forked from Anri/cal8tor
449 lines
15 KiB
Rust
449 lines
15 KiB
Rust
use chrono::{Datelike, Duration, TimeZone, Utc};
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use regex::Regex;
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use scraper::{Html, Selector};
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use std::collections::HashMap;
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use crate::utils::{
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self, capitalize,
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models::{Position, TabChar},
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};
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pub mod models;
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/// Fetch the timetable for a class
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pub async fn timetable(
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year: i8,
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semester_opt: Option<i8>,
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letter: Option<char>,
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user_agent: &str,
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) -> (Vec<String>, (usize, Vec<models::Day>)) {
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let semester = get_semester(semester_opt, letter);
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let document = get_webpage(year, semester, letter, user_agent)
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.await
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.expect("Can't reach timetable website.");
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// Selectors
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let sel_table = Selector::parse("table").unwrap();
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let sel_tr = Selector::parse("tr").unwrap();
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let sel_tbody = Selector::parse("tbody").unwrap();
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let sel_th = Selector::parse("th").unwrap();
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let sel_td = Selector::parse("td").unwrap();
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let sel_em = Selector::parse("em").unwrap();
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let sel_small = Selector::parse("small").unwrap();
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let sel_strong = Selector::parse("strong").unwrap();
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// Find the timetable
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let raw_timetable = document.select(&sel_table).next().unwrap();
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// Find the slots available for the timetable
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let raw_schedules = raw_timetable.select(&sel_tr).next().unwrap();
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// Find availables schedules
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let mut schedules = Vec::new();
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for time in raw_schedules.select(&sel_th) {
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schedules.push(time.inner_html());
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}
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// Find the timetable values
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let raw_timetable_values = raw_timetable.select(&sel_tbody).next().unwrap();
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// For each days
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let mut timetable = Vec::new();
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let span_regex = Regex::new(r"<span.*</span>").unwrap();
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for day in raw_timetable_values.select(&sel_tr) {
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let mut courses_vec = Vec::new();
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let mut location_tracker = 0;
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for course in day.select(&sel_td) {
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if course.inner_html() == "—" {
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courses_vec.push(None);
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location_tracker += 1;
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} else {
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courses_vec.push(Some(models::Course {
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name: match course.select(&sel_em).next() {
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Some(value) => span_regex.replace(&value.inner_html(), " ").to_string(),
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None => span_regex
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.replace(course.inner_html().split("<br>").next().unwrap(), " ")
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.to_string(),
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},
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professor: match course
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.select(&sel_small)
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.next()
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.unwrap()
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.inner_html()
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.split("<br>")
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.next()
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{
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Some(data) => {
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if data.contains("</strong>") {
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// This is the room, so there is no professor assigned
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// to this courses yet
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None
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} else {
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Some(data.to_string())
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}
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}
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None => None,
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},
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room: capitalize(
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&mut course
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.select(&sel_strong)
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.next()
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.unwrap()
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.inner_html()
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.replace("<br>", ""),
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),
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start: location_tracker,
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size: match course.value().attr("colspan") {
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Some(i) => i.parse().unwrap(),
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None => 1,
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},
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dtstart: None,
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dtend: None,
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}));
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match &courses_vec[courses_vec.len() - 1] {
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Some(course) => location_tracker += course.size,
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None => location_tracker += 1,
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}
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}
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}
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timetable.push(models::Day {
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name: day.select(&sel_th).next().unwrap().inner_html(),
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courses: courses_vec,
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})
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}
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if !check_consistency(&schedules, &timetable) {
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panic!("Error when building the timetable.");
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}
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(schedules, (semester as usize, timetable))
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}
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/// Get timetable webpage
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async fn get_webpage(
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year: i8,
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semester: i8,
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letter: Option<char>,
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user_agent: &str,
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) -> Result<Html, Box<dyn std::error::Error>> {
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let url = {
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let panic_semester_message = "Unknown semester.";
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let panic_letter_message = "Unknown letter.";
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let base_url = "https://informatique.up8.edu/licence-iv/edt";
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let allow_letters_1 = match semester {
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1 => ['a', 'b', 'c'],
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2 => ['x', 'y', 'z'],
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_ => panic!("{}", panic_semester_message),
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};
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let allow_letters_2_3 = match semester {
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1 => ['a', 'b'],
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2 => ['x', 'y'],
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_ => panic!("{}", panic_semester_message),
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};
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match year {
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1 => {
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let c = letter.expect(panic_letter_message).to_ascii_lowercase();
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if allow_letters_1.contains(&c) {
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format!("{}/l1-{}.html", base_url, c)
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} else {
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panic!("{}", panic_letter_message)
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}
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}
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2 => {
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let c = letter.expect(panic_letter_message).to_ascii_lowercase();
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if allow_letters_2_3.contains(&c) {
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format!("{}/l2-{}.html", base_url, c)
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} else {
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panic!("{}", panic_letter_message)
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}
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}
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3 => {
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let c = letter.expect(panic_letter_message).to_ascii_lowercase();
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if allow_letters_2_3.contains(&c) {
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format!("{}/l3-{}.html", base_url, c)
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} else {
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panic!("{}", panic_letter_message)
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}
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}
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_ => panic!("Unknown year."),
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}
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};
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// Use custom User-Agent
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let client = reqwest::Client::builder().user_agent(user_agent).build()?;
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let html = client.get(&url).send().await?.text().await?;
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// Panic on error
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crate::utils::check_errors(&html, &url);
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// Parse document
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let document = Html::parse_document(&html);
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Ok(document)
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}
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/// Check if the timetable is well built
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fn check_consistency(schedules: &[String], timetable: &Vec<models::Day>) -> bool {
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let mut checker = true;
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for day in timetable {
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let mut i = 0;
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for course in &day.courses {
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match course {
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Some(course_it) => {
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// Checks the consistency of course start times
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if i != course_it.start {
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checker = false;
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break;
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}
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// Keep the track of how many courses are in the day
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i += course_it.size
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}
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None => i += 1,
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}
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}
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// The counter should be the same as the amount of possible hours of the day
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if i != schedules.len() {
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checker = false;
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break;
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}
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}
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checker
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}
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// Data builded in the timetable webpage
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type T = (
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// Schedules
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Vec<String>,
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// Timetable per days with the semester as the key
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(usize, Vec<models::Day>),
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);
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// Data builded in the info webpage
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type D = HashMap<
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// Semester
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usize,
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// List of start and repetition of course weeks
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Vec<(chrono::DateTime<Utc>, i64)>,
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>;
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/// Build the timetable
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pub fn build(timetable: T, dates: D) -> Vec<models::Course> {
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let mut schedules = Vec::new();
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// h1 => heure de début | m1 => minute de début
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// h2 => heure de fin | m2 => minute de fin
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let re =
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Regex::new(r"(?P<h1>\d{1,2})(h|:)(?P<m1>\d{1,2})?.(?P<h2>\d{1,2})(h|:)(?P<m2>\d{1,2})?")
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.unwrap();
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for hour in timetable.0 {
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let captures = re.captures(&hour).unwrap();
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let h1 = match captures.name("h1") {
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Some(h) => h.as_str().parse().unwrap(),
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None => 0,
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};
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let m1 = match captures.name("m1") {
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Some(h) => h.as_str().parse().unwrap(),
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None => 0,
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};
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let h2 = match captures.name("h2") {
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Some(h) => h.as_str().parse().unwrap(),
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None => 0,
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};
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let m2 = match captures.name("m2") {
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Some(h) => h.as_str().parse().unwrap(),
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None => 0,
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};
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schedules.push(((h1, m1), (h2, m2)));
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}
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// Store all the courses for the semester
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let mut semester = Vec::new();
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// Start date of the back-to-school week
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let datetimes = dates.get(&timetable.1 .0).unwrap();
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let before_break = datetimes.get(0).unwrap();
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let mut date = before_break.0;
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let mut rep = before_break.1;
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// For each weeks
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for _ in 0..2 {
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for _ in 0..rep {
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for day in &timetable.1 .1 {
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for mut course in day.courses.clone().into_iter().flatten() {
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// Get the hours
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let start = schedules.get(course.start).unwrap().0;
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// -1 because we only add when the size is > 1
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let end = schedules.get(course.start + course.size - 1).unwrap().1;
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// Add the changed datetimes
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course.dtstart = Some(
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Utc.with_ymd_and_hms(
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date.year(),
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date.month(),
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date.day(),
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start.0,
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start.1,
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0,
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)
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.unwrap(),
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);
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course.dtend = Some(
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Utc.with_ymd_and_hms(
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date.year(),
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date.month(),
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date.day(),
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end.0,
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end.1,
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0,
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)
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.unwrap(),
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);
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semester.push(course);
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}
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date += Duration::days(1);
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}
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// From friday to monday
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date += Duration::days(2);
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}
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let after_break = datetimes.get(1).unwrap();
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date = after_break.0;
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rep = after_break.1;
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}
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semester
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}
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/// Get the current semester depending on the letter or the current date
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fn get_semester(semester: Option<i8>, letter: Option<char>) -> i8 {
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match semester {
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// Force the asked semester
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Some(n) => n,
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// Find the potential semester
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None => match letter {
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// Based on letter (kinda accurate)
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Some(c) => {
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if c.to_ascii_uppercase() as i8 > 77 {
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// If letter is N or after
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2
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} else {
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// If letter is before N
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1
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}
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}
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// Based on the time (kinda less accurate)
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None => {
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if Utc::now().month() > 6 {
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// From july to december
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1
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} else {
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// from january to june
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2
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}
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}
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},
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}
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}
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/// Display the timetable
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pub fn display(timetable: (Vec<String>, (usize, Vec<models::Day>)), cell_length: usize) {
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// Cell length for hours
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let clh = 11;
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// Cell number
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let cn = 6;
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// 3/4 of cell length
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let quarter = (3 * cell_length) / 4;
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let sep = TabChar::Bv.val();
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// Top of the tab
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utils::line_table(clh, cell_length, cn, Position::Top, HashMap::new());
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// First empty case
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print!("{}{:^clh$}{}", sep, "", sep);
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// Print day's of the week
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let mut days = HashMap::new();
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for (i, data) in timetable.1 .1.iter().enumerate() {
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days.insert(i, &data.name);
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print!("{:^cell_length$}{}", &data.name, sep);
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}
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// Store the data of the course for utils::line_table
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let mut next_skip = HashMap::new();
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// For each hours -- i the hour's number
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for (i, hour) in timetable.0.into_iter().enumerate() {
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// Draw separator line
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utils::line_table(clh, cell_length, cn, Position::Middle, next_skip);
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// Reset
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next_skip = HashMap::new();
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// Print hour
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print!("{}{:^clh$}", sep, hour);
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// For all the days - `j` the day's number
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for (j, day) in timetable.1 .1.iter().enumerate() {
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// True if we found something about the slot we are looking for
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let mut info_slot = false;
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// For all the courses of each days - `k` the possible course.start
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for (k, course_opt) in day.courses.iter().enumerate() {
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match course_opt {
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// If there is a course
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Some(course) => {
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// Check the course's hour
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if i == course.start {
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// If the course uses more than one time slot
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if course.size > 1 {
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// If the data is too long
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if course.name.len() > quarter {
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let data = utils::split_half(&course.name);
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next_skip.insert(j, data.1.trim());
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print!("{}{:^cell_length$}", sep, data.0.trim());
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} else {
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next_skip.insert(j, &course.name);
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print!("{}{:^cell_length$}", sep, "");
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}
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info_slot = true;
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break;
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} else {
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// Else simply print the course
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// If the data is too long
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if course.name.len() > quarter {
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print!("{}{:^cell_length$}", sep, utils::etc_str(&course.name));
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} else {
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print!("{}{:^cell_length$}", sep, &course.name);
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}
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info_slot = true;
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break;
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}
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}
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}
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// If no course was found
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None => {
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// Verify the "no course" is in the correct day and hour
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if *days.get(&j).unwrap() == &day.name.to_string() && k == i {
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// If yes print empty row because there is no course
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print!("{}{:^cell_length$}", sep, "");
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info_slot = true;
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break;
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}
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// Else it was a course of another day/time
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}
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};
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}
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if !info_slot {
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// We found nothing about the slot because the precedent course
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// takes more place than one slot
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print!("{}{:^cell_length$}", sep, "");
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}
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}
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print!("{}", sep);
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}
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// Bottom of the table
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utils::line_table(clh, cell_length, cn, Position::Bottom, HashMap::new());
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}
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