并发编程:上午练习
哲学家就餐问题
(返回练习)
use std::sync::{mpsc, Arc, Mutex}; use std::thread; use std::time::Duration; struct Fork; struct Philosopher { name: String, left_fork: Arc<Mutex<Fork>>, right_fork: Arc<Mutex<Fork>>, thoughts: mpsc::SyncSender<String>, } impl Philosopher { fn think(&self) { self.thoughts .send(format!("Eureka! {} has a new idea!", &self.name)) .unwrap(); } fn eat(&self) { println!("{} is trying to eat", &self.name); let _left = self.left_fork.lock().unwrap(); let _right = self.right_fork.lock().unwrap(); println!("{} is eating...", &self.name); thread::sleep(Duration::from_millis(10)); } } static PHILOSOPHERS: &[&str] = &["Socrates", "Hypatia", "Plato", "Aristotle", "Pythagoras"]; fn main() { let (tx, rx) = mpsc::sync_channel(10); let forks = (0..PHILOSOPHERS.len()) .map(|_| Arc::new(Mutex::new(Fork))) .collect::<Vec<_>>(); for i in 0..forks.len() { let tx = tx.clone(); let mut left_fork = Arc::clone(&forks[i]); let mut right_fork = Arc::clone(&forks[(i + 1) % forks.len()]); // To avoid a deadlock, we have to break the symmetry // somewhere. This will swap the forks without deinitializing // either of them. if i == forks.len() - 1 { std::mem::swap(&mut left_fork, &mut right_fork); } let philosopher = Philosopher { name: PHILOSOPHERS[i].to_string(), thoughts: tx, left_fork, right_fork, }; thread::spawn(move || { for _ in 0..100 { philosopher.eat(); philosopher.think(); } }); } drop(tx); for thought in rx { println!("{thought}"); } }
Link Checker
use std::sync::{mpsc, Arc, Mutex}; use std::thread; use reqwest::blocking::Client; use reqwest::Url; use scraper::{Html, Selector}; use thiserror::Error; #[derive(Error, Debug)] enum Error { #[error("request error: {0}")] ReqwestError(#[from] reqwest::Error), #[error("bad http response: {0}")] BadResponse(String), } #[derive(Debug)] struct CrawlCommand { url: Url, extract_links: bool, } fn visit_page(client: &Client, command: &CrawlCommand) -> Result<Vec<Url>, Error> { println!("Checking {:#}", command.url); let response = client.get(command.url.clone()).send()?; if !response.status().is_success() { return Err(Error::BadResponse(response.status().to_string())); } let mut link_urls = Vec::new(); if !command.extract_links { return Ok(link_urls); } let base_url = response.url().to_owned(); let body_text = response.text()?; let document = Html::parse_document(&body_text); let selector = Selector::parse("a").unwrap(); let href_values = document .select(&selector) .filter_map(|element| element.value().attr("href")); for href in href_values { match base_url.join(href) { Ok(link_url) => { link_urls.push(link_url); } Err(err) => { println!("On {base_url:#}: ignored unparsable {href:?}: {err}"); } } } Ok(link_urls) } struct CrawlState { domain: String, visited_pages: std::collections::HashSet<String>, } impl CrawlState { fn new(start_url: &Url) -> CrawlState { let mut visited_pages = std::collections::HashSet::new(); visited_pages.insert(start_url.as_str().to_string()); CrawlState { domain: start_url.domain().unwrap().to_string(), visited_pages } } /// Determine whether links within the given page should be extracted. fn should_extract_links(&self, url: &Url) -> bool { let Some(url_domain) = url.domain() else { return false; }; url_domain == self.domain } /// Mark the given page as visited, returning false if it had already /// been visited. fn mark_visited(&mut self, url: &Url) -> bool { self.visited_pages.insert(url.as_str().to_string()) } } type CrawlResult = Result<Vec<Url>, (Url, Error)>; fn spawn_crawler_threads( command_receiver: mpsc::Receiver<CrawlCommand>, result_sender: mpsc::Sender<CrawlResult>, thread_count: u32, ) { let command_receiver = Arc::new(Mutex::new(command_receiver)); for _ in 0..thread_count { let result_sender = result_sender.clone(); let command_receiver = command_receiver.clone(); thread::spawn(move || { let client = Client::new(); loop { let command_result = { let receiver_guard = command_receiver.lock().unwrap(); receiver_guard.recv() }; let Ok(crawl_command) = command_result else { // The sender got dropped. No more commands coming in. break; }; let crawl_result = match visit_page(&client, &crawl_command) { Ok(link_urls) => Ok(link_urls), Err(error) => Err((crawl_command.url, error)), }; result_sender.send(crawl_result).unwrap(); } }); } } fn control_crawl( start_url: Url, command_sender: mpsc::Sender<CrawlCommand>, result_receiver: mpsc::Receiver<CrawlResult>, ) -> Vec<Url> { let mut crawl_state = CrawlState::new(&start_url); let start_command = CrawlCommand { url: start_url, extract_links: true }; command_sender.send(start_command).unwrap(); let mut pending_urls = 1; let mut bad_urls = Vec::new(); while pending_urls > 0 { let crawl_result = result_receiver.recv().unwrap(); pending_urls -= 1; match crawl_result { Ok(link_urls) => { for url in link_urls { if crawl_state.mark_visited(&url) { let extract_links = crawl_state.should_extract_links(&url); let crawl_command = CrawlCommand { url, extract_links }; command_sender.send(crawl_command).unwrap(); pending_urls += 1; } } } Err((url, error)) => { bad_urls.push(url); println!("Got crawling error: {:#}", error); continue; } } } bad_urls } fn check_links(start_url: Url) -> Vec<Url> { let (result_sender, result_receiver) = mpsc::channel::<CrawlResult>(); let (command_sender, command_receiver) = mpsc::channel::<CrawlCommand>(); spawn_crawler_threads(command_receiver, result_sender, 16); control_crawl(start_url, command_sender, result_receiver) } fn main() { let start_url = reqwest::Url::parse("https://www.google.org").unwrap(); let bad_urls = check_links(start_url); println!("Bad URLs: {:#?}", bad_urls); }