extern crate tera; extern crate rayon; extern crate glob; extern crate serde; #[macro_use] extern crate serde_derive; extern crate sass_rs; #[macro_use] extern crate errors; extern crate config; extern crate utils; extern crate front_matter; extern crate templates; extern crate pagination; extern crate taxonomies; extern crate content; extern crate search; #[cfg(test)] extern crate tempfile; use std::collections::HashMap; use std::fs::{create_dir_all, remove_dir_all, copy}; use std::mem; use std::path::{Path, PathBuf}; use glob::glob; use tera::{Tera, Context}; use sass_rs::{Options as SassOptions, OutputStyle, compile_file}; use errors::{Result, ResultExt}; use config::{Config, get_config}; use utils::fs::{create_file, copy_directory, create_directory, ensure_directory_exists}; use utils::templates::{render_template, rewrite_theme_paths}; use utils::net::get_available_port; use content::{Page, Section, populate_previous_and_next_pages, sort_pages}; use templates::{GUTENBERG_TERA, global_fns, render_redirect_template}; use front_matter::{SortBy, InsertAnchor}; use taxonomies::Taxonomy; use pagination::Paginator; use rayon::prelude::*; /// The sitemap only needs links and potentially date so we trim down /// all pages to only that #[derive(Debug, Serialize)] struct SitemapEntry { permalink: String, date: Option, } impl SitemapEntry { pub fn new(permalink: String, date: Option) -> SitemapEntry { SitemapEntry { permalink, date } } } #[derive(Debug)] pub struct Site { /// The base path of the gutenberg site pub base_path: PathBuf, /// The parsed config for the site pub config: Config, pub pages: HashMap, pub sections: HashMap, pub tera: Tera, // the live reload port to be used if there is one pub live_reload: Option, pub output_path: PathBuf, pub static_path: PathBuf, pub tags: Option, pub categories: Option, /// A map of all .md files (section and pages) and their permalink /// We need that if there are relative links in the content that need to be resolved pub permalinks: HashMap, } impl Site { /// Parse a site at the given path. Defaults to the current dir /// Passing in a path is only used in tests pub fn new>(path: P, config_file: &str) -> Result { let path = path.as_ref(); let mut config = get_config(path, config_file); let tpl_glob = format!("{}/{}", path.to_string_lossy().replace("\\", "/"), "templates/**/*.*ml"); // Only parsing as we might be extending templates from themes and that would error // as we haven't loaded them yet let mut tera = Tera::parse(&tpl_glob).chain_err(|| "Error parsing templates")?; if let Some(theme) = config.theme.clone() { // Grab data from the extra section of the theme config.merge_with_theme(&path.join("themes").join(&theme).join("theme.toml"))?; // Test that the templates folder exist for that theme let theme_path = path.join("themes").join(&theme); if !theme_path.join("templates").exists() { bail!("Theme `{}` is missing a templates folder", theme); } let theme_tpl_glob = format!("{}/{}", path.to_string_lossy().replace("\\", "/"), "themes/**/*.html"); let mut tera_theme = Tera::parse(&theme_tpl_glob).chain_err(|| "Error parsing templates from themes")?; rewrite_theme_paths(&mut tera_theme, &theme); tera_theme.build_inheritance_chains()?; tera.extend(&tera_theme)?; } tera.extend(&GUTENBERG_TERA)?; // the `extend` above already does it but hey tera.build_inheritance_chains()?; let site = Site { base_path: path.to_path_buf(), config, tera, pages: HashMap::new(), sections: HashMap::new(), live_reload: None, output_path: path.join("public"), static_path: path.join("static"), tags: None, categories: None, permalinks: HashMap::new(), }; Ok(site) } /// The index section is ALWAYS at that path pub fn index_section_path(&self) -> PathBuf { self.base_path.join("content").join("_index.md") } pub fn enable_live_reload(&mut self) { self.live_reload = get_available_port(); } /// Get all the orphan (== without section) pages in the site pub fn get_all_orphan_pages(&self) -> Vec<&Page> { let mut pages_in_sections = vec![]; let mut orphans = vec![]; for s in self.sections.values() { pages_in_sections.extend(s.all_pages_path()); } for page in self.pages.values() { if !pages_in_sections.contains(&page.file.path) { orphans.push(page); } } orphans } pub fn set_output_path>(&mut self, path: P) { self.output_path = path.as_ref().to_path_buf(); } /// Reads all .md files in the `content` directory and create pages/sections /// out of them pub fn load(&mut self) -> Result<()> { let base_path = self.base_path.to_string_lossy().replace("\\", "/"); let content_glob = format!("{}/{}", base_path, "content/**/*.md"); let (section_entries, page_entries): (Vec<_>, Vec<_>) = glob(&content_glob) .unwrap() .filter_map(|e| e.ok()) .partition(|entry| entry.as_path().file_name().unwrap() == "_index.md"); let sections = { let config = &self.config; section_entries .into_par_iter() .filter(|entry| entry.as_path().file_name().unwrap() == "_index.md") .map(|entry| { let path = entry.as_path(); Section::from_file(path, config) }) .collect::>() }; let pages = { let config = &self.config; page_entries .into_par_iter() .filter(|entry| entry.as_path().file_name().unwrap() != "_index.md") .map(|entry| { let path = entry.as_path(); Page::from_file(path, config) }) .collect::>() }; // Kinda duplicated code for add_section/add_page but necessary to do it that // way because of the borrow checker for section in sections { let s = section?; self.add_section(s, false)?; } // Insert a default index section if necessary so we don't need to create // a _index.md to render the index page let index_path = self.index_section_path(); if let Some(ref index_section) = self.sections.get(&index_path) { if self.config.build_search_index && !index_section.meta.in_search_index { bail!( "You have enabled search in the config but disabled it in the index section: \ either turn off the search in the config or remote `in_search_index = true` from the \ section front-matter." ) } } // Not in else because of borrow checker if !self.sections.contains_key(&index_path) { let mut index_section = Section::default(); index_section.permalink = self.config.make_permalink(""); index_section.file.parent = self.base_path.join("content"); index_section.file.relative = "_index.md".to_string(); self.sections.insert(index_path, index_section); } let mut pages_insert_anchors = HashMap::new(); for page in pages { let p = page?; pages_insert_anchors.insert(p.file.path.clone(), self.find_parent_section_insert_anchor(&p.file.parent.clone())); self.add_page(p, false)?; } self.render_markdown()?; self.populate_sections(); self.populate_tags_and_categories(); self.register_tera_global_fns(); Ok(()) } /// Render the markdown of all pages/sections /// Used in a build and in `serve` if a shortcode has changed pub fn render_markdown(&mut self) -> Result<()> { // Another silly thing needed to not borrow &self in parallel and // make the borrow checker happy let permalinks = &self.permalinks; let tera = &self.tera; let config = &self.config; // TODO: avoid the duplication with function above for that part // This is needed in the first place because of silly borrow checker let mut pages_insert_anchors = HashMap::new(); for (_, p) in &self.pages { pages_insert_anchors.insert(p.file.path.clone(), self.find_parent_section_insert_anchor(&p.file.parent.clone())); } self.pages.par_iter_mut() .map(|(_, page)| { let insert_anchor = pages_insert_anchors[&page.file.path]; page.render_markdown(permalinks, tera, config, insert_anchor) }) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and)?; self.sections.par_iter_mut() .map(|(_, section)| section.render_markdown(permalinks, tera, config)) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and)?; Ok(()) } pub fn register_tera_global_fns(&mut self) { self.tera.register_global_function("trans", global_fns::make_trans(self.config.clone())); self.tera.register_global_function("get_page", global_fns::make_get_page(&self.pages)); self.tera.register_global_function("get_section", global_fns::make_get_section(&self.sections)); self.tera.register_global_function( "get_taxonomy_url", global_fns::make_get_taxonomy_url(self.tags.clone(), self.categories.clone()) ); self.tera.register_global_function( "get_url", global_fns::make_get_url(self.permalinks.clone(), self.config.clone()) ); } /// Add a page to the site /// The `render` parameter is used in the serve command, when rebuilding a page. /// If `true`, it will also render the markdown for that page /// Returns the previous page struct if there was one at the same path pub fn add_page(&mut self, page: Page, render: bool) -> Result> { let path = page.file.path.clone(); self.permalinks.insert(page.file.relative.clone(), page.permalink.clone()); let prev = self.pages.insert(page.file.path.clone(), page); if render { let insert_anchor = self.find_parent_section_insert_anchor(&self.pages[&path].file.parent); let page = self.pages.get_mut(&path).unwrap(); page.render_markdown(&self.permalinks, &self.tera, &self.config, insert_anchor)?; } Ok(prev) } /// Add a section to the site /// The `render` parameter is used in the serve command, when rebuilding a page. /// If `true`, it will also render the markdown for that page /// Returns the previous section struct if there was one at the same path pub fn add_section(&mut self, section: Section, render: bool) -> Result> { let path = section.file.path.clone(); self.permalinks.insert(section.file.relative.clone(), section.permalink.clone()); let prev = self.sections.insert(section.file.path.clone(), section); if render { let section = self.sections.get_mut(&path).unwrap(); section.render_markdown(&self.permalinks, &self.tera, &self.config)?; } Ok(prev) } /// Finds the insert_anchor for the parent section of the directory at `path`. /// Defaults to `AnchorInsert::None` if no parent section found pub fn find_parent_section_insert_anchor(&self, parent_path: &PathBuf) -> InsertAnchor { match self.sections.get(&parent_path.join("_index.md")) { Some(s) => s.meta.insert_anchor_links, None => InsertAnchor::None } } /// Find out the direct subsections of each subsection if there are some /// as well as the pages for each section pub fn populate_sections(&mut self) { let mut grandparent_paths: HashMap> = HashMap::new(); for section in self.sections.values_mut() { if let Some(ref grand_parent) = section.file.grand_parent { grandparent_paths .entry(grand_parent.to_path_buf()) .or_insert_with(|| vec![]) .push(section.file.path.clone()); } // Make sure the pages of a section are empty since we can call that many times on `serve` section.pages = vec![]; section.ignored_pages = vec![]; } for page in self.pages.values() { let parent_section_path = page.file.parent.join("_index.md"); if self.sections.contains_key(&parent_section_path) { // TODO: use references instead of cloning to avoid having to call populate_section on // content change self.sections.get_mut(&parent_section_path).unwrap().pages.push(page.clone()); } } self.sort_sections_pages(None); // TODO: remove this clone let sections = self.sections.clone(); for section in self.sections.values_mut() { if let Some(paths) = grandparent_paths.get(§ion.file.parent) { section.subsections = paths .iter() .map(|p| sections[p].clone()) .collect::>(); section.subsections .sort_by(|a, b| a.meta.weight.cmp(&b.meta.weight)); } } } /// Sorts the pages of the section at the given path /// By default will sort all sections but can be made to only sort a single one by providing a path pub fn sort_sections_pages(&mut self, only: Option<&Path>) { for (path, section) in &mut self.sections { if let Some(p) = only { if p != path { continue; } } let pages = mem::replace(&mut section.pages, vec![]); let (sorted_pages, cannot_be_sorted_pages) = sort_pages(pages, section.meta.sort_by); section.pages = populate_previous_and_next_pages(&sorted_pages); section.ignored_pages = cannot_be_sorted_pages; } } /// Find all the tags and categories if it's asked in the config pub fn populate_tags_and_categories(&mut self) { let generate_tags_pages = self.config.generate_tags_pages; let generate_categories_pages = self.config.generate_categories_pages; if !generate_tags_pages && !generate_categories_pages { return; } // TODO: can we pass a reference? let (tags, categories) = Taxonomy::find_tags_and_categories( &self.config, self.pages .values() .filter(|p| !p.is_draft()) .cloned() .collect::>() .as_slice() ); if generate_tags_pages { self.tags = Some(tags); } if generate_categories_pages { self.categories = Some(categories); } } /// Inject live reload script tag if in live reload mode fn inject_livereload(&self, html: String) -> String { if let Some(port) = self.live_reload { return html.replace( "", &format!(r#""#, port) ); } html } /// Copy the main `static` folder and the theme `static` folder if a theme is used pub fn copy_static_directories(&self) -> Result<()> { // The user files will overwrite the theme files if let Some(ref theme) = self.config.theme { copy_directory( &self.base_path.join("themes").join(theme).join("static"), &self.output_path )?; } // We're fine with missing static folders if self.static_path.exists() { copy_directory(&self.static_path, &self.output_path)?; } Ok(()) } /// Deletes the `public` directory if it exists pub fn clean(&self) -> Result<()> { if self.output_path.exists() { // Delete current `public` directory so we can start fresh remove_dir_all(&self.output_path).chain_err(|| "Couldn't delete output directory")?; } Ok(()) } /// Renders a single content page pub fn render_page(&self, page: &Page) -> Result<()> { ensure_directory_exists(&self.output_path)?; // Copy the nesting of the content directory if we have sections for that page let mut current_path = self.output_path.to_path_buf(); for component in page.path.split('/') { current_path.push(component); if !current_path.exists() { create_directory(¤t_path)?; } } // Make sure the folder exists create_directory(¤t_path)?; // Finally, create a index.html file there with the page rendered let output = page.render_html(&self.tera, &self.config)?; create_file(¤t_path.join("index.html"), &self.inject_livereload(output))?; // Copy any asset we found previously into the same directory as the index.html for asset in &page.assets { let asset_path = asset.as_path(); copy(&asset_path, ¤t_path.join(asset_path.file_name().unwrap()))?; } Ok(()) } /// Deletes the `public` directory and builds the site pub fn build(&self) -> Result<()> { self.clean()?; // Render aliases first to allow overwriting self.render_aliases()?; self.render_sections()?; self.render_orphan_pages()?; self.render_sitemap()?; if self.config.generate_rss { self.render_rss_feed()?; } self.render_robots()?; // `render_categories` and `render_tags` will check whether the config allows // them to render or not self.render_categories()?; self.render_tags()?; if let Some(ref theme) = self.config.theme { let theme_path = self.base_path.join("themes").join(theme); if theme_path.join("sass").exists() { self.compile_sass(&theme_path)?; } } if self.config.compile_sass { self.compile_sass(&self.base_path)?; } self.copy_static_directories()?; if self.config.build_search_index { self.build_search_index()?; } Ok(()) } pub fn build_search_index(&self) -> Result<()> { // index first create_file( &self.output_path.join(&format!("search_index.{}.js", self.config.default_language)), &format!( "window.searchIndex = {};", search::build_index(&self.sections, &self.config.default_language)? ), )?; // then elasticlunr.min.js create_file( &self.output_path.join("elasticlunr.min.js"), search::ELASTICLUNR_JS, )?; Ok(()) } pub fn compile_sass(&self, base_path: &Path) -> Result<()> { ensure_directory_exists(&self.output_path)?; let sass_path = { let mut sass_path = PathBuf::from(base_path); sass_path.push("sass"); sass_path }; let mut options = SassOptions::default(); options.output_style = OutputStyle::Compressed; let mut compiled_paths = self.compile_sass_glob(&sass_path, "scss", options.clone())?; options.indented_syntax = true; compiled_paths.extend(self.compile_sass_glob(&sass_path, "sass", options)?); compiled_paths.sort(); for window in compiled_paths.windows(2) { if window[0].1 == window[1].1 { bail!( "SASS path conflict: \"{}\" and \"{}\" both compile to \"{}\"", window[0].0.display(), window[1].0.display(), window[0].1.display(), ); } } Ok(()) } fn compile_sass_glob(&self, sass_path: &Path, extension: &str, options: SassOptions) -> Result> { let glob_string = format!("{}/**/*.{}", sass_path.display(), extension); let files = glob(&glob_string) .unwrap() .filter_map(|e| e.ok()) .filter(|entry| !entry.as_path().file_name().unwrap().to_string_lossy().starts_with('_')) .collect::>(); let mut compiled_paths = Vec::new(); for file in files { let css = compile_file(&file, options.clone())?; let path_inside_sass = file.strip_prefix(&sass_path).unwrap(); let parent_inside_sass = path_inside_sass.parent(); let css_output_path = self.output_path.join(path_inside_sass).with_extension("css"); if parent_inside_sass.is_some() { create_dir_all(&css_output_path.parent().unwrap())?; } create_file(&css_output_path, &css)?; compiled_paths.push((path_inside_sass.to_owned(), css_output_path)); } Ok(compiled_paths) } pub fn render_aliases(&self) -> Result<()> { for page in self.pages.values() { for alias in &page.meta.aliases { let mut output_path = self.output_path.to_path_buf(); let mut split = alias.split('/').collect::>(); // If the alias ends with an html file name, use that instead of mapping // as a path containing an `index.html` let page_name = match split.pop() { Some(part) if part.ends_with(".html") => part, Some(part) => { split.push(part); "index.html" } None => "index.html" }; for component in split { output_path.push(&component); if !output_path.exists() { create_directory(&output_path)?; } } create_file(&output_path.join(page_name), &render_redirect_template(&page.permalink, &self.tera)?)?; } } Ok(()) } /// Renders robots.txt pub fn render_robots(&self) -> Result<()> { ensure_directory_exists(&self.output_path)?; create_file( &self.output_path.join("robots.txt"), &render_template("robots.txt", &self.tera, &Context::new(), &self.config.theme)? ) } /// Renders all categories and the single category pages if there are some pub fn render_categories(&self) -> Result<()> { if let Some(ref categories) = self.categories { self.render_taxonomy(categories)?; } Ok(()) } /// Renders all tags and the single tag pages if there are some pub fn render_tags(&self) -> Result<()> { if let Some(ref tags) = self.tags { self.render_taxonomy(tags)?; } Ok(()) } fn render_taxonomy(&self, taxonomy: &Taxonomy) -> Result<()> { if taxonomy.items.is_empty() { return Ok(()) } ensure_directory_exists(&self.output_path)?; let output_path = self.output_path.join(&taxonomy.get_list_name()); let list_output = taxonomy.render_list(&self.tera, &self.config)?; create_directory(&output_path)?; create_file(&output_path.join("index.html"), &self.inject_livereload(list_output))?; taxonomy .items .par_iter() .map(|item| { let single_output = taxonomy.render_single_item(item, &self.tera, &self.config)?; create_directory(&output_path.join(&item.slug))?; create_file( &output_path.join(&item.slug).join("index.html"), &self.inject_livereload(single_output) ) }) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and) } /// What it says on the tin pub fn render_sitemap(&self) -> Result<()> { ensure_directory_exists(&self.output_path)?; let mut context = Context::new(); let mut pages = self.pages .values() .filter(|p| !p.is_draft()) .map(|p| { let date = match p.meta.date { Some(ref d) => Some(d.to_string()), None => None, }; SitemapEntry::new(p.permalink.clone(), date) }) .collect::>(); pages.sort_by(|a, b| a.permalink.cmp(&b.permalink)); context.add("pages", &pages); let mut sections = self.sections .values() .map(|s| SitemapEntry::new(s.permalink.clone(), None)) .collect::>(); sections.sort_by(|a, b| a.permalink.cmp(&b.permalink)); context.add("sections", §ions); let mut categories = vec![]; if let Some(ref c) = self.categories { let name = c.get_list_name(); categories.push(SitemapEntry::new(self.config.make_permalink(&name), None)); for item in &c.items { categories.push( SitemapEntry::new(self.config.make_permalink(&format!("{}/{}", &name, item.slug)), None), ); } } categories.sort_by(|a, b| a.permalink.cmp(&b.permalink)); context.add("categories", &categories); let mut tags = vec![]; if let Some(ref t) = self.tags { let name = t.get_list_name(); tags.push(SitemapEntry::new(self.config.make_permalink(&name), None)); for item in &t.items { tags.push( SitemapEntry::new(self.config.make_permalink(&format!("{}/{}", &name, item.slug)), None), ); } } tags.sort_by(|a, b| a.permalink.cmp(&b.permalink)); context.add("tags", &tags); context.add("config", &self.config); let sitemap = &render_template("sitemap.xml", &self.tera, &context, &self.config.theme)?; create_file(&self.output_path.join("sitemap.xml"), sitemap)?; Ok(()) } pub fn render_rss_feed(&self) -> Result<()> { ensure_directory_exists(&self.output_path)?; let mut context = Context::new(); let pages = self.pages.values() .filter(|p| p.meta.date.is_some() && !p.is_draft()) .cloned() .collect::>(); // Don't generate a RSS feed if none of the pages has a date if pages.is_empty() { return Ok(()); } let (sorted_pages, _) = sort_pages(pages, SortBy::Date); context.add("last_build_date", &sorted_pages[0].meta.date.clone().map(|d| d.to_string())); // limit to the last n elements) context.add("pages", &sorted_pages.iter().take(self.config.rss_limit).collect::>()); context.add("config", &self.config); let rss_feed_url = if self.config.base_url.ends_with('/') { format!("{}{}", self.config.base_url, "rss.xml") } else { format!("{}/{}", self.config.base_url, "rss.xml") }; context.add("feed_url", &rss_feed_url); let feed = &render_template("rss.xml", &self.tera, &context, &self.config.theme)?; create_file(&self.output_path.join("rss.xml"), feed)?; Ok(()) } /// Renders a single section pub fn render_section(&self, section: &Section, render_pages: bool) -> Result<()> { ensure_directory_exists(&self.output_path)?; let public = self.output_path.clone(); let mut output_path = public.to_path_buf(); for component in §ion.file.components { output_path.push(component); if !output_path.exists() { create_directory(&output_path)?; } } if render_pages { section .pages .par_iter() .map(|p| self.render_page(p)) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and)?; } if !section.meta.render { return Ok(()); } if let Some(ref redirect_to) = section.meta.redirect_to { let permalink = self.config.make_permalink(redirect_to); create_file(&output_path.join("index.html"), &render_redirect_template(&permalink, &self.tera)?)?; return Ok(()); } if section.meta.is_paginated() { self.render_paginated(&output_path, section)?; } else { let output = section.render_html(&self.tera, &self.config)?; create_file(&output_path.join("index.html"), &self.inject_livereload(output))?; } Ok(()) } /// Used only on reload pub fn render_index(&self) -> Result<()> { self.render_section( &self.sections[&self.base_path.join("content").join("_index.md")], false ) } /// Renders all sections pub fn render_sections(&self) -> Result<()> { self.sections .values() .collect::>() .into_par_iter() .map(|s| self.render_section(s, true)) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and) } /// Renders all pages that do not belong to any sections pub fn render_orphan_pages(&self) -> Result<()> { ensure_directory_exists(&self.output_path)?; for page in self.get_all_orphan_pages() { self.render_page(page)?; } Ok(()) } /// Renders a list of pages when the section/index is wanting pagination. pub fn render_paginated(&self, output_path: &Path, section: &Section) -> Result<()> { ensure_directory_exists(&self.output_path)?; let paginator = Paginator::new(§ion.pages, section); let folder_path = output_path.join(§ion.meta.paginate_path); create_directory(&folder_path)?; paginator .pagers .par_iter() .enumerate() .map(|(i, pager)| { let page_path = folder_path.join(&format!("{}", i + 1)); create_directory(&page_path)?; let output = paginator.render_pager(pager, &self.config, &self.tera)?; if i > 0 { create_file(&page_path.join("index.html"), &self.inject_livereload(output))?; } else { create_file(&output_path.join("index.html"), &self.inject_livereload(output))?; create_file(&page_path.join("index.html"), &render_redirect_template(§ion.permalink, &self.tera)?)?; } Ok(()) }) .fold(|| Ok(()), Result::and) .reduce(|| Ok(()), Result::and) } }