/// A page, can be a blog post or a basic page use std::cmp::Ordering; use std::collections::HashMap; use std::fs::{read_dir}; use std::path::{Path, PathBuf}; use std::result::Result as StdResult; use tera::{Tera, Context}; use serde::ser::{SerializeStruct, self}; use slug::slugify; use errors::{Result, ResultExt}; use config::Config; use front_matter::{FrontMatter, SortBy, split_content}; use section::Section; use markdown::markdown_to_html; use utils::{read_file, find_content_components}; /// Looks into the current folder for the path and see if there's anything that is not a .md /// file. Those will be copied next to the rendered .html file fn find_related_assets(path: &Path) -> Vec { let mut assets = vec![]; for entry in read_dir(path).unwrap().filter_map(|e| e.ok()) { let entry_path = entry.path(); if entry_path.is_file() { match entry_path.extension() { Some(e) => match e.to_str() { Some("md") => continue, _ => assets.push(entry_path.to_path_buf()), }, None => continue, } } } assets } #[derive(Clone, Debug, PartialEq)] pub struct Page { /// The .md path pub file_path: PathBuf, /// The .md path, starting from the content directory, with / slashes pub relative_path: String, /// The parent directory of the file. Is actually the grand parent directory /// if it's an asset folder pub parent_path: PathBuf, /// The name of the .md file pub file_name: String, /// The directories above our .md file /// for example a file at content/kb/solutions/blabla.md will have 2 components: /// `kb` and `solutions` pub components: Vec, /// The actual content of the page, in markdown pub raw_content: String, /// All the non-md files we found next to the .md file pub assets: Vec, /// The HTML rendered of the page pub content: String, /// The front matter meta-data pub meta: FrontMatter, /// The slug of that page. /// First tries to find the slug in the meta and defaults to filename otherwise pub slug: String, /// The URL path of the page pub path: String, /// The full URL for that page pub permalink: String, /// The summary for the article, defaults to None /// When is found in the text, will take the content up to that part /// as summary pub summary: Option, /// The previous page, by whatever sorting is used for the index/section pub previous: Option>, /// The next page, by whatever sorting is used for the index/section pub next: Option>, } impl Page { pub fn new(meta: FrontMatter) -> Page { Page { file_path: PathBuf::new(), relative_path: String::new(), parent_path: PathBuf::new(), file_name: "".to_string(), components: vec![], raw_content: "".to_string(), assets: vec![], content: "".to_string(), slug: "".to_string(), path: "".to_string(), permalink: "".to_string(), summary: None, meta: meta, previous: None, next: None, } } pub fn has_date(&self) -> bool { self.meta.date.is_some() } /// Get word count and estimated reading time pub fn get_reading_analytics(&self) -> (usize, usize) { // Only works for latin language but good enough for a start let word_count: usize = self.raw_content.split_whitespace().count(); // https://help.medium.com/hc/en-us/articles/214991667-Read-time // 275 seems a bit too high though (word_count, (word_count / 200)) } /// Parse a page given the content of the .md file /// Files without front matter or with invalid front matter are considered /// erroneous pub fn parse(file_path: &Path, content: &str, config: &Config) -> Result { // 1. separate front matter from content let (meta, content) = split_content(file_path, content)?; let mut page = Page::new(meta); page.file_path = file_path.to_path_buf(); page.parent_path = page.file_path.parent().unwrap().to_path_buf(); page.raw_content = content; let path = Path::new(file_path); page.file_name = path.file_stem().unwrap().to_string_lossy().to_string(); page.slug = { if let Some(ref slug) = page.meta.slug { slug.trim().to_string() } else { slugify(page.file_name.clone()) } }; page.components = find_content_components(&page.file_path); page.relative_path = format!("{}/{}.md", page.components.join("/"), page.file_name); // 4. Find sections // Pages with custom urls exists outside of sections if let Some(ref u) = page.meta.url { page.path = u.trim().to_string(); } else if !page.components.is_empty() { // If we have a folder with an asset, don't consider it as a component if page.file_name == "index" { page.components.pop(); // also set parent_path to grandparent instead page.parent_path = page.parent_path.parent().unwrap().to_path_buf(); } // Don't add a trailing slash to sections page.path = format!("{}/{}", page.components.join("/"), page.slug); } else { page.path = page.slug.clone(); } page.permalink = config.make_permalink(&page.path); Ok(page) } /// Read and parse a .md file into a Page struct pub fn from_file>(path: P, config: &Config) -> Result { let path = path.as_ref(); let content = read_file(path)?; let mut page = Page::parse(path, &content, config)?; page.assets = find_related_assets(path.parent().unwrap()); if !page.assets.is_empty() && page.file_name != "index" { bail!("Page `{}` has assets ({:?}) but is not named index.md", path.display(), page.assets); } Ok(page) } /// We need access to all pages url to render links relative to content /// so that can't happen at the same time as parsing pub fn render_markdown(&mut self, permalinks: &HashMap, tera: &Tera, config: &Config) -> Result<()> { self.content = markdown_to_html(&self.raw_content, permalinks, tera, config)?; if self.raw_content.contains("") { self.summary = Some({ let summary = self.raw_content.splitn(2, "").collect::>()[0]; markdown_to_html(summary, permalinks, tera, config)? }) } Ok(()) } /// Renders the page using the default layout, unless specified in front-matter pub fn render_html(&self, tera: &Tera, config: &Config) -> Result { let tpl_name = match self.meta.template { Some(ref l) => l.to_string(), None => "page.html".to_string() }; let mut context = Context::new(); context.add("config", config); context.add("page", self); context.add("current_url", &self.permalink); context.add("current_path", &self.path); tera.render(&tpl_name, &context) .chain_err(|| format!("Failed to render page '{}'", self.file_path.display())) } } impl ser::Serialize for Page { fn serialize(&self, serializer: S) -> StdResult where S: ser::Serializer { let mut state = serializer.serialize_struct("page", 16)?; state.serialize_field("content", &self.content)?; state.serialize_field("title", &self.meta.title)?; state.serialize_field("description", &self.meta.description)?; state.serialize_field("date", &self.meta.date)?; state.serialize_field("slug", &self.slug)?; state.serialize_field("path", &format!("/{}", self.path))?; state.serialize_field("permalink", &self.permalink)?; state.serialize_field("summary", &self.summary)?; state.serialize_field("tags", &self.meta.tags)?; state.serialize_field("draft", &self.meta.draft)?; state.serialize_field("category", &self.meta.category)?; state.serialize_field("extra", &self.meta.extra)?; let (word_count, reading_time) = self.get_reading_analytics(); state.serialize_field("word_count", &word_count)?; state.serialize_field("reading_time", &reading_time)?; state.serialize_field("previous", &self.previous)?; state.serialize_field("next", &self.next)?; state.end() } } /// Sort pages /// TODO: write doc and tests pub fn sort_pages(pages: Vec, section: Option<&Section>) -> Vec { let sort_by = if let Some(ref sec) = section { sec.meta.sort_by() } else { SortBy::Date }; match sort_by { SortBy::Date => { let mut can_be_sorted = vec![]; let mut cannot_be_sorted = vec![]; for page in pages { if page.meta.date.is_some() { can_be_sorted.push(page); } else { cannot_be_sorted.push(page); } } can_be_sorted.sort_by(|a, b| b.meta.date().unwrap().cmp(&a.meta.date().unwrap())); can_be_sorted.append(&mut cannot_be_sorted); can_be_sorted }, SortBy::Order => { let mut can_be_sorted = vec![]; let mut cannot_be_sorted = vec![]; for page in pages { if page.meta.order.is_some() { can_be_sorted.push(page); } else { cannot_be_sorted.push(page); } } can_be_sorted.sort_by(|a, b| b.meta.order().cmp(&a.meta.order())); can_be_sorted.append(&mut cannot_be_sorted); can_be_sorted }, SortBy::None => { let mut p = vec![]; for page in pages { p.push(page); } p }, } } /// Used only by the RSS feed (I think) impl PartialOrd for Page { fn partial_cmp(&self, other: &Page) -> Option { if self.meta.date.is_none() { return Some(Ordering::Less); } if other.meta.date.is_none() { return Some(Ordering::Greater); } let this_date = self.meta.date().unwrap(); let other_date = other.meta.date().unwrap(); if this_date > other_date { return Some(Ordering::Less); } if this_date < other_date { return Some(Ordering::Greater); } Some(Ordering::Equal) } } /// Horribly inefficient way to set previous and next on each pages /// So many clones pub fn populate_previous_and_next_pages(input: &[Page]) -> Vec { let pages = input.to_vec(); let mut res = Vec::new(); // the input is already sorted // We might put prev/next randomly if a page is missing date/order, probably fine for (i, page) in input.iter().enumerate() { let mut new_page = page.clone(); if i > 0 { let next = &pages[i - 1]; new_page.next = Some(Box::new(next.clone())); } if i < input.len() - 1 { let previous = &pages[i + 1]; new_page.previous = Some(Box::new(previous.clone())); } res.push(new_page); } res } #[cfg(test)] mod tests { use tempdir::TempDir; use std::fs::File; use std::path::Path; use front_matter::{FrontMatter, SortBy}; use section::Section; use super::{Page, find_related_assets, sort_pages, populate_previous_and_next_pages}; fn create_page_with_date(date: &str) -> Page { let mut front_matter = FrontMatter::default(); front_matter.date = Some(date.to_string()); Page::new(front_matter) } fn create_page_with_order(order: usize) -> Page { let mut front_matter = FrontMatter::default(); front_matter.order = Some(order); Page::new(front_matter) } #[test] fn test_find_related_assets() { let tmp_dir = TempDir::new("example").expect("create temp dir"); File::create(tmp_dir.path().join("index.md")).unwrap(); File::create(tmp_dir.path().join("example.js")).unwrap(); File::create(tmp_dir.path().join("graph.jpg")).unwrap(); File::create(tmp_dir.path().join("fail.png")).unwrap(); let assets = find_related_assets(tmp_dir.path()); assert_eq!(assets.len(), 3); assert_eq!(assets.iter().filter(|p| p.extension().unwrap() != "md").count(), 3); assert_eq!(assets.iter().filter(|p| p.file_name().unwrap() == "example.js").count(), 1); assert_eq!(assets.iter().filter(|p| p.file_name().unwrap() == "graph.jpg").count(), 1); assert_eq!(assets.iter().filter(|p| p.file_name().unwrap() == "fail.png").count(), 1); } #[test] fn test_can_default_sort() { let input = vec![ create_page_with_date("2018-01-01"), create_page_with_date("2017-01-01"), create_page_with_date("2019-01-01"), ]; let pages = sort_pages(input, None); // Should be sorted by date assert_eq!(pages[0].clone().meta.date.unwrap(), "2019-01-01"); assert_eq!(pages[1].clone().meta.date.unwrap(), "2018-01-01"); assert_eq!(pages[2].clone().meta.date.unwrap(), "2017-01-01"); } #[test] fn test_can_sort_dates() { let input = vec![ create_page_with_date("2018-01-01"), create_page_with_date("2017-01-01"), create_page_with_date("2019-01-01"), ]; let mut front_matter = FrontMatter::default(); front_matter.sort_by = Some(SortBy::Date); let section = Section::new(Path::new("hey"), front_matter); let pages = sort_pages(input, Some(§ion)); // Should be sorted by date assert_eq!(pages[0].clone().meta.date.unwrap(), "2019-01-01"); assert_eq!(pages[1].clone().meta.date.unwrap(), "2018-01-01"); assert_eq!(pages[2].clone().meta.date.unwrap(), "2017-01-01"); } #[test] fn test_can_sort_order() { let input = vec![ create_page_with_order(2), create_page_with_order(3), create_page_with_order(1), ]; let mut front_matter = FrontMatter::default(); front_matter.sort_by = Some(SortBy::Order); let section = Section::new(Path::new("hey"), front_matter); let pages = sort_pages(input, Some(§ion)); // Should be sorted by date assert_eq!(pages[0].clone().meta.order.unwrap(), 3); assert_eq!(pages[1].clone().meta.order.unwrap(), 2); assert_eq!(pages[2].clone().meta.order.unwrap(), 1); } #[test] fn test_populate_previous_and_next_pages() { let input = vec![ create_page_with_order(3), create_page_with_order(2), create_page_with_order(1), ]; let pages = populate_previous_and_next_pages(input.as_slice()); assert!(pages[0].clone().next.is_none()); assert!(pages[0].clone().previous.is_some()); assert_eq!(pages[0].clone().previous.unwrap().meta.order.unwrap(), 2); assert!(pages[1].clone().next.is_some()); assert!(pages[1].clone().previous.is_some()); assert_eq!(pages[1].clone().next.unwrap().meta.order.unwrap(), 3); assert_eq!(pages[1].clone().previous.unwrap().meta.order.unwrap(), 1); assert!(pages[2].clone().next.is_some()); assert!(pages[2].clone().previous.is_none()); assert_eq!(pages[2].clone().next.unwrap().meta.order.unwrap(), 2); } }