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package scalatex
package stages
import acyclic.file
import scala.reflect.macros.whitebox.Context
import scala.reflect.internal.util.{Position, OffsetPosition}
/**
* Walks the parsed AST, converting it into a structured Scala c.Tree
*/
object Compiler{
def apply(c: Context)(fragPos: c.Position, template: Ast.Block): c.Tree = {
import c.universe._
def fragType = tq"scalatags.Text.all.Frag"
def incPosRec(trees: c.Tree, offset: Int): trees.type = {
trees.foreach(incPos(_, offset))
trees
}
def incPos(tree: c.Tree, offset: Int): tree.type = {
val current = if (tree.pos == NoPosition) 0 else tree.pos.point
c.internal.setPos(tree,
new OffsetPosition(
fragPos.source,
offset + current + fragPos.point
).asInstanceOf[c.universe.Position]
)
tree
}
def compileChain(code: String, parts: Seq[Ast.Chain.Sub], offset: Int): c.Tree = {
val out = parts.foldLeft(incPosRec(c.parse(code), offset + 1)){
case (curr, Ast.Chain.Prop(str, offset2)) =>
incPos(q"$curr.${TermName(str)}", offset2 + 1)
case (curr, Ast.Chain.Args(str, offset2)) =>
val Apply(fun, args) = c.parse(s"omg$str")
incPos(Apply(curr, args.map(incPosRec(_, offset2 - 2))), offset2)
case (curr, Ast.Chain.TypeArgs(str, offset2)) =>
val TypeApply(fun, args) = c.parse(s"omg$str")
incPos(TypeApply(curr, args.map(incPosRec(_, offset2 - 2))), offset2)
case (curr, Ast.Block(parts, offset1)) =>
incPos(q"$curr(..${compileBlock(parts, offset1)})", offset1)
case (curr, Ast.Header(header, block, offset1)) =>
incPos(q"$curr(${compileHeader(header, block, offset1)})", offset1)
}
out
}
def compileBlock(parts: Seq[Ast.Block.Sub], offset: Int): Seq[c.Tree] = {
val res = parts.map{
case Ast.Block.Text(str, offset1) =>
incPos(q"$str", offset1)
case Ast.Chain(code, parts, offset1) =>
compileChain(code, parts, offset1)
case Ast.Header(header, block, offset1) =>
compileHeader(header, block, offset1)
case Ast.Block.IfElse(condString, Ast.Block(parts2, offset2), elseBlock, offset1) =>
val If(cond, _, _) = c.parse(condString + "{}")
val elseCompiled = elseBlock match{
case Some(Ast.Block(parts3, offset3)) => compileBlockWrapped(parts3, offset3)
case None => EmptyTree
}
val res = If(incPosRec(cond, offset1 + 2), compileBlockWrapped(parts2, offset2), elseCompiled)
incPos(res, offset1)
res
case Ast.Block.For(generators, Ast.Block(parts2, offset2), offset1) =>
val fresh = c.fresh()
val tree = incPosRec(c.parse(s"$generators yield $fresh"), offset1 + 2)
def rec(t: Tree): Tree = t match {
case a @ Apply(fun, List(f @ Function(vparams, body))) =>
val f2 = Function(vparams, rec(body))
val a2 = Apply(fun, List(f2))
a2
case Ident(x: TermName) if x.decoded == fresh =>
compileBlockWrapped(parts2, offset2)
}
rec(tree)
}
res
}
def compileBlockWrapped(parts: Seq[Ast.Block.Sub], offset: Int): c.Tree = {
incPos(q"Seq[$fragType](..${compileBlock(parts, offset)})", offset)
}
def compileHeader(header: String, block: Ast.Block, offset: Int): c.Tree = {
val Block(stmts, expr) = c.parse(s"{$header\n ()}")
Block(stmts, compileBlockWrapped(block.parts, block.offset))
}
val res = compileBlockWrapped(template.parts, template.offset)
res
}
}
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