hello-algo/codes/rust/chapter_computational_complexity/space_complexity.rs
codingonion 7ffef7e1d6
update the author info sjinzh -> codingonion (#1017)
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* Update index.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
2024-01-02 01:25:37 +08:00

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2.5 KiB
Rust

/*
* File: space_complexity.rs
* Created Time: 2023-03-11
* Author: codingonion (coderonion@gmail.com)
*/
include!("../include/include.rs");
use std::collections::HashMap;
use std::rc::Rc;
use std::cell::RefCell;
use list_node::ListNode;
use tree_node::TreeNode;
/* 函数 */
fn function() ->i32 {
// 执行某些操作
return 0;
}
/* 常数阶 */
#[allow(unused)]
fn constant(n: i32) {
// 常量、变量、对象占用 O(1) 空间
const A: i32 = 0;
let b = 0;
let nums = vec![0; 10000];
let node = ListNode::new(0);
// 循环中的变量占用 O(1) 空间
for i in 0..n {
let c = 0;
}
// 循环中的函数占用 O(1) 空间
for i in 0..n {
function();
}
}
/* 线性阶 */
#[allow(unused)]
fn linear(n: i32) {
// 长度为 n 的数组占用 O(n) 空间
let mut nums = vec![0; n as usize];
// 长度为 n 的列表占用 O(n) 空间
let mut nodes = Vec::new();
for i in 0..n {
nodes.push(ListNode::new(i))
}
// 长度为 n 的哈希表占用 O(n) 空间
let mut map = HashMap::new();
for i in 0..n {
map.insert(i, i.to_string());
}
}
/* 线性阶(递归实现) */
fn linear_recur(n: i32) {
println!("递归 n = {}", n);
if n == 1 {return};
linear_recur(n - 1);
}
/* 平方阶 */
#[allow(unused)]
fn quadratic(n: i32) {
// 矩阵占用 O(n^2) 空间
let num_matrix = vec![vec![0; n as usize]; n as usize];
// 二维列表占用 O(n^2) 空间
let mut num_list = Vec::new();
for i in 0..n {
let mut tmp = Vec::new();
for j in 0..n {
tmp.push(0);
}
num_list.push(tmp);
}
}
/* 平方阶(递归实现) */
fn quadratic_recur(n: i32) -> i32 {
if n <= 0 {return 0};
// 数组 nums 长度为 n, n-1, ..., 2, 1
let nums = vec![0; n as usize];
println!("递归 n = {} 中的 nums 长度 = {}", n, nums.len());
return quadratic_recur(n - 1);
}
/* 指数阶(建立满二叉树) */
fn build_tree(n: i32) -> Option<Rc<RefCell<TreeNode>>> {
if n == 0 {return None};
let root = TreeNode::new(0);
root.borrow_mut().left = build_tree(n - 1);
root.borrow_mut().right = build_tree(n - 1);
return Some(root);
}
/* Driver Code */
fn main() {
let n = 5;
// 常数阶
constant(n);
// 线性阶
linear(n);
linear_recur(n);
// 平方阶
quadratic(n);
quadratic_recur(n);
// 指数阶
let root = build_tree(n);
print_util::print_tree(&root.unwrap());
}