Laminouter is an ergonomic, minimalistic-to-a-fault router for Laminar on Scala 3.
- Usage
- Who should use it
- Notes
- Binary And Laminar Compatibility
- Contributions, Design Goals and Extensions
The usage is extremely simple.
-
Import the dependency
libraryDependencies ++= Seq( "org.felher" %%% "laminouter" % "0.17.1" )
-
Declare your routes:
enum Route derives CanEqual: case Home // site.com/home case Category(category: String) // site.com/category/scala case BlogPost(post: Int)(val comment: Option[Int]) // site.com/blogPost/123 or // site.com/blogPost/123?comment=456
You might have noticed the
val
keyword and use of multiple parameter lists. Find out more here. -
Create a router:
val router = Router[Route]
-
Define some renderers for each route (or don't if you want to render them inline)
def renderHome(): HtmlElement = div("Home") def renderCategory(routeData: Signal[Route.Category]): HtmlElement = div("Category: ", child.text <-- routeData.map(_.category)) def renderBlogPost(routeData: Signal[Route.BlogPost]): HtmlElement = div( p("Blog Post: ", child.text <-- routeData.map(_.post.toString)), p("Comment: ", child.text <-- routeData.map(_.comment.toString)) )
-
Get a signal of the current route and do something with it:
div( child <-- router .routeWithFallback(Route.Home) .splitOne(_.ordinal): (_, init, sig) => init match case Route.Home => renderHome() case _: Route.Category => renderCategory(sig.asInstanceOf) case _: Route.BlogPost => renderBlogPost(sig.asInstanceOf) )
If you find the
asInstanceOf
ugly, take a look at the notes. -
Create buttons or links using the router:
a(router.target(Route.Home), "Home") button(router.target(Route.BlogPost(123)(Some(456))), "Blog Post 123 with comment 456")
Laminouter is an extremely simple router. The most important design goal was to provide a router for small sites so you don't have to remember anything on how to use it. Declaration of routes should be as easy as declaring an enum (which it in fact is), the output should just be a signal and adding navigation to an element should only need a single modifier.
That said, to keep things simple, we had to make some serious concessions. If the following list describes you, Laminouter is made for you:
- I only care about scala 3 (we use a lot of the scala 3 macro machinery)
- I don't care about nesting routes
- I don't really care how my routes are represented in the URL
- I'm fine with History-API based routing and don't need fragment (
#
) based routing - Your website is always at the top level of a domain, not under some path like 'site.com/app/...'
Still here? Welcome to the I-Just-Dont-Care-Club then!
Laminouter only gives you a signal of the current route. That's by design. At the time of this writing, Laminar doesn't have a way to destructure an enum in a typesafe way. But it will. As soon as 116 is merged, we will be able to do it just fine.
Until then, you can either copy the code from the PR, or copy good-enough solution from my gist here.
Or, of course, you can switch to, for example, Waypoint, which does include a SplitRender
abstraction which lets you do this, albeit without exhaustivity checking.
As you can see in the example above, Laminouter uses multiple parameter lists to separate path parameters from search/query parameters. This has a couple of drawbacks. It was only chosen because the most important aspect of this library is ergonomics.
The drawbacks are that enum cases (and not coincidentally case classes as well), only provide the full power of them for the first parameter list. You can't destructure the second parameter list using pattern matches and additional parameter lists won't be part of the cases toString
or equals
methods, meaning that Route.BlogPost(123)(Some(456))
is "equal" to Route.BlogPost(123)(None)
. This also means that you have to declare query string parameters as val
to be able to access them later on.
You can just create a new codec and Laminouter should pick it up. Here is an example:
import java.util.UUID
import org.felher.laminouter.Codec
opaque type PostId = UUID
object PostId:
def apply(id: UUID): PostId = id
given Codec[PostId] = Codec.stringCodec.bimap(UUID.fromString)(_.toString)
Here we have an opaque type PostId
, which is just a UUID. We provide a codec for it, which is just a string codec that converts the UUID to and from a string. Now you can use PostId
as a parameter in your route. Also, note that fromString
might throw an exception. That's fine. For the parsing function, bimap
captures any exceptions and turns them into None
.
Note that you need to add the following dependency if you want to use UUIDs from javascript: scalajs-java-securerandom.
The current version of Laminouter is 0.17.1. We will keep this version around for a few weeks and if no problems arise, we will promote it to 1.0.0, after which the following binary guarantees apply:
We follow semantic versioning, i.e. semver 2.0. Keeping binary (and to a somewhat lesser degree source) compatibility as long as possible is a high priority. The next major version of the library will probably come with a new major version of Laminar which breaks binary compatibility with us.
When we need to break binary compatibility for a reason other than to keep up with Laminar, we will consider changing the namespace of the library in the process.
Laminouter doesn't list Laminar as normal dependency, but as "provided", so that you can use it with any version of Laminar you want. For example, Laminouter 0.17.1 works with Laminar 15, 16 and 17. Chances are that when Laminar updates to 18, this library will just work without any changes and will not need a new release.
We generate a compatibility matrix for all releases, which lists the Laminar versions as well as the Scala versions the library is binary compatible with. Here it is:
Laminouter 0.17.0 | Laminouter 0.17.1 | |
---|---|---|
Laminar 0.14.5 | scala 3.3 | scala 3.3 |
Laminar 15.0.1 | scala 3.3 | scala 3.3 |
Laminar 16.0.0 | scala 3.3 | scala 3.3 |
Laminar 17.0.0 | scala 3.3 | scala 3.3 |
Laminar 17.1.0 | scala 3.3 | scala 3.3 |
We welcome contributions. Create an issue if you need something or go straight to creating a PR!
Just note that the main design goal of this library is to make route declaration and usage as simple as possible. That means that certain features just aren't going to be added. This in turn means that people might well ditch this library if they need more features later on. To make the migration path as obvious as possible, we will not add features that are not already in Waypoint. At any point, it should be pretty simple to upgrade to Waypoint.