elm-pages-v3-beta/examples/docs/content/docs.md
2021-05-23 09:00:20 -07:00

7.6 KiB

What is elm-pages

  • Pre-render routes to HTML
  • Hydrate to a full Elm app, with client-side navigation after initial load
  • A file-based router
  • DataSources allow you to pull data in to a given page and have it available before load
  • A nice type-safe API for SEO
  • Generate files, like RSS, sitemaps, podcast feeds, or any other strings you can output with pure Elm

Getting Started

CLI commands

  • elm-pages dev - Run a dev server
  • elm-pages add Slide.Number_ Generate scaffolding for a new Page Template
  • elm-pages build - run a full production build

The dev server

elm-pages dev gives you a dev server with hot module replacement built-in. It even reloads your DataSources any time you change them.

The elm-pages philosophy

Users build features, frameworks provide building blocks

Many frameworks provide features like

  • Markdown parsing
  • Special frontmatter directives
  • RSS reader generation.

You can do all those things with elm-pages, but using the core building blocks

  • The DataSources API lets you read from a file, parse frontmatter, and more. elm-pages helps you get the data.
  • The data you get from any of those data sources is just typed Elm data. You decide what it means and how to use it.

The goal of elm-pages is to get nicely typed data from the right sources (HTTP, files, structured formats like JSON, markdown, etc.), and get that data to the right places in order to build an optimized site with good SEO.

File Structure

With elm-pages, you don't define the central Main.elm entrypoint. That's defined under the hood by elm-pages.

It builds your app for you from these special files that you define:

Shared.elm

Must expose

  • template : SharedTemplate Msg Model StaticData msg
  • Msg - global Msgs across the whole app, like toggling a menu in the shared header view
  • Model - shared state that persists between page navigations. This Shared.Model can be accessed by Page Templates.
  • SharedMsg (todo - this needs to be documented better. Consider whether there could be an easier way to wire this in for users, too)

Site.elm

Must expose

  • config : SiteConfig StaticData

Document.elm

Defines the types for your applications view. Must expose

  • A type called Document msg (must have exactly one type variable)

  • map : (msg1 -> msg2) -> Document msg1 -> Document msg2

  • static/index.js - same as previous beta-index.js

  • static/style.css - same as previous beta-style.css

File-Based Routing

elm-pages gives you a router based on the Elm modules in your src/Page folder.

There

Example routes

File Matching Routes RouteParams
src/Page/Index.elm / {}
src/Page/Blog.elm /blog {}
src/Page/Blog/Slug_.elm /blog/:slug { slug : String }

Page Modules

Page Templates are Elm modules in the src/Page folder that define a top-level template.

You build the template using a builder chain, adding complexity as needed. You can scaffold a simple stateless page with elm-pages add Hello.Name_. That gives you src/Page/Hello/Name_.elm.

module Template.Hello.Name_ exposing (Model, Msg, StaticData, template)

import DataSource
import View exposing (View)
import Head
import Head.Seo as Seo
import Html exposing (text)
import Pages.ImagePath as ImagePath
import Shared
import Template exposing (StaticPayload, Template)

type alias Route = { name : String }

type alias StaticData = ()

type alias Model = ()

type alias Msg = Never

template : Template Route StaticData
template =
    Template.noStaticData
        { head = head
        , staticRoutes = DataSource.succeed [ { name = "world" } ]
        }
        |> Template.buildNoState { view = view }


head :
    StaticPayload StaticData Route
    -> List Head.Tag
head static = [] -- SEO tags here

view :
    StaticPayload StaticData Route
    -> Document Msg
view static =
    { title = "Hello " ++ static.routeParams.name
    , body = [ text <| "👋 " ++ static.routeParams.name ]
    }

DataSources

It doesn't matter where a DataSource came from.

For example, if you have

type alias Author =
    { name : String
    , avatarUrl : String
    }

authors : DataSource (List Author)

It makes no difference where that data came from. In fact, let's define it as hardcoded data:

hardcodedAuthors : DataSource (List Author)
hardcodedAuthors =
    DataSource.succeed [
        { name = "Dillon Kearns"
        , avatarUrl = "/avatars/dillon.jpg"
        }
    ]

We could swap that out to get the data from another source at any time. Like this HTTP DataSource.

authorsFromCms : DataSource (List Author)
authorsFromCms =
    DataSource.Http.get (Secrets.succeed "mycms.com/authors")
        authorsDecoder

Notice that the type signature hasn't changed. The end result will be data that is available when our page loads.

In fact, let's combine our library of authors from 3 different DataSources.

authorsFromFile : DataSource (List Author)
authorsFromFile =
    DataSource.File.read "data/authors.json"
        authorsDecoder

allAuthors : DataSource (List Author)
allAuthors =
    DataSource.map3 (\authors1 authors2 authors3 ->
        List.concat [ authors1, authors2, authors3 ]
    )
    authorsFromFile
    authorsFromCms
    hardcodedAuthors

So how does the data get there? Let's take a look at the lifecycle of a DataSource.

The DataSource Lifecycle

A DataSource is split between two phases:

  1. Build step - build up the data for a given page
  2. Decode the data - it's available without reading files or making HTTP requests from the build step

That means that when we run elm-pages build, then deploy the HTML and JSON output from the build to a CDN, it will not hit mycms.com/authors anymore.

So when a user goes to your site, they won't hit your CMS directly. Instead, when they load the page it will include all of the data that we used for that specific page in the initial load. That's how elm-pages can skip the loading spinner for an HTTP data source - it builds the data into the page at build-time.

Optimized Decoders

Often REST APIs will include a lot of data that you can use. But you might need just a couple of fields.

When you write an OptimizedDecoder, elm-pages will only include the JSON data that you decoded when it builds that page.

For example, the GitHub API returns back dozens of fields in this API response, but we only want one: the number of stargazers.

import OptimizedDecoder
import DataSource exposing (DataSource)

staticData : DataSource Int
staticData =
    DataSource.Http.get (Secrets.succeed "https://api.github.com/repos/dillonkearns/elm-pages")
        (OptimizedDecoder.field "stargazers_count" OptimizedDecoder.int)

That means the data that gets built into the site will be:

{ "stargazers_count": 123 }

At build-time, elm-pages performs this optimization, which means your users don't have to pay the cost of running it when your site loads in their browser - they get the best of both worlds with a smaller JSON payload, and a fast decoder!

File-Based Routes

File Matching Routes RouteParams
src/Page/Index.elm / {}
src/Page/Blog.elm /blog {}
src/Page/Blog/Slug_.elm /blog/:slug { slug : String }

Where are data sources used