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CompileRW.scala
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CompileRW.scala
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/*
* Copyright (c) 2021 Typelevel
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
package fabric.rw
import fabric.*
import fabric.define.*
import scala.deriving.*
import scala.compiletime.*
import scala.quoted._
import scala.collection.immutable.VectorMap
trait CompileRW {
inline def gen[T <: Product](using Mirror.ProductOf[T]): RW[T] = new ClassRW[T] {
override protected def t2Map(t: T): Map[String, Json] = toMap(t)
override protected def map2T(map: Map[String, Json]): T = fromMap[T](map)
override def definition: DefType = toDefinition[T]
}
inline def genR[T <: Product](using Mirror.ProductOf[T]): Reader[T] = new ClassR[T] {
override protected def t2Map(t: T): Map[String, Json] = toMap(t)
}
inline def genW[T <: Product](using Mirror.ProductOf[T]): Writer[T] = new ClassW[T] {
override protected def map2T(map: Map[String, Json]): T = fromMap[T](map)
}
inline def toDefinition[T <: Product](using p: Mirror.ProductOf[T]): DefType = {
DefType.Obj(toDefinitionElems[T, p.MirroredElemTypes, p.MirroredElemLabels](0))
}
inline def toDefinitionElems[A <: Product, T <: Tuple, L <: Tuple](index: Int): Map[String, DefType] = {
inline erasedValue[T] match {
case _: (hd *: tl) => {
inline erasedValue[L] match {
case _: (hdLabel *: tlLabels) =>
val hdLabelValue = constValue[hdLabel].asInstanceOf[String]
val rw = summonInline[RW[hd]]
VectorMap(hdLabelValue -> rw.definition) ++ toDefinitionElems[A, tl, tlLabels](index + 1)
case EmptyTuple => sys.error("Not possible")
}
}
case EmptyTuple => Map.empty
}
}
inline def toMap[T <: Product](t: T)(using p: Mirror.ProductOf[T]): Map[String, Json] = {
toMapElems[T, p.MirroredElemTypes, p.MirroredElemLabels](t, 0)
}
inline def toMapElems[A <: Product, T <: Tuple, L <: Tuple](a: A, index: Int): Map[String, Json] = {
inline erasedValue[T] match {
case _: (hd *: tl) => {
inline erasedValue[L] match {
case _: (hdLabel *: tlLabels) =>
import fabric.rw._
val hdLabelValue = constValue[hdLabel].asInstanceOf[String]
val hdValue = a.productElement(index).asInstanceOf[hd]
val hdReader = summonInline[Reader[hd]]
val value = hdReader.read(hdValue)
VectorMap(hdLabelValue -> value) ++ toMapElems[A, tl, tlLabels](a, index + 1)
case EmptyTuple => sys.error("Not possible")
}
}
case EmptyTuple => Map.empty
}
}
inline def fromMap[T <: Product](map: Map[String, Json])(using p: Mirror.ProductOf[T]): T = {
inline val size = constValue[Tuple.Size[p.MirroredElemTypes]]
val defaults = getDefaultParams[T]
val arr = new Array[Any](size)
fromMapElems[T, p.MirroredElemTypes, p.MirroredElemLabels](map, 0, arr, defaults)
val product: Product = new Product {
override def canEqual(that: Any): Boolean = true
override def productArity: Int = arr.size
override def productElement(n: Int): Any = arr(n)
}
p.fromProduct(product)
}
inline def fromMapElems[A <: Product, T <: Tuple, L <: Tuple](map: Map[String, Json], index: Int, arr: Array[Any], defaults: Map[String, Any]): Unit = {
inline erasedValue[T] match {
case _: (hd *: tl) =>
inline erasedValue[L] match {
case _: (hdLabel *: tlLabels) =>
import fabric.rw._
val hdLabelValue = constValue[hdLabel].asInstanceOf[String]
val hdValueOption = map.get(hdLabelValue)
val hdWritable = summonInline[Writer[hd]]
val valueOption = hdValueOption.map(hdWritable.write)
def defaultAlternative = inline erasedValue[hd] match {
case _: Option[optHd] => None
case _ => sys.error(s"Unable to find field ${getClassName[A]}.$hdLabelValue (and no defaults set) in ${Obj(map)}")
}
def default = defaults.getOrElse(hdLabelValue, defaultAlternative)
val value = valueOption.getOrElse(default)
arr(index) = value
fromMapElems[A, tl, tlLabels](map, index + 1, arr, defaults)
case EmptyTuple => sys.error("Not possible")
}
case EmptyTuple => // Finished
}
}
inline def getDefaultParams[T]: Map[String, AnyRef] = ${ CompileRW.getDefaultParmasImpl[T] }
inline def getClassName[T]: String = ${ CompileRW.getClassNameImpl[T] }
}
object CompileRW {
def getDefaultParmasImpl[T](using Quotes, Type[T]): Expr[Map[String, AnyRef]] = {
import quotes.reflect._
val sym = TypeTree.of[T].symbol
if (sym.isClassDef) {
val comp = if (sym.isClassDef) sym.companionClass else sym
val names =
for p <- sym.caseFields if p.flags.is(Flags.HasDefault)
yield p.name
val namesExpr: Expr[List[String]] = Expr.ofList(names.map(Expr(_)))
val body = comp.tree.asInstanceOf[ClassDef].body
val idents: List[Ref] =
for case deff @ DefDef(name, _, _, _) <- body
if name.startsWith("$lessinit$greater$default")
yield Ref(deff.symbol)
val identsExpr: Expr[List[Any]] =
Expr.ofList(idents.map(_.asExpr))
'{ $namesExpr.zip($identsExpr.map(_.asInstanceOf[AnyRef])).toMap }
} else {
'{ Map.empty }
}
}
def getClassNameImpl[T](using Quotes, Type[T]): Expr[String] = {
import quotes.reflect._
Expr(TypeTree.of[T].symbol.companionClass.fullName)
}
}