This is a Scala 3 configuration library similar to Config used by rocket-chip with a Jsonnet-like DSL.
The user API of this library revolves around Cde
objects. These objects may
contain mappings of string field names to arbitrary values.
import cde._
import cde.syntax._
val boxConfig = Cde {
"width" := 100
"height" := 200
}
They may also contain logic to compute field values by performing recursive lookups of other field values.
val boxConfig = Cde {
"width" := 100
"height" := 200
// lazily computes the area based on the final values of height and width
"area" : = Site.width[Int] * Site.height[Int]
}
Cde
objects may also mix-in other Cde
objects to override values.
val baseBoxConfig = Cde {
"width" := 100
"height" := 200
"area" : = Site.width[Int] * Site.height[Int]
}
val boxConfig = baseBoxConfig Cde {
// overrides baseBoxConfigs's width to 300
"width" := 300
// doubles the existing height value in baseBoxConfig
"height" : = Up.height[Int] * 2
}
This library provides a small DSL for contructing Cde
s that uses the builder
pattern.
Operator extension methods can be made available by importing cde.syntax._
.
Cde
s are constructed using the Cde { ... }
method which builds a Cde
according to the builder methods executed within the { ... }
block. These
builder methods require a given
instance of CdeBuilder
(provided by the
Cde.apply
method). These are the builder methods (and their operator syntax):
bind
(:=
): binds a static value to a fieldbindHidden
(::=
): likebind
but also makes it so that the field will not appear in the elaborated JSONupdate
(: =
): updates a field with a value that may be computed from recursive field lookupsupdateHidden
(:: =
): likeupdate
but also makes it so that the field will not appear in the elaborated JSON These methods may only be called once for each field name within the sameCde
block.
Cde
objects may be mixed-in using the mixin
method or the
operator.
This will return a new Cde
object with the field values of the RHS overriding
the those in the LHS.
The update
and updateHidden
methods can accept values computed from field
lookups. These lookups can be performed using the Up
and Site
objects.
These are named after the up
and site
variable names used by rocket-chip
for Config
views, because they provide the same functionality. The methods in
the Up
and Site
objects require a given
instance of CdeUpdateContext
(provided by update
and updateHidden
).
Up
: Looks up a field value in the parent of the currentCde
object. This is equivalent tosuper
in Jsonnet. Lookups can be performed calling theapply
method with the field name and its expected value type e.g.Up[Int]("width")
or by using method syntaxUp.width[Int]
. If no name is provided to theapply
method e.g.Up[Int]()
, the current field name of the enclosingupdate
/updateHidden
is used. Will cause elaboration to fail if the field does not exist in the parent or if it does not have the expected typit does not have the expected typeSite
: Looks up a field in the top-levelCde
. i.e. the field lookup is performed from the view of the finalCde
after all otherCde
s have been mixed-in. This is equivalent toself
in Jsonnet. Lookups can be performed calling theapply
method with the field name and its expected value type e.g.Site[Int]("width")
or by using method syntaxSite.width[Int]
. If no name is provided to theapply
method e.g.Site[Int]()
, the current field name of the enclosingupdate
/updateHidden
is used. Will cause elaboration to fail if the field was never set or if it does not have the expected typit does not have the expected type
Cde
objects aren't very useful on their own. They need to be elaborated to be
converted into useful formats like JSON objects. Elaboration is done using the
Cde.elaborate
method. This method requires a given instance of the
CdeElaborator
type class. This library includes a simple JSON AST with an
associated CdeElaborator
to produce JSON from Cde
s. The elaborate
method
returns type Either[Seq[CdeError], T]
. Elaboration will return
Seq[CdeError]
if any Up
/Site
look ups fail or if there are validation
errors. CdeError
s contain a source: CdeSource
method locating the site of
the error and a message: String
method explainin the cause of the error.
import cde.json.JValue.JObject
val box = Cde {
bind("width", 100)
bind("height", 200)
}
Cde.elaborate[JObject](box)
.foreach(o => println(o.prettyPrint()))
// {
// "width": 100,
// "height": 200
// }
Here is a simple example that uses the features of this library to create box configurations that dynamiclly updates box coordinates based on the values of user-specified fields.
import cde.syntax._ // operator extension methods
enum Location:
case Center
case BottomRight
case BottomLeft
case TopRight
case TopLeft
val baseBoxConfig = Cde {
import Location._
"origin_x_y" ::= (0, 0)
// lazily calculates the coordinates of the top-left corner based on the
// values of other fields
"top_left" :: = {
val (x: Int, y: Int) = Site.origin_x_y[Tuple2[Int, Int]]
val height = Site.height[Int]
val width = Site.width[Int]
Site.origin_location[Location] match
case Center => (x width / 2, y height / 2)
case BottomRight => (x - width, y height)
case BottomLeft => (x, y height)
case TopRight => (x - width, y)
case TopLeft => (x, y)
}
"top" : = Site.top_left[Tuple2[Int, Int]]._2
"left" : = Site.top_left[Tuple2[Int, Int]]._1
}
// will fail elaboration because "height" and "width" are not set
Cde.elaborate[JObject](
baseBoxConfig
).swap.foreach(_.foreach(println))
// REPL:9:33
// no field named "height" defined
val smallBoxConfig = Cde {
"width" := 10
"height" := 20
"origin_location" ::= Location.Center
}
Cde.elaborate[JObject](
baseBoxConfig
smallBoxConfig
).foreach(o => println(o.prettyPrint()))
// {
// "top": 10,
// "left": 5,
// "width": 10,
// "height": 20
// }
val bottomLeftConfig = Cde {
"origin_location" ::= Location.Center
}
Cde.elaborate[JObject](
baseBoxConfig
smallBoxConfig
bottomLeftConfig
).foreach(o => println(o.prettyPrint()))
// {
// "top": 10,
// "left": 5,
// "width": 10,
// "height": 20
// }
// creates a new box config with its origin translated
def translate(dx: Int, dy: Int)(cde: Cde): Cde =
cde Cde {
"origin_x_y" :: = {
val (x: Int, y: Int) = Up.origin_x_y[Tuple2[Int, Int]]
(x dx, y dy)
}
}
Cde.elaborate[JObject](
translate(5, -5)(
baseBoxConfig
smallBoxConfig
bottomLeftConfig
)
).foreach(o => println(o.prettyPrint()))
// {
// "top": 5,
// "left": 10,
// "width": 10,
// "height": 20
// }