![Logo](https://raw.githubusercontent.com/srid/rib/master/assets/rib.png) # rib [![BSD3](https://img.shields.io/badge/License-BSD-blue.svg)](https://en.wikipedia.org/wiki/BSD_License) [![Hackage](https://img.shields.io/hackage/v/rib.svg)](https://hackage.haskell.org/package/rib) [![built with nix](https://builtwithnix.org/badge.svg)](https://builtwithnix.org) [![Zulip chat](https://img.shields.io/badge/zulip-join_chat-brightgreen.svg)](https://funprog.zulipchat.com/#narrow/stream/218047-Rib) Rib is a Haskell library for writing your own **static site generator**. How does it compare to Hakyll? - Uses the [Shake](https://shakebuild.com/) build system at its core. - Allows writing Haskell DSL to define HTML ([Lucid](https://chrisdone.com/posts/lucid2/)) & CSS ([Clay](http://fvisser.nl/clay/)) - Built-in support for [Pandoc](https://pandoc.org/) and [MMark](https://github.com/mmark-md/mmark), while also supporting custom parsers (eg: [Dhall](https://github.com/srid/website/pull/6), [TOML](https://github.com/srid/website/pull/7)) - Remain as simple as possible to use (see example below) - Nix-based environment for reproducibility - `ghcid` and fsnotify for "hot reload" Rib prioritizes the use of *existing* tools over reinventing them, and enables the user to compose them as they wish instead of having to write code to fit a custom framework. **Table of Contents** - [rib](#rib) - [Quick Preview](#quick-preview) - [Getting Started](#getting-started) - [Concepts](#concepts) - [Directory structure](#directory-structure) - [Run the site](#run-the-site) - [How Rib works](#how-rib-works) - [Editing workflow](#editing-workflow) - [What's next?](#whats-next) - [Examples](#examples) ## Quick Preview Here is how your code may look like if you were to generate your static site using Rib: ``` haskell -- | A generated page corresponds to either an index of sources, or an -- individual source. -- -- Each `Source` specifies the parser type to use. Rib provides `MMark` and -- `Pandoc`; but you may define your own as well. data Page = Page_Index [Source M.MMark] | Page_Single (Source M.MMark) -- | Metadata in our markdown sources. Parsed as JSON. data SrcMeta = SrcMeta { title :: Text, -- | Description is optional, hence it is a `Maybe` description :: Maybe Text } deriving (Show, Eq, Generic, FromJSON) -- | Main entry point to our generator. -- -- `Rib.run` handles CLI arguments, and takes three parameters here. -- -- 1. Directory `a`, from which static files will be read. -- 2. Directory `b`, under which target files will be generated. -- 3. Shake build action to run. -- -- In the shake build action you would expect to use the utility functions -- provided by Rib to do the actual generation of your static site. main :: IO () main = Rib.run [reldir|a|] [reldir|b|] generateSite where -- Shake Action for generating the static site generateSite :: Action () generateSite = do -- Copy over the static files Rib.buildStaticFiles [[relfile|static/**|]] -- Build individual sources, generating .html for each. -- The function `buildHtmlMulti` takes the following arguments: -- - File patterns to build -- - Function that will parse the file (here we use mmark) -- - Function that will generate the HTML (see below) srcs <- Rib.buildHtmlMulti M.parse [[relfile|*.md|]] $ renderPage . Page_Single -- Write an index.html linking to the aforementioned files. Rib.writeHtml [relfile|index.html|] $ renderPage (Page_Index srcs) -- Define your site HTML here renderPage :: Page -> Html () renderPage page = with html_ [lang_ "en"] $ do head_ $ do meta_ [httpEquiv_ "Content-Type", content_ "text/html; charset=utf-8"] title_ $ case page of Page_Index _ -> "My website!" Page_Single src -> toHtml $ title $ getMeta src style_ [type_ "text/css"] $ Clay.render pageStyle body_ $ with div_ [id_ "thesite"] $ do with a_ [href_ "/"] "Back to Home" hr_ [] case page of Page_Index srcs -> div_ $ forM_ srcs $ \src -> with li_ [class_ "links"] $ do let meta = getMeta src b_ $ with a_ [href_ (Rib.sourceUrl src)] $ toHtml $ title meta maybe mempty (M.render . either (error . T.unpack) id . M.parsePure "") $ description meta Page_Single src -> with article_ [class_ "post"] $ do h1_ $ toHtml $ title $ getMeta src M.render $ Rib.sourceVal src -- Get metadata from Markdown YAML block getMeta :: Source M.MMark -> SrcMeta getMeta src = case M.projectYaml (Rib.sourceVal src) of Nothing -> error "No YAML metadata" Just val -> case fromJSON val of Aeson.Error e -> error $ "JSON error: " <> e Aeson.Success v -> v -- Define your site CSS here pageStyle :: Css pageStyle = "div#thesite" ? do margin (em 4) (pc 20) (em 1) (pc 20) "li.links" ? do listStyleType none marginTop $ em 1 "b" ? fontSize (em 1.2) "p" ? sym margin (px 0) ``` (View full [`Main.hs`](https://github.com/srid/rib-sample/blob/master/Main.hs) at rib-sample) ## Getting Started The easiest way to get started with [Rib](/) is to [use the template](https://help.github.com/en/articles/creating-a-repository-from-a-template) repository, [**rib-sample**](https://github.com/srid/rib-sample), from Github. ## Concepts ### Directory structure Let's look at what's in the template repository: ```shell $ git clone https://github.com/srid/rib-sample.git mysite ... $ cd mysite $ ls -F a/ default.nix Main.hs README.md rib-sample.cabal ``` The three key items here are: 1. `Main.hs`: Haskell source containing the DSL of the HTML/CSS of your site. 1. `a/`: The source content (eg: Markdown sources and static files) 1. `b/`: The target directory, excluded from the git repository, will contain _generated_ content (i.e., the HTML files, and copied over static content) The template repository comes with a few sample posts under `a/`, and a basic HTML layout and CSS style defined in `Main.hs`. ### Run the site Now let's run them all. Clone the sample repository locally, install [Nix](https://nixos.org/nix/) and run your site as follows: ```shell nix-shell --run 'ghcid -T main' ``` (Note even though the author recommends it Nix is strictly not required; you may simply run `ghcid -T main` instead of the above command if you do not wish to use Nix.) Running this command gives you a local HTTP server at http://localhost:8080/ (serving the generated files) that automatically reloads when either the content (`a/`) or the HTML/CSS/build-actions (`Main.hs`) changes. Hot reload, in other words. ### How Rib works How does the aforementioned nix-shell command work? 1. `nix-shell` will run the given command in a shell environment with all of our dependencies (notably the Haskell ones including the `rib` library itself) installed. 1. [`ghcid`](https://github.com/ndmitchell/ghcid) will compile your `Main.hs` and run its `main` function. 1. `Main.hs:main` in turn calls `Rib.App.run` which takes as argument your custom Shake action that will build the static site. 1. `Rib.App.run`: this parses the CLI arguments and runs the rib CLI "app" which can be run in one of a few modes --- generating static files, watching the `a/` directory for changes, starting HTTP server for the `b/` directory. By default---without any explicit arguments---this will run the Shake build action passed as argument on every file change and spin up a HTTP server. Run that command, and visit http://localhost:8080 to view your site. ### Editing workflow Now try making some changes to the content, say `a/first-post.md`. You should see it reflected when you refresh the page. Or change the HTML or CSS of your site in `Main.hs`; this will trigger `ghcid` to rebuild the Haskell source and restart the server. ### What's next? Great, by now you should have your static site generator ready and running! What more can you do? Surely you may have specific needs; and this usually translates to running custom Shake actions during the build. Rib provides helper functions in `Rib.Shake` to make this easier. Rib recommends writing your Shake actions in the style of being [forward-defined](http://hackage.haskell.org/package/shake-0.18.3/docs/Development-Shake-Forward.html) which adds to the simplicity of the entire thing. ## Examples * [rib-sample](https://github.com/srid/rib-sample): Use this to get started with your own site. * Author's own website. Live at https://www.srid.ca/