ammonite.interp.script.SemanticdbProcessor.scala Maven / Gradle / Ivy
package ammonite.interp.script
import java.math.BigInteger
import java.nio.charset.StandardCharsets
import java.security.MessageDigest
import scala.collection.mutable
import scala.meta.internal.semanticdb._
object SemanticdbProcessor {
def postProcess(
module: Script,
wd: Option[os.Path],
adjust: Int => (Int, Int) => Option[(Int, Int)],
target: os.Path,
originalSource: os.RelPath,
destSource: os.RelPath
): Unit = {
val semanticDbDir = target / "META-INF" / "semanticdb"
val orig = semanticDbDir /
originalSource.segments.init /
s"${originalSource.last}.semanticdb"
val dest = semanticDbDir /
destSource.segments.init /
s"${destSource.last}.semanticdb"
val mapRange = {
val adjust0 = adjust(module.blocks.length)
range: scala.meta.internal.semanticdb.Range =>
for {
(startLine, startChar) <- adjust0(range.startLine, range.startCharacter)
(endLine, endChar) <- adjust0(range.endLine, range.endCharacter)
}
yield range
.withStartLine(startLine)
.withStartCharacter(startChar)
.withEndLine(endLine)
.withEndCharacter(endChar)
}
def updateTrees(trees: Seq[Tree]): Option[Seq[Tree]] =
trees
.foldLeft(Option(new mutable.ListBuffer[Tree])) {
(accOpt, t) =>
for (acc <- accOpt; t0 <- updateTree(t)) yield acc += t0
}
.map(_.result())
def updateTree(tree: Tree): Option[Tree] =
tree match {
case a: ApplyTree =>
for {
function <- updateTree(a.function)
args <- updateTrees(a.arguments)
} yield a.withFunction(function).withArguments(args)
case Tree.Empty => Some(Tree.Empty)
case f: FunctionTree =>
for {
body <- updateTree(f.body)
} yield f.withBody(body)
case i: IdTree => Some(i)
case l: LiteralTree => Some(l)
case m: MacroExpansionTree =>
for {
beforeExp <- updateTree(m.beforeExpansion)
} yield m.withBeforeExpansion(beforeExp)
case o: OriginalTree =>
if (o.range.isEmpty) Some(o)
else
for {
range <- o.range.flatMap(mapRange)
} yield o.withRange(range)
case s: SelectTree =>
for {
qual <- updateTree(s.qualifier)
} yield s.withQualifier(qual)
case t: TypeApplyTree =>
for {
fun <- updateTree(t.function)
} yield t.withFunction(fun)
}
if (os.isFile(orig)) {
val docs = TextDocuments.parseFrom(os.read.bytes(orig))
val updatedDocs = docs.withDocuments {
val uriOpt =
for (wd0 <- wd; p <- module.codeSource.path)
yield wd0.toNIO.toUri.relativize(p.toNIO.toUri).toASCIIString
docs.documents.map { doc =>
doc
.withText(module.code)
.withUri(uriOpt.getOrElse(doc.uri))
.withMd5(md5(module.code))
.withDiagnostics {
doc.diagnostics.flatMap { diag =>
diag.range.fold(Option(diag)) { range =>
mapRange(range).map(diag.withRange)
}
}
}
.withOccurrences {
doc.occurrences.flatMap { occurrence =>
occurrence.range.fold(Option(occurrence)) { range =>
mapRange(range).map(occurrence.withRange)
}
}
}
.withSynthetics {
doc.synthetics.flatMap { syn =>
val synOpt = syn.range.fold(Option(syn)) { range =>
mapRange(range).map(syn.withRange)
}
synOpt.flatMap { syn0 =>
updateTree(syn0.tree)
.map(syn0.withTree)
}
}
}
}
}
os.write.over(dest, updatedDocs.toByteArray, createFolders = true)
} else
System.err.println(s"Error: $orig not found (for $dest)")
}
private def md5(content: String): String = {
val md = MessageDigest.getInstance("MD5")
val digest = md.digest(content.getBytes(StandardCharsets.UTF_8))
val res = new BigInteger(1, digest).toString(16)
if (res.length < 32)
("0" * (32 - res.length)) + res
else
res
}
}