use std::{ cmp::min, collections::HashMap, env, fs, io::{stdout, Write}, iter, process::exit, }; use crossterm::{ cursor, event::{self, Event, KeyCode}, queue, style::{Attribute, Print}, terminal, }; mod epub; // XXX assumes a char is i unit wide fn wrap(text: &str, width: usize) -> Vec<(usize, usize)> { let mut lines = Vec::new(); // bytes let mut start = 0; let mut end = 0; // chars after the break let mut after = 0; // chars in unbroken line let mut len = 0; // are we breaking on whitespace? let mut skip = false; for (i, c) in text.char_indices() { len += 1; match c { '\n' => { after = 0; end = i; skip = true; len = width + 1; } ' ' => { after = 0; end = i; skip = true; } '-' | '—' if len <= width => { after = 0; end = i + c.len_utf8(); skip = false; } _ => after += 1, } if len > width { if len == after { after = 1; end = i; skip = false; } lines.push((start, end)); start = end; if skip { start += 1; } len = after; } } lines } struct SearchArgs { dir: Direction, skip: bool, } #[derive(Clone)] enum Direction { Next, Prev, } trait View { fn run(&self, bk: &mut Bk, kc: KeyCode); fn render(&self, bk: &Bk) -> Vec; } // TODO render something useful? struct Mark; impl View for Mark { fn run(&self, bk: &mut Bk, kc: KeyCode) { if let KeyCode::Char(c) = kc { bk.mark(c) } bk.view = Some(&Page) } fn render(&self, bk: &Bk) -> Vec { Page::render(&Page, bk) } } struct Jump; impl View for Jump { fn run(&self, bk: &mut Bk, kc: KeyCode) { if let KeyCode::Char(c) = kc { bk.jump(c) } bk.view = Some(&Page); } fn render(&self, bk: &Bk) -> Vec { Page::render(&Page, bk) } } struct Metadata; impl View for Metadata { fn run(&self, bk: &mut Bk, _: KeyCode) { bk.view = Some(&Page); } fn render(&self, bk: &Bk) -> Vec { let lines: Vec = bk.chapters.iter().map(|c| c.lines.len()).collect(); let current = lines[..bk.chapter].iter().sum::() + bk.line; let total = lines.iter().sum::(); let progress = current as f32 / total as f32 * 100.0; let pages = lines[bk.chapter] / bk.rows; let page = bk.line / bk.rows; let mut vec = vec![ format!("chapter: {}/{}", page, pages), format!("total: {:.0}%", progress), String::new(), ]; vec.extend_from_slice(&bk.meta); vec } } struct Help; impl View for Help { fn run(&self, bk: &mut Bk, _: KeyCode) { bk.view = Some(&Page); } fn render(&self, _: &Bk) -> Vec { let text = r#" Esc q Quit Fn Help Tab Table of Contents i Progress and Metadata PageDown Right Space f l Page Down PageUp Left b h Page Up d Half Page Down u Half Page Up Down j Line Down Up k Line Up Home g Chapter Start End G Chapter End [ Previous Chapter ] Next Chapter / Search Forward ? Search Backward n Repeat search forward N Repeat search backward mx Set mark x 'x Jump to mark x "#; text.lines().map(String::from).collect() } } struct Nav; impl View for Nav { fn run(&self, bk: &mut Bk, kc: KeyCode) { match kc { KeyCode::Esc | KeyCode::Tab | KeyCode::Left | KeyCode::Char('h') | KeyCode::Char('q') => { bk.jump_reset(); bk.view = Some(&Page); } KeyCode::Enter | KeyCode::Right | KeyCode::Char('l') => { bk.line = 0; bk.view = Some(&Page); } KeyCode::Down | KeyCode::Char('j') => { if bk.chapter < bk.chapters.len() - 1 { bk.chapter += 1; if bk.chapter == bk.nav_top + bk.rows { bk.nav_top += 1; } } } KeyCode::Up | KeyCode::Char('k') => { if bk.chapter > 0 { if bk.chapter == bk.nav_top { bk.nav_top -= 1; } bk.chapter -= 1; } } KeyCode::Home | KeyCode::Char('g') => { bk.chapter = 0; bk.nav_top = 0; } KeyCode::End | KeyCode::Char('G') => { bk.chapter = bk.chapters.len() - 1; bk.nav_top = bk.chapters.len().saturating_sub(bk.rows); } _ => (), } } fn render(&self, bk: &Bk) -> Vec { let end = min(bk.nav_top + bk.rows, bk.chapters.len()); bk.chapters[bk.nav_top..end] .iter() .enumerate() .map(|(i, chapter)| { if bk.chapter == bk.nav_top + i { format!( "{}{}{}", Attribute::Reverse, chapter.title, Attribute::Reset ) } else { chapter.title.to_string() } }) .collect() } } struct Page; impl View for Page { fn run(&self, bk: &mut Bk, kc: KeyCode) { match kc { KeyCode::Esc | KeyCode::Char('q') => bk.view = None, KeyCode::Tab => { bk.nav_top = bk.chapter.saturating_sub(bk.rows - 1); bk.mark('\''); bk.view = Some(&Nav); } KeyCode::F(_) => bk.view = Some(&Help), KeyCode::Char('m') => bk.view = Some(&Mark), KeyCode::Char('\'') => bk.view = Some(&Jump), KeyCode::Char('i') => bk.view = Some(&Metadata), KeyCode::Char('?') => bk.start_search(Direction::Prev), KeyCode::Char('/') => bk.start_search(Direction::Next), KeyCode::Char('N') => { bk.search(SearchArgs { dir: Direction::Prev, skip: true, }); } KeyCode::Char('n') => { bk.search(SearchArgs { dir: Direction::Next, skip: true, }); } KeyCode::End | KeyCode::Char('G') => { bk.mark('\''); bk.line = bk.chap().lines.len().saturating_sub(bk.rows); } KeyCode::Home | KeyCode::Char('g') => { bk.mark('\''); bk.line = 0; } KeyCode::Char('d') => { bk.scroll_down(bk.rows / 2); } KeyCode::Char('u') => { bk.scroll_up(bk.rows / 2); } KeyCode::Up | KeyCode::Char('k') => { bk.scroll_up(2); } KeyCode::Left | KeyCode::PageUp | KeyCode::Char('b') | KeyCode::Char('h') => { bk.scroll_up(bk.rows); } KeyCode::Down | KeyCode::Char('j') => { bk.scroll_down(2); } KeyCode::Right | KeyCode::PageDown | KeyCode::Char('f') | KeyCode::Char('l') | KeyCode::Char(' ') => { bk.scroll_down(bk.rows); } KeyCode::Char('[') => bk.prev_chapter(), KeyCode::Char(']') => bk.next_chapter(), _ => (), } } fn render(&self, bk: &Bk) -> Vec { let c = bk.chap(); let end = min(bk.line + bk.rows, c.lines.len()); c.lines[bk.line..end] .iter() .map(|&(a, b)| String::from(&c.text[a..b])) .collect() } } struct Search; impl View for Search { fn run(&self, bk: &mut Bk, kc: KeyCode) { match kc { KeyCode::Esc => { bk.jump_reset(); bk.view = Some(&Page); } KeyCode::Enter => { bk.view = Some(&Page); } KeyCode::Backspace => { bk.query.pop(); bk.jump_reset(); bk.search(SearchArgs { dir: bk.dir.clone(), skip: false, }); } KeyCode::Char(c) => { bk.query.push(c); let args = SearchArgs { dir: bk.dir.clone(), skip: false, }; if !bk.search(args) { bk.jump_reset(); } } _ => (), } } fn render(&self, bk: &Bk) -> Vec { let c = bk.chap(); let end = min(bk.line + bk.rows - 1, c.lines.len()); let mut buf = Vec::with_capacity(bk.rows); for &(a, b) in c.lines[bk.line..end].iter() { let line = String::from(&c.text[a..b]); if let Some(i) = line.find(&bk.query) { buf.push(format!( "{}{}{}{}{}", &line[..i], Attribute::Reverse, &bk.query, Attribute::Reset, &line[i + bk.query.len()..], )); } else { buf.push(line); } } for _ in buf.len()..bk.rows - 1 { buf.push(String::new()); } let prefix = match bk.dir { Direction::Next => '/', Direction::Prev => '?', }; buf.push(format!("{}{}", prefix, bk.query)); buf } } struct Chapter { title: String, // a single string for searching text: String, // byte indexes lines: Vec<(usize, usize)>, } struct Bk<'a> { chapters: Vec, // position in the book chapter: usize, line: usize, mark: HashMap, // terminal cols: u16, rows: usize, // user config max_width: u16, // view state view: Option<&'a dyn View>, dir: Direction, meta: Vec, nav_top: usize, query: String, } impl Bk<'_> { fn new(epub: epub::Epub, args: Props) -> Self { let (cols, rows) = terminal::size().unwrap(); let width = min(cols, args.width) as usize; let meta = wrap(&epub.meta, width) .into_iter() .map(|(a, b)| String::from(&epub.meta[a..b])) .collect(); let mut chapters = Vec::with_capacity(epub.chapters.len()); for (text, title) in epub.chapters { let title = if title.chars().count() > width { title .chars() .take(width - 1) .chain(iter::once('…')) .collect() } else { title }; let lines = wrap(&text, width); chapters.push(Chapter { title, text, lines }); } let line = match chapters[args.chapter] .lines .binary_search_by_key(&args.byte, |&(a, _)| a) { Ok(n) => n, Err(n) => n - 1, }; let mut mark = HashMap::new(); let view: &dyn View = if args.toc { // need an initial mark to reset to mark.insert('\'', (args.chapter, line)); &Nav } else { &Page }; Bk { chapters, chapter: args.chapter, line, mark, cols, rows: rows as usize, max_width: args.width, view: Some(view), dir: Direction::Next, meta, nav_top: 0, query: String::new(), } } fn run(&mut self) -> crossterm::Result<()> { let mut stdout = stdout(); queue!(stdout, terminal::EnterAlternateScreen, cursor::Hide)?; terminal::enable_raw_mode()?; while let Some(view) = self.view { let pad = self.cols.saturating_sub(self.max_width) / 2; queue!(stdout, terminal::Clear(terminal::ClearType::All))?; for (i, line) in view.render(self).iter().enumerate() { queue!(stdout, cursor::MoveTo(pad, i as u16), Print(line))?; } stdout.flush().unwrap(); match event::read()? { Event::Key(e) => view.run(self, e.code), Event::Resize(cols, rows) => { self.cols = cols; self.rows = rows as usize; } // TODO Event::Mouse(_) => (), } } queue!(stdout, terminal::LeaveAlternateScreen, cursor::Show)?; terminal::disable_raw_mode() } fn mark(&mut self, c: char) { self.mark.insert(c, (self.chapter, self.line)); } fn jump(&mut self, c: char) { if let Some(&(c, l)) = self.mark.get(&c) { let jump = (self.chapter, self.line); self.chapter = c; self.line = l; self.mark.insert('\'', jump); } } fn jump_reset(&mut self) { let &(c, l) = self.mark.get(&'\'').unwrap(); self.chapter = c; self.line = l; } fn chap(&self) -> &Chapter { &self.chapters[self.chapter] } fn next_chapter(&mut self) { if self.chapter < self.chapters.len() - 1 { self.chapter += 1; self.line = 0; } } fn prev_chapter(&mut self) { if self.chapter > 0 { self.chapter -= 1; self.line = 0; } } fn scroll_down(&mut self, n: usize) { if self.line + self.rows < self.chap().lines.len() { self.line += n; } else { self.next_chapter(); } } fn scroll_up(&mut self, n: usize) { if self.line > 0 { self.line = self.line.saturating_sub(n); } else { self.prev_chapter(); self.line = self.chap().lines.len().saturating_sub(self.rows); } } fn start_search(&mut self, dir: Direction) { self.mark('\''); self.query.clear(); self.dir = dir; self.view = Some(&Search); } fn search(&mut self, args: SearchArgs) -> bool { let get_line = |lines: &Vec<(usize, usize)>, byte: usize| -> usize { match lines.binary_search_by_key(&byte, |&(a, _)| a) { Ok(n) => n, Err(n) => n - 1, } }; let (start, end) = self.chap().lines[self.line]; match args.dir { Direction::Next => { let byte = if args.skip { end } else { start }; let head = (self.chapter, byte); let tail = (self.chapter + 1..self.chapters.len() - 1).map(|n| (n, 0)); for (c, byte) in iter::once(head).chain(tail) { if let Some(index) = self.chapters[c].text[byte..].find(&self.query) { self.line = get_line(&self.chapters[c].lines, index + byte); self.chapter = c; return true; } } false } Direction::Prev => { let byte = if args.skip { start } else { end }; let head = (self.chapter, byte); let tail = (0..self.chapter) .rev() .map(|c| (c, self.chapters[c].text.len())); for (c, byte) in iter::once(head).chain(tail) { if let Some(index) = self.chapters[c].text[..byte].rfind(&self.query) { self.line = get_line(&self.chapters[c].lines, index); self.chapter = c; return true; } } false } } } } #[derive(argh::FromArgs)] /// read a book struct Args { #[argh(positional)] path: Option, /// print metadata and exit #[argh(switch, short = 'm')] meta: bool, /// start with table of contents open #[argh(switch, short = 't')] toc: bool, /// characters per line #[argh(option, short = 'w', default = "75")] width: u16, } struct Props { chapter: usize, byte: usize, width: u16, toc: bool, } fn init(save_path: &str) -> Option<(String, bool, Props)> { let args: Args = argh::from_env(); // TODO nice error message instead of panic let path = args .path .map(|s| fs::canonicalize(s).unwrap().to_str().unwrap().to_string()); let save = fs::read_to_string(save_path).and_then(|s| { let mut lines = s.lines(); Ok(( lines.next().unwrap().to_string(), lines.next().unwrap().parse::().unwrap(), lines.next().unwrap().parse::().unwrap(), )) }); let (path, chapter, byte) = match (save, path) { (Err(_), None) => return None, (Err(_), Some(path)) => (path, 0, 0), (Ok(save), None) => save, (Ok(save), Some(path)) => { if save.0 == path { save } else { (path, 0, 0) } } }; Some(( path, args.meta, Props { chapter, byte, width: args.width, toc: args.toc, }, )) } fn main() { let save_path = if cfg!(windows) { format!("{}\\bk", env::var("APPDATA").unwrap()) } else { format!("{}/.local/share/bk", env::var("HOME").unwrap()) }; let (path, meta, args) = init(&save_path).unwrap_or_else(|| { println!("error: need a path"); exit(1); }); let epub = epub::Epub::new(&path, meta).unwrap_or_else(|e| { println!("error reading epub: {}", e); exit(1); }); if meta { println!("{}", epub.meta); exit(0); } let mut bk = Bk::new(epub, args); // i have never seen crossterm error bk.run().unwrap(); let byte = bk.chap().lines[bk.line].0; fs::write(save_path, format!("{}\n{}\n{}", path, bk.chapter, byte)).unwrap_or_else(|e| { println!("error saving state: {}", e); exit(1); }); }