// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Basic data structures for representing a book. use std::io::prelude::*; use std::io::BufReader; use std::iter; use std::iter::AdditiveIterator; use std::path::{Path, PathBuf}; pub struct BookItem { pub title: String, pub path: PathBuf, pub path_to_root: PathBuf, pub children: Vec, } pub struct Book { pub chapters: Vec, } /// A depth-first iterator over a book. pub struct BookItems<'a> { cur_items: &'a [BookItem], cur_idx: usize, stack: Vec<(&'a [BookItem], usize)>, } impl<'a> Iterator for BookItems<'a> { type Item = (String, &'a BookItem); fn next(&mut self) -> Option<(String, &'a BookItem)> { loop { if self.cur_idx >= self.cur_items.len() { match self.stack.pop() { None => return None, Some((parent_items, parent_idx)) => { self.cur_items = parent_items; self.cur_idx = parent_idx + 1; } } } else { let cur = self.cur_items.get(self.cur_idx).unwrap(); let mut section = "".to_string(); for &(_, idx) in &self.stack { section.push_str(&(idx + 1).to_string()[..]); section.push('.'); } section.push_str(&(self.cur_idx + 1).to_string()[..]); section.push('.'); self.stack.push((self.cur_items, self.cur_idx)); self.cur_items = &cur.children[..]; self.cur_idx = 0; return Some((section, cur)) } } } } impl Book { pub fn iter(&self) -> BookItems { BookItems { cur_items: &self.chapters[..], cur_idx: 0, stack: Vec::new(), } } } /// Construct a book by parsing a summary (markdown table of contents). pub fn parse_summary(input: &mut Read, src: &Path) -> Result> { fn collapse(stack: &mut Vec, top_items: &mut Vec, to_level: usize) { loop { if stack.len() < to_level { return } if stack.len() == 1 { top_items.push(stack.pop().unwrap()); return; } let tip = stack.pop().unwrap(); let last = stack.len() - 1; stack[last].children.push(tip); } } let mut top_items = vec!(); let mut stack = vec!(); let mut errors = vec!(); // always include the introduction top_items.push(BookItem { title: "Introduction".to_string(), path: PathBuf::from("README.md"), path_to_root: PathBuf::from("."), children: vec!(), }); for line_result in BufReader::new(input).lines() { let line = match line_result { Ok(line) => line, Err(err) => { errors.push(err.to_string()); return Err(errors); } }; let star_idx = match line.find("*") { Some(i) => i, None => continue }; let start_bracket = star_idx + line[star_idx..].find("[").unwrap(); let end_bracket = start_bracket + line[start_bracket..].find("](").unwrap(); let start_paren = end_bracket + 1; let end_paren = start_paren + line[start_paren..].find(")").unwrap(); let given_path = &line[start_paren + 1 .. end_paren]; let title = line[start_bracket + 1..end_bracket].to_string(); let indent = &line[..star_idx]; let path_from_root = match src.join(given_path).relative_from(src) { Some(p) => p.to_path_buf(), None => { errors.push(format!("paths in SUMMARY.md must be relative, \ but path '{}' for section '{}' is not.", given_path, title)); PathBuf::new() } }; let path_to_root = PathBuf::from(&iter::repeat("../") .take(path_from_root.components().count() - 1) .collect::()); let item = BookItem { title: title, path: path_from_root, path_to_root: path_to_root, children: vec!(), }; let level = indent.chars().map(|c| -> usize { match c { ' ' => 1, '\t' => 4, _ => unreachable!() } }).sum() / 4 + 1; if level > stack.len() + 1 { errors.push(format!("section '{}' is indented too deeply; \ found {}, expected {} or less", item.title, level, stack.len() + 1)); } else if level <= stack.len() { collapse(&mut stack, &mut top_items, level); } stack.push(item) } if errors.is_empty() { collapse(&mut stack, &mut top_items, 1); Ok(Book { chapters: top_items }) } else { Err(errors) } }