codes/rust/chapter_heap/heap.rs
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@ -13,22 +13,12 @@ fn test_push_max(heap: &mut BinaryHeap<i32>, val: i32) {
println!("\n元素 {} 入堆后", val); println!("\n元素 {} 入堆后", val);
print_util::print_heap(heap.iter().map(|&val| val).collect()); print_util::print_heap(heap.iter().map(|&val| val).collect());
} }
fn test_push_min(heap: &mut BinaryHeap<Reverse<i32>>, val: i32) {
heap.push(Reverse(val)); // 元素入堆
println!("\n元素 {} 入堆后", val);
print_util::print_heap(heap.iter().map(|&val| val.0).collect());
}
fn test_pop_max(heap: &mut BinaryHeap<i32>) { fn test_pop_max(heap: &mut BinaryHeap<i32>) {
let val = heap.pop().unwrap(); let val = heap.pop().unwrap();
println!("\n堆顶元素 {} 出堆后", val); println!("\n堆顶元素 {} 出堆后", val);
print_util::print_heap(heap.iter().map(|&val| val).collect()); print_util::print_heap(heap.iter().map(|&val| val).collect());
} }
fn test_pop_min(heap: &mut BinaryHeap<Reverse<i32>>) {
let val = heap.pop().unwrap().0;
println!("\n堆顶元素 {} 出堆后", val);
print_util::print_heap(heap.iter().map(|&val| val.0).collect());
}
/* Driver Code */ /* Driver Code */
fn main() { fn main() {

26
codes/rust/chapter_stack_and_queue/array_deque.rs
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@ -5,17 +5,17 @@
*/ */
use hello_algo_rust::include::print_util; use hello_algo_rust::include::print_util;
/* 基于环形数组实现的双向队列 */ /* 基于环形数组实现的双向队列 */
struct ArrayDeque { struct ArrayDeque<T> {
nums: Vec<i32>, // 用于存储双向队列元素的数组 nums: Vec<T>, // 用于存储双向队列元素的数组
front: usize, // 队首指针,指向队首元素 front: usize, // 队首指针,指向队首元素
que_size: usize, // 双向队列长度 que_size: usize, // 双向队列长度
} }
impl ArrayDeque { impl<T: Copy + Default> ArrayDeque<T> {
/* 构造方法 */ /* 构造方法 */
pub fn new(capacity: usize) -> Self { pub fn new(capacity: usize) -> Self {
Self { Self {
nums: vec![0; capacity], nums: vec![T::default(); capacity],
front: 0, front: 0,
que_size: 0, que_size: 0,
} }
@ -41,11 +41,11 @@ impl ArrayDeque {
// 通过取余操作实现数组首尾相连 // 通过取余操作实现数组首尾相连
// 当 i 越过数组尾部后,回到头部 // 当 i 越过数组尾部后,回到头部
// 当 i 越过数组头部后,回到尾部 // 当 i 越过数组头部后,回到尾部
return ((i + self.capacity() as i32) % self.capacity() as i32) as usize; ((i + self.capacity() as i32) % self.capacity() as i32) as usize
} }
/* 队首入队 */ /* 队首入队 */
pub fn push_first(&mut self, num: i32) { pub fn push_first(&mut self, num: T) {
if self.que_size == self.capacity() { if self.que_size == self.capacity() {
println!("双向队列已满"); println!("双向队列已满");
return; return;
@ -59,7 +59,7 @@ impl ArrayDeque {
} }
/* 队尾入队 */ /* 队尾入队 */
pub fn push_last(&mut self, num: i32) { pub fn push_last(&mut self, num: T) {
if self.que_size == self.capacity() { if self.que_size == self.capacity() {
println!("双向队列已满"); println!("双向队列已满");
return; return;
@ -72,7 +72,7 @@ impl ArrayDeque {
} }
/* 队首出队 */ /* 队首出队 */
fn pop_first(&mut self) -> i32 { fn pop_first(&mut self) -> T {
let num = self.peek_first(); let num = self.peek_first();
// 队首指针向后移动一位 // 队首指针向后移动一位
self.front = self.index(self.front as i32 + 1); self.front = self.index(self.front as i32 + 1);
@ -81,14 +81,14 @@ impl ArrayDeque {
} }
/* 队尾出队 */ /* 队尾出队 */
fn pop_last(&mut self) -> i32 { fn pop_last(&mut self) -> T {
let num = self.peek_last(); let num = self.peek_last();
self.que_size -= 1; self.que_size -= 1;
num num
} }
/* 访问队首元素 */ /* 访问队首元素 */
fn peek_first(&self) -> i32 { fn peek_first(&self) -> T {
if self.is_empty() { if self.is_empty() {
panic!("双向队列为空") panic!("双向队列为空")
}; };
@ -96,7 +96,7 @@ impl ArrayDeque {
} }
/* 访问队尾元素 */ /* 访问队尾元素 */
fn peek_last(&self) -> i32 { fn peek_last(&self) -> T {
if self.is_empty() { if self.is_empty() {
panic!("双向队列为空") panic!("双向队列为空")
}; };
@ -106,9 +106,9 @@ impl ArrayDeque {
} }
/* 返回数组用于打印 */ /* 返回数组用于打印 */
fn to_array(&self) -> Vec<i32> { fn to_array(&self) -> Vec<T> {
// 仅转换有效长度范围内的列表元素 // 仅转换有效长度范围内的列表元素
let mut res = vec![0; self.que_size]; let mut res = vec![T::default(); self.que_size];
let mut j = self.front; let mut j = self.front;
for i in 0..self.que_size { for i in 0..self.que_size {
res[i] = self.nums[self.index(j as i32)]; res[i] = self.nums[self.index(j as i32)];

20
codes/rust/chapter_stack_and_queue/array_queue.rs
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@ -5,18 +5,18 @@
*/ */
/* 基于环形数组实现的队列 */ /* 基于环形数组实现的队列 */
struct ArrayQueue { struct ArrayQueue<T> {
nums: Vec<i32>, // 用于存储队列元素的数组 nums: Vec<T>, // 用于存储队列元素的数组
front: i32, // 队首指针,指向队首元素 front: i32, // 队首指针,指向队首元素
que_size: i32, // 队列长度 que_size: i32, // 队列长度
que_capacity: i32, // 队列容量 que_capacity: i32, // 队列容量
} }
impl ArrayQueue { impl<T: Copy + Default> ArrayQueue<T> {
/* 构造方法 */ /* 构造方法 */
fn new(capacity: i32) -> ArrayQueue { fn new(capacity: i32) -> ArrayQueue<T> {
ArrayQueue { ArrayQueue {
nums: vec![0; capacity as usize], nums: vec![T::default(); capacity as usize],
front: 0, front: 0,
que_size: 0, que_size: 0,
que_capacity: capacity, que_capacity: capacity,
@ -39,7 +39,7 @@ impl ArrayQueue {
} }
/* 入队 */ /* 入队 */
fn push(&mut self, num: i32) { fn push(&mut self, num: T) {
if self.que_size == self.capacity() { if self.que_size == self.capacity() {
println!("队列已满"); println!("队列已满");
return; return;
@ -53,7 +53,7 @@ impl ArrayQueue {
} }
/* 出队 */ /* 出队 */
fn pop(&mut self) -> i32 { fn pop(&mut self) -> T {
let num = self.peek(); let num = self.peek();
// 队首指针向后移动一位,若越过尾部,则返回到数组头部 // 队首指针向后移动一位,若越过尾部,则返回到数组头部
self.front = (self.front + 1) % self.que_capacity; self.front = (self.front + 1) % self.que_capacity;
@ -62,7 +62,7 @@ impl ArrayQueue {
} }
/* 访问队首元素 */ /* 访问队首元素 */
fn peek(&self) -> i32 { fn peek(&self) -> T {
if self.is_empty() { if self.is_empty() {
panic!("index out of bounds"); panic!("index out of bounds");
} }
@ -70,10 +70,10 @@ impl ArrayQueue {
} }
/* 返回数组 */ /* 返回数组 */
fn to_vector(&self) -> Vec<i32> { fn to_vector(&self) -> Vec<T> {
let cap = self.que_capacity; let cap = self.que_capacity;
let mut j = self.front; let mut j = self.front;
let mut arr = vec![0; self.que_size as usize]; let mut arr = vec![T::default(); cap as usize];
for i in 0..self.que_size { for i in 0..self.que_size {
arr[i as usize] = self.nums[(j % cap) as usize]; arr[i as usize] = self.nums[(j % cap) as usize];
j += 1; j += 1;

6
codes/rust/chapter_stack_and_queue/linkedlist_deque.rs
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@ -50,11 +50,11 @@ impl<T: Copy> LinkedListDeque<T> {
/* 判断双向队列是否为空 */ /* 判断双向队列是否为空 */
pub fn is_empty(&self) -> bool { pub fn is_empty(&self) -> bool {
return self.size() == 0; return self.que_size == 0;
} }
/* 入队操作 */ /* 入队操作 */
pub fn push(&mut self, num: T, is_front: bool) { fn push(&mut self, num: T, is_front: bool) {
let node = ListNode::new(num); let node = ListNode::new(num);
// 队首入队操作 // 队首入队操作
if is_front { if is_front {
@ -102,7 +102,7 @@ impl<T: Copy> LinkedListDeque<T> {
} }
/* 出队操作 */ /* 出队操作 */
pub fn pop(&mut self, is_front: bool) -> Option<T> { fn pop(&mut self, is_front: bool) -> Option<T> {
// 若队列为空,直接返回 None // 若队列为空,直接返回 None
if self.is_empty() { if self.is_empty() {
return None; return None;

2
codes/rust/chapter_stack_and_queue/linkedlist_queue.rs
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@ -33,7 +33,7 @@ impl<T: Copy> LinkedListQueue<T> {
/* 判断队列是否为空 */ /* 判断队列是否为空 */
pub fn is_empty(&self) -> bool { pub fn is_empty(&self) -> bool {
return self.size() == 0; return self.que_size == 0;
} }
/* 入队 */ /* 入队 */

20
codes/rust/chapter_stack_and_queue/linkedlist_stack.rs
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@ -58,13 +58,17 @@ impl<T: Copy> LinkedListStack<T> {
} }
/* 将 List 转化为 Array 并返回 */ /* 将 List 转化为 Array 并返回 */
pub fn to_array(&self, head: Option<&Rc<RefCell<ListNode<T>>>>) -> Vec<T> { pub fn to_array(&self) -> Vec<T> {
if let Some(node) = head { fn _to_array<T: Sized + Copy>(head: Option<&Rc<RefCell<ListNode<T>>>>) -> Vec<T> {
let mut nums = self.to_array(node.borrow().next.as_ref()); if let Some(node) = head {
nums.push(node.borrow().val); let mut nums = _to_array(node.borrow().next.as_ref());
return nums; nums.push(node.borrow().val);
return nums;
}
return Vec::new();
} }
return Vec::new();
_to_array(self.peek())
} }
} }
@ -80,7 +84,7 @@ fn main() {
stack.push(5); stack.push(5);
stack.push(4); stack.push(4);
print!("栈 stack = "); print!("栈 stack = ");
print_util::print_array(&stack.to_array(stack.peek())); print_util::print_array(&stack.to_array());
/* 访问栈顶元素 */ /* 访问栈顶元素 */
let peek = stack.peek().unwrap().borrow().val; let peek = stack.peek().unwrap().borrow().val;
@ -89,7 +93,7 @@ fn main() {
/* 元素出栈 */ /* 元素出栈 */
let pop = stack.pop().unwrap(); let pop = stack.pop().unwrap();
print!("\n出栈元素 pop = {},出栈后 stack = ", pop); print!("\n出栈元素 pop = {},出栈后 stack = ", pop);
print_util::print_array(&stack.to_array(stack.peek())); print_util::print_array(&stack.to_array());
/* 获取栈的长度 */ /* 获取栈的长度 */
let size = stack.size(); let size = stack.size();

2
codes/rust/src/include/tree_node.rs
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@ -34,7 +34,7 @@ impl TreeNode {
macro_rules! op_vec { macro_rules! op_vec {
( $( $x:expr ),* ) => { ( $( $x:expr ),* ) => {
vec![ vec![
$( Option::from($x).map(|x| x) ),* $(Option::from($x)),*
] ]
}; };
} }