use chrono::{Datelike, Duration, TimeZone, Utc}; use regex::Regex; use scraper::{Html, Selector}; use std::collections::HashMap; use crate::utils::{ self, capitalize, models::{Position, TabChar}, }; pub mod models; /// Fetch the timetable for a class pub async fn timetable( level: i8, semester_opt: Option, year_opt: Option, pathway: &str, user_agent: &str, ) -> (Vec, (usize, Vec)) { let semester = get_semester(semester_opt); let year = get_year(year_opt, semester); let document = get_webpage(level, semester, &year, user_agent) .await .expect("Can't reach timetable website."); // Selectors let sel_table = Selector::parse("table").unwrap(); let sel_tbody = Selector::parse("tbody").unwrap(); let sel_td = Selector::parse("td").unwrap(); // Find the timetable let raw_timetable = document.select(&sel_table).next().unwrap(); /* We are now iterating over all the 15-minute intervals to find courses */ for element in raw_timetable .select(&sel_tbody) .next() .unwrap() .select(&sel_td) { if let Some(i) = element.value().attr("title") { println!("{}", i) } } todo!() } /// Get timetable webpage async fn get_webpage( level: i8, semester: i8, year: &str, user_agent: &str, ) -> Result> { let url = format!("https://silice.informatique.univ-paris-diderot.fr/ufr/U{}/EDT/visualiserEmploiDuTemps.php?quoi=M{},{}", year, level, semester); // Use custom User-Agent let client = reqwest::Client::builder().user_agent(user_agent).build()?; let html = client.get(&url).send().await?.text().await?; // Panic on error crate::utils::check_errors(&html, &url); // Parse document let document = Html::parse_document(&html); Ok(document) } /// Check if the timetable is well built fn check_consistency(schedules: &[String], timetable: &Vec) -> bool { let mut checker = true; for day in timetable { let mut i = 0; for course in &day.courses { match course { Some(course_it) => { // Checks the consistency of course start times if i != course_it.start { checker = false; break; } // Keep the track of how many courses are in the day i += course_it.size } None => i += 1, } } // The counter should be the same as the amount of possible hours of the day if i != schedules.len() { checker = false; break; } } checker } // Data builded in the timetable webpage type T = ( // Schedules Vec, // Timetable per days with the semester as the key (usize, Vec), ); // Data builded in the info webpage type D = HashMap< // Semester usize, // List of start and repetition of course weeks Vec<(chrono::DateTime, i64)>, >; /// Build the timetable pub fn build(timetable: T, dates: D) -> Vec { let mut schedules = Vec::new(); // h1 => heure de début | m1 => minute de début // h2 => heure de fin | m2 => minute de fin let re = Regex::new(r"(?P

\d{1,2})(h|:)(?P\d{1,2})?.(?P

\d{1,2})(h|:)(?P\d{1,2})?") .unwrap(); for hour in timetable.0 { let captures = re.captures(&hour).unwrap(); let h1 = match captures.name("h1") { Some(h) => h.as_str().parse().unwrap(), None => 0, }; let m1 = match captures.name("m1") { Some(h) => h.as_str().parse().unwrap(), None => 0, }; let h2 = match captures.name("h2") { Some(h) => h.as_str().parse().unwrap(), None => 0, }; let m2 = match captures.name("m2") { Some(h) => h.as_str().parse().unwrap(), None => 0, }; schedules.push(((h1, m1), (h2, m2))); } // Store all the courses for the semester let mut semester = Vec::new(); // Start date of the back-to-school week let datetimes = dates.get(&timetable.1 .0).unwrap(); let before_break = datetimes.get(0).unwrap(); let mut date = before_break.0; let mut rep = before_break.1; // For each weeks for _ in 0..2 { for _ in 0..rep { for day in &timetable.1 .1 { for mut course in day.courses.clone().into_iter().flatten() { // Get the hours let start = schedules.get(course.start).unwrap().0; // -1 because we only add when the size is > 1 let end = schedules.get(course.start + course.size - 1).unwrap().1; // Add the changed datetimes course.dtstart = Some( Utc.with_ymd_and_hms( date.year(), date.month(), date.day(), start.0, start.1, 0, ) .unwrap(), ); course.dtend = Some( Utc.with_ymd_and_hms( date.year(), date.month(), date.day(), end.0, end.1, 0, ) .unwrap(), ); semester.push(course); } date += Duration::days(1); } // From friday to monday date += Duration::days(2); } let after_break = datetimes.get(1).unwrap(); date = after_break.0; rep = after_break.1; } semester } /// Get the current semester depending on the current date fn get_semester(semester: Option) -> i8 { match semester { // Force the asked semester Some(n) => n, // Find the potential semester None => { if Utc::now().month() > 6 { // From july to december 1 } else { // from january to june 2 } } } } /// Get the current year depending on the current date fn get_year(year: Option, semester: i8) -> String { let wanted_year = match year { // Force the asked semester Some(n) => n, // Find the potential semester None => Utc::now().year(), }; if semester == 1 { format!("{}-{}", wanted_year, wanted_year + 1) } else { format!("{}-{}", wanted_year - 1, wanted_year) } } /// Display the timetable pub fn display(timetable: (Vec, (usize, Vec)), cell_length: usize) { // Cell length for hours let clh = 11; // Cell number let cn = 6; // 3/4 of cell length let quarter = (3 * cell_length) / 4; let sep = TabChar::Bv.val(); // Top of the tab utils::line_table(clh, cell_length, cn, Position::Top, HashMap::new()); // First empty case print!("{}{:^clh$}{}", sep, "", sep); // Print day's of the week let mut days = HashMap::new(); for (i, data) in timetable.1 .1.iter().enumerate() { days.insert(i, &data.name); print!("{:^cell_length$}{}", &data.name, sep); } // Store the data of the course for utils::line_table let mut next_skip = HashMap::new(); // For each hours -- i the hour's number for (i, hour) in timetable.0.into_iter().enumerate() { // Draw separator line utils::line_table(clh, cell_length, cn, Position::Middle, next_skip); // Reset next_skip = HashMap::new(); // Print hour print!("{}{:^clh$}", sep, hour); // For all the days - `j` the day's number for (j, day) in timetable.1 .1.iter().enumerate() { // True if we found something about the slot we are looking for let mut info_slot = false; // For all the courses of each days - `k` the possible course.start for (k, course_opt) in day.courses.iter().enumerate() { match course_opt { // If there is a course Some(course) => { // Check the course's hour if i == course.start { // If the course uses more than one time slot if course.size > 1 { // If the data is too long if course.name.len() > quarter { let data = utils::split_half(&course.name); next_skip.insert(j, data.1.trim()); print!("{}{:^cell_length$}", sep, data.0.trim()); } else { next_skip.insert(j, &course.name); print!("{}{:^cell_length$}", sep, ""); } info_slot = true; break; } else { // Else simply print the course // If the data is too long if course.name.len() > quarter { print!("{}{:^cell_length$}", sep, utils::etc_str(&course.name)); } else { print!("{}{:^cell_length$}", sep, &course.name); } info_slot = true; break; } } } // If no course was found None => { // Verify the "no course" is in the correct day and hour if *days.get(&j).unwrap() == &day.name.to_string() && k == i { // If yes print empty row because there is no course print!("{}{:^cell_length$}", sep, ""); info_slot = true; break; } // Else it was a course of another day/time } }; } if !info_slot { // We found nothing about the slot because the precedent course // takes more place than one slot print!("{}{:^cell_length$}", sep, ""); } } print!("{}", sep); } // Bottom of the table utils::line_table(clh, cell_length, cn, Position::Bottom, HashMap::new()); }