Rust的入门篇(上)
最近跟着菜鸟一起入门了比较火的Rust语言,下面整理一下学习的笔记吧。
1. Helloworld程序
fn main(){
println!("hello rust")
}
2. 格式化字符串
fn main(){
let a = 12;
// 格式化字符串
println!("a={}", a);
println!("a={}, a={}", a, a);
println!("a={0}, again a={0}", a);
println!("{
{}}")
}
3. 基础运算
fn main(){
// 不可变的变量,强类型语言,但是会自动推测变量的类型
let a = 123;
let a = 1234;
// 上面是合法的,可以重复声明
// 可改变的变量
let mut a = 123;
a = 456;
println!("{}", a);
// const b = 123;
// let b = 456;
// 手动指定变量的类型,如果不指定,默认是u32
let c : u64 = 345;
// 变量的重影 shadowing 大直白是自己给自己赋值
let x = 5;
let x = x + 1;
let x = x * 2;
// 12
println!("The value of x is {}", x);
}
4. 变量的类型
fn main(){
// 默认推测的是f64
let a = 2.0;
let y:f32 = 3.0;
let sum = 5 + 10;
let difference = 95.5 - 4.3;
let product = 4 * 30;
let quotient = 56.7 / 32.2;
let remainder = 423 % 5;
// 复合类型 元组
let tup:(i32, f64, u8) = (500, 6.4, 1);
let (x, y, z) = tup;
// y=6.4
println!("y={}", y);
let a = [1, 2, 3, 4, 5];
let b = ["January", "February", "March"];
let c:[i32; 5] = [1, 2, 3, 4, 5];
// 等同于 let d = [3, 3, 3, 3, 3];
let d = [3;5];
let first = a[0];
let second = a[1];
println!("first={}, second={}", first, second);
// a[0] = 123; // 错误,数组a不可变
let mut a = [1, 2, 3];
a[0] = 4;
// println!("{}", a);
}
5. 函数举例
fn main(){
println!("Hello, world!");
let x = 5;
let y = {
let x = 3;
x + 1
};
println!("x={}", x);
println!("y={}", y);
fn five()->i32{
5}
println!("five={}", five());
}
fn another_function(){
println!("Hello, runoob!");
}
fn add(a:i32, b:i32)->i32{
return a+b;
}
6. 条件语句
fn main(){
let number = 3;
// 条件语句
if number < 5{
println!("true");
} else {
println!("false");
}
let a = 3;
// 三目运算符
let number = if a > 0 {
1} else {
-1};
println!("number={}", number);
}
7. 循环
fn main(){
let mut number = 1;
// while语句
while number!=4{
println!("{}", number);
number += 1;
}
println!("EXIT");
// while循环
let mut i = 0;
while i < 10 {
i += 1;
}
println!("i={}", i);
// for 语句
let a = [10, 20, 30, 40, 50];
for i in a.iter(){
println!("a={} ", i);
}
// 下标访问
let a = [10, 20, 30, 40, 50];
for i in 0..5{
println!("a[{}] = {}", i, a[i]);
}
// loop无线循环
let s = ['R', 'U', 'N', 'O', 'O', 'B'];
let mut i = 0;
loop {
let ch = s[i];
if ch == 'O'{
break;
}
println!("\'{}\'", ch);
i += 1;
}
let s = ['R', 'U', 'N', 'O', 'O', 'B'];
let mut i = 0;
let location = loop{
let ch = s[i];
if ch == 'O'{
break i;
}
i += 1;
};
println!(" \'O\' index {}", location);
}
8. 所有权一
所有权是Rust里面一个比较新的概念。一个变量赋值到另一个变量上面的时候,所有权就会发生转移,如果这时候再去访问原来的变量就会出错了。
fn main(){
// 所有权
let a = "hello";
let b = a;
println!("{} world", b);
let s1 = String::from("world");
let s2 = s1;
// 错误 s1 已经不存在了
// println!("{}, world", s1);
println!("{}, world", s2);
let s1 = String::from("hello");
// 使用克隆解决上面的问题
let s2 = s1.clone();
println!("s1={}, s2={}", s1, s2);
}
9. 所有权二
// 函数所有权机制
fn main(){
let s = String::from("hello");
// 所有权转移到函数中
take_ownership(s);
// 报错了,s已经不存在了
// println!("{}", s);
let x = 5;
makes_copy(x);
println!("{}", x);
}
fn take_ownership(some_string: String){
println!("{}", some_string);
}
fn makes_copy(some_integer:i32){
println!("{}", some_integer);
}
10. 所有权三 函数所有权转移
// 函数所有权机制
fn main(){
let s1 = gives_ownership();
let s2 = String::from("hello");
let s3 = takes_and_gives_back(s2);
println!("s3={}", s3);
}
// 返回所有权
fn gives_ownership()->String{
let some_string = String::from("hello");
return some_string;
}
// 获取和返回所有权
fn takes_and_gives_back(a_string:String)->String{
return a_string; // 被当做返回值移出函数
}
11. 所有权四 引用
// 引用与租借
fn main(){
let s1 = String::from("hello");
// 引用并不会交出所有权
let s2 = &s1;
println!("s1 is {}, s2 is {}", s1, s2);
// 引用传参
let s1 = String::from("hello");
let len = calculate_length(&s1);
println!("The length of '{}' is {}.", s1, len);
}
// 引用传参
fn calculate_length(s:&String)->usize{
s.len()
}
12. 引用四 可变引用
fn main(){
// 引用只是把所有权租借,容易产生问题的代码
let s1 = String::from("hello");
// s2引用了s1
let mut s2 = &s1;
// s1把拥有权给了s3,s1不再可用
let s3 = s1;
// 下面错误,s2租借的s1已经不可用
// println!("{}", s2);
// s2重新向s3 borrow所有权
s2 = &s3;
println!("s2={}", s2);
let mut s4 = String::from("hello");
s4.push_str(" world");
println!("{}", s4);
// s5引用s4
let s5 = &s4;
// 错误,租借后不允许修改
// s5.push_str(" rust");
// 如果需要修改,s6引用s4并允许修改
let s6 = &mut s4;
s6.push_str(" oob");
println!("{}", s6);
// 不可以被多次可变引用
let mut s7 = String::from("hello");
// let r1 = &mut s7;
// let r2 = &mut s7;
// println!("r1={}, r2={}", r1, r2);
// // 垂悬引用, 不允许出现
// let ref_nothing = dangle();
}
// 垂悬引用, 不允许出现
// fn dangle()->&String{
// let s = String::from("hello");
// &s
// }
13. slice 字符串切片操作
// 切片操作
fn main(){
let s = String::from("broadcast");
// 字符串切片
let part1 = &s[0..5];
let part2 = &s[5..9];
println!("{}={}+{}", s, part1, part2);
//被切片引用的字符串禁止更改其值
// let mut s = String::from("runoob");
// let slice = &s[0..3];
// slice.push_str("yes!");
// println!("slice={}", slice);
// String 类型是 Rust 标准公共库提供的一种数据类型,
// 它的功能更完善——它支持字符串的追加、清空等实用的操作。
// String 和 str 除了同样拥有一个字符开始位置属性和一个字符串长度
// 属性以外还有一个容量(capacity)属性。
let slice = &s[0..3];
// 快速将String转成&str
let s1 = String::from("hello");
let s2 = &s1[..];
// 其他数据类型的切片操作
let arr = [1, 3, 5, 7, 9];
let part = &arr[0..3];
for i in part.iter(){
println!("i={}", i);
}
}
14. 结构体一
// 结构体
use std::string;
fn main(){
// 初始化结构体
let runoob = Site{
domain: String::from("www.runoob.com"),
name: String::from("runnob"),
nation: String::from("china"),
found: 2013
};
let domain = String::from("www.runoob.com");
let name = String::from("runoob");
let runnob2 = Site{
domain,
name,
nation:String::from("china"),
found: 2013
};
// 使用旧结构体的部分属性来新建新的结构体
let site = Site{
domain: String::from("www.runoob.com"),
name: String::from("runoob"),
..runoob
};
// 元组结构体初始化
let black = Color(0, 0, 0);
let origin: Point = Point(0.0, 0.0);
println!("black = ({}, {}, {})", black.0, black.1, black.2);
println!("origin = ({}, {})", origin.0, origin.1);
// 打印结构体
let rect1 = Rectangle{
width:30,
height:50
};
// println!("rect1 is {:#?}", rect1);
}
// 结构体
struct Site{
domain:String,
name:String,
nation:String,
found:u32
}
// 元组结构体
struct Color(u8, u8, u8);
struct Point(f64, f64);
// 输出完整的结构体
struct Rectangle{
width: u32,
height: u32,
}
15. 结构体二 结构体方法
结构体方法的第一个参数必须是 &self,不需声明类型,因为 self 不是一种风格而是关键字。
fn main(){
let rect1 = Rectangle{
width:30, height:50};
println!("rect1's area is {}", rect1.area());
}
struct Rectangle{
width: u32,
height: u32,
}
impl Rectangle {
fn area(&self)->u32{
self.width*self.height
}
}
16. 结构体三
fn main(){
let rect1 = Rectangle{
width:30, height:50};
let rect2=Rectangle{
width:40, height:20};
println!("{}", rect1.wider(&rect2));
}
struct Rectangle{
width: u32,
height: u32,
}
// 结构体方法
impl Rectangle {
fn area(&self)->u32{
self.width*self.height
}
fn wider(&self, rect:&Rectangle)->bool{
self.width > rect.width
}
}
17. 枚举类型一
fn main(){
enum Book {
Popery(u32),
Electronic(String),
}
let book = Book::Popery(1001);
let ebook = Book::Electronic(String::from("url://..."));
}
18. 枚举类型二
fn main(){
// 枚举属性命名
enum Book {
Papery {
index: u32},
Electronic{
url: String},
}
let book = Book::Papery {
index: 1001 };
}
19. 枚举类型三
fn main(){
// 枚举属性命名
enum Book {
Papery {
index: u32},
Electronic{
url: String},
}
let book = Book::Papery {
index: 1001 };
let ebook = Book::Electronic {
url: String::from("url...") };
// 打印book有的属性
match book{
Book::Papery {
index } =>{
println!("Papery book {}", index);
},
Book::Electronic {
url }=>{
println!("E-book {}", url);
}
}
// 打印ebook有的属性
match ebook{
Book::Papery {
index } =>{
println!("Papery book {}", index);
},
Book::Electronic {
url }=>{
println!("E-book {}", url);
}
}
}
20. 枚举类型四
// option 枚举类
fn main(){
let opt = Option::Some("hello");
match opt{
Option::Some(something)=>{
println!("{}", something);
},
Option::None=>{
println!("opt is nothing");
}
}
// hello
let opt1:Option<&str> = Option::None;
match opt1{
Option::Some(something)=>{
println!("{}", something);
}
Option::None=>{
println!("opt1 is nothing");
}
}
// opt is nothing
// 由于 Option 是 Rust 编译器默认引入的,在使用时可以省略 Option:: 直接写 None 或者 Some()。
let t = Some(64);
match t{
Some(64)=>println!("yes"),
_=>println!("No"),
}
// yes
}
21. 枚举类型五
// option 枚举类
fn main(){
// if let 用法
let i = 0;
if let 0 = i {
println!("zero");
}
enum Book {
Papery(u32),
Electronic(String)
}
let book = Book::Electronic(String::from("url"));
if let Book::Papery(index) = book{
println!("Papery {}", index);
}else{
println!("Not papery book");
}
// Not papery book
}