# Hayll Hakyll is a simple static site generator library in Haskell. It is mostly inspired by [Jekyll](http://github.com/mojombo/jekyll), but I like to believe it is simpler. An example site where it is used is [my personal homepage](http://jaspervdj.be) of which [the source code](http://jaspervdj.be/snapshot.tar.gz) is available as a reference. ## Installation cabal install hakyll ## Configuration Inspired by [xmonad](http://xmonad.org), a small Haskell program is used as configuration file. In this file, you give instructions on how the site should be generated. In the rest of this document, we will examine a small example. This is our directory layout: |-- _cache |-- _site |-- favicon.ico |-- hakyll.hs |-- images | `-- foo.png |-- templates | |-- default.html | `-- sample.html `-- text.markdown The `_cache` and `_site` directories will be automatically created by hakyll. ## Static files Static files can be rendered using the `static` function. This function ensures the files will copied when you compile the site. Hakyll is smart enough to know when files have changed, and will check the modification time of a file before copying. For convenience reasons, there is also a `staticDirectory` function, which works recursively. main = do static "favicon.ico" staticDirectory "images" staticDirectory "css" ## Pages Pages can be written in html, markdown, LaTeX, and basically anything pandoc supports. They can also contain metadata, which are always key-value mappings. --- author: Jasper Van der Jeugt title: A sample markdown post --- # A sample markdown post This is a sample markdown post. It supports pandoc extensions like code highlighting. For example: ~~~~{.haskell} main = putStrLn "Hello World!" ~~~~ Metadata is always placed in the header of a file, and is delimited by a `---` string. The metadata can only contain simple key-value pairs. We can now read in this page using the `Text.Hakyll.Page.readPage` function. This will return a `Page`, which is actually just a `Map String ByteString`. In this example, the map would consist of the following key-value pairs: - `author`: `Jasper Van der Jeugt` - `title`: `A sample markdown post` - `body`: The rest of the file (rendered to html). - `url`: `text.html` (the original filename was `text.markdown`, the extension was changed to html). ## Templates In hakyll, there is a strict separation between pages and templates. Templates, for example, cannot contain metadata.

$title

by $author $body Templates are rendered using the Haskell `Text.Template` library. This means that in your template, you can use `$identifier`, and it will be replaced by the value of `identifier`. With this template we could, for example, render the file we saw in the previous section. It would go like this: page <- readPage "text.markdown" rendered <- render "templates/sample.html" page writePage rendered This reads in `text.markdown`, renders it and writes it to the site destination (`_site/text.html`). The result of a `render` action is an `IO Page`, the metadata will be copied from the original page, and the body will be replaced by the rendering result. This means we can combine rendering actions. Given another template `templates/default.html`: $title $body We can now combine the rendering actions (I use `>>=` notation here): readPage "text.markdown" >>= render "templates/sample.html" >>= render "templates/default.html" >>= writePage Jolly good fun and all that, but you can imagine that when we render over nine thousand posts, our generator will be busy for a while. That's why we have the `depends` function. It takes a url and a list of dependencies as arguments, and an IO action. The trick is that this IO action will only be executed if any of the dependencies is newer than the url given. In our example, we would write: depends "text.html" ["text.markdown", "templates/sample.html", "templates/default.html"] (readPage "text.markdown" >>= render "templates/sample.html" >>= render "templates/default.html" >>= writePage) Not exactly the prettiest code I've ever seen. Because rendering a page with a number of templates is very common, there's a `renderChain` function to do this for us. The above can be replaced by renderChain ["templates/sample.html", "templates/default.html"] $ createPagePath "text.markdown" The `renderChain` function will automatically check dependencies and write the page. In fact, it is recommended that you __always__ use this, even when there's only one template in the chain. ## More advanced things Sometimes, you want to create a `Page` from scratch, without reading from a file. There are functions to do that for you, and I suggest you read the documentation of `Text.Hakyll.Page`. As a more advanced example, I will explain the RSS system I wrote for my website. |-- generate.hs |-- posts | `-- 2009-12-02-a-first-post.markdown `-- templates |-- rss.xml `-- rssitem.xml Our post contains some metadata: --- title: A first post date: December 2, 2009 about: A post describing the why and the how of the technical setup of this blog. --- # A first post A first post describing the technical setup of this blog, for that is The `templates/rssitem.xml` file is a template for rendering one post to an rss item: $title http://jaspervdj.be/$url $about Now a template for rendering the whole rss feed, `templates/rss.xml`: jaspervdj - a personal blog http://jaspervdj.be/ Personal blog of jaspervdj $items Alright, let's get coding. We first want a list of all posts, sorted so the most recent entries are first in the list. postPaths <- liftM (L.reverse . L.sort) $ getRecursiveContents "posts" Note that this sorting works because the posts have a `yyyy-mm-dd-title.extension` naming scheme. We want the paths as `PagePath` and not as `FilePath` or `String`, because `PagePath` is an instance of `Renderable`. Also, we only want the 5 most recent posts. let renderablePosts = map createPagePath postPaths let recentItems = renderAndConcat "templates/postitem.html" $ take 5 renderablePosts The `renderAndConcat` function takes a template and a list of `Renderable` items. It renders all renderables with the given template, and concatenates the result. Note that the concating and reading of pages is not executed yet, because of laziness. This helps us, since we want to use the modification timestamps of files, and not render everything every time. let rssPage = createCustomPage "rss.xml" ("templates/rssitem.xml" : postPaths) [("items", Right recentItems)] We now created the custom rss page. The `createCustomPage` is a function that produces a `CustomPage`, which is an instance of `Renderable`. `"rss.xml"` is our destination url. We then give a list of extra dependencies that were used to generate the custom page, so Hakyll can check modification stamps. The last argument is the key-value mapping of our `CustomPage`. Note that the type for values is `Either String (IO ByteString)`. So, we can either give a simple string, or an IO action that results in a `ByteString`. The benefit of this is that the IO action will not be executed if the page in `_site/` is already up-to-date. Now, we only need to render it using our rss template. renderChain ["templates/rss.xml"] rssPage That's it. Now we have a rss feed that is generated only when it is not already up-to-date.