scala.tools.nsc.interpreter.Power.scala Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of scala-compiler Show documentation
Show all versions of scala-compiler Show documentation
Compiler for the Scala Programming Language
/* NSC -- new Scala compiler
* Copyright 2005-2013 LAMP/EPFL
* @author Paul Phillips
*/
package scala.tools.nsc
package interpreter
import scala.collection.{ mutable, immutable }
import scala.util.matching.Regex
import scala.reflect.internal.util.{ BatchSourceFile }
import session.{ History }
import scala.io.Codec
import java.net.{ URL, MalformedURLException }
import io.{ Path }
import scala.language.implicitConversions
import scala.reflect.runtime.{universe => ru}
import scala.reflect.{ClassTag, classTag}
/** Collecting some power mode examples.
scala> trait F[@specialized(Int) T] { def f: T = ??? }
defined trait F
scala> trait G[@specialized(Long, Int) T] extends F[T] { override def f: T = super.f }
defined trait G
scala> changesAfterEachPhase(intp("G").info.members filter (_.name.toString contains "super")) >
Gained after 1/parser {
method super$f
}
Gained after 12/specialize {
method super$f$mcJ$sp
method super$f$mcI$sp
}
Lost after 18/flatten {
method super$f$mcJ$sp
method super$f$mcI$sp
method super$f
}
*/
/** A class for methods to be injected into the intp in power mode.
*/
class Power[ReplValsImpl <: ReplVals : ru.TypeTag: ClassTag](val intp: IMain, replVals: ReplValsImpl) {
import intp.{ beQuietDuring, typeOfExpression, interpret, parse }
import intp.global._
import definitions.{ compilerTypeFromTag, compilerSymbolFromTag}
import rootMirror.{ getClassIfDefined, getModuleIfDefined }
abstract class SymSlurper {
def isKeep(sym: Symbol): Boolean
def isIgnore(sym: Symbol): Boolean
def isRecur(sym: Symbol): Boolean
def isFinished(): Boolean
val keep = mutable.HashSet[Symbol]()
val seen = mutable.HashSet[Symbol]()
def processed = keep.size + seen.size
def discarded = seen.size - keep.size
def members(x: Symbol): List[Symbol] =
if (x.rawInfo.isComplete) x.info.members.toList
else Nil
var lastCount = -1
var pass = 0
val unseenHistory = new mutable.ListBuffer[Int]
def loop(todo: Set[Symbol]): Set[Symbol] = {
pass += 1
val (repeats, unseen) = todo partition seen
unseenHistory += unseen.size
if (opt.verbose) {
println("%3d %s accumulated, %s discarded. This pass: %s unseen, %s repeats".format(
pass, keep.size, discarded, unseen.size, repeats.size))
}
if (lastCount == processed || unseen.isEmpty || isFinished())
return keep.toSet
lastCount = processed
keep ++= (unseen filter isKeep filterNot isIgnore)
seen ++= unseen
loop(unseen filter isRecur flatMap members)
}
def apply(sym: Symbol): Set[Symbol] = {
keep.clear()
seen.clear()
loop(Set(sym))
}
}
class PackageSlurper(packageClass: Symbol) extends SymSlurper {
/** Looking for dwindling returns */
def droppedEnough() = unseenHistory.size >= 4 && {
unseenHistory takeRight 4 sliding 2 forall { it =>
val List(a, b) = it.toList
a > b
}
}
def isRecur(sym: Symbol) = true
def isIgnore(sym: Symbol) = sym.isAnonOrRefinementClass || (sym.name.toString contains "$mc")
def isKeep(sym: Symbol) = sym.hasTransOwner(packageClass)
def isFinished() = droppedEnough()
def slurp() = {
if (packageClass.isPackageClass)
apply(packageClass)
else {
repldbg("Not a package class! " + packageClass)
Set()
}
}
}
private def customBanner = replProps.powerBanner.option flatMap (f => io.File(f).safeSlurp())
private def customInit = replProps.powerInitCode.option flatMap (f => io.File(f).safeSlurp())
def banner = customBanner getOrElse """
|** Power User mode enabled - BEEP WHIR GYVE **
|** :phase has been set to 'typer'. **
|** scala.tools.nsc._ has been imported **
|** global._, definitions._ also imported **
|** Try :help, :vals, power. **
""".stripMargin.trim
private def initImports = List(
"scala.tools.nsc._",
"scala.collection.JavaConverters._",
"intp.global.{ error => _, _ }",
"definitions.{ getClass => _, _ }",
"power.rutil._",
"replImplicits._",
"treedsl.CODE._"
)
def init = customInit match {
case Some(x) => x
case _ => initImports.mkString("import ", ", ", "")
}
/** Starts up power mode and runs whatever is in init.
*/
def unleash(): Unit = beQuietDuring {
// First we create the ReplVals instance and bind it to $r
intp.bind("$r", replVals)
// Then we import everything from $r.
intp interpret ("import " + intp.pathToTerm("$r") + "._")
// And whatever else there is to do.
init.lines foreach (intp interpret _)
}
def valsDescription: String = {
def to_str(m: Symbol) = "%12s %s".format(
m.decodedName, "" + elimRefinement(m.accessedOrSelf.tpe) stripPrefix "scala.tools.nsc.")
( rutil.info[ReplValsImpl].membersDeclared
filter (m => m.isPublic && !m.hasModuleFlag && !m.isConstructor)
sortBy (_.decodedName)
map to_str
mkString ("Name and type of values imported into the repl in power mode.\n\n", "\n", "")
)
}
trait LowPriorityInternalInfo {
implicit def apply[T: ru.TypeTag : ClassTag] : InternalInfo[T] = new InternalInfo[T](None)
}
object InternalInfo extends LowPriorityInternalInfo { }
/** Now dealing with the problem of acidentally calling a method on Type
* when you're holding a Symbol and seeing the Symbol converted to the
* type of Symbol rather than the type of the thing represented by the
* symbol, by only implicitly installing one method, "?", and the rest
* of the conveniences exist on that wrapper.
*/
trait LowPriorityInternalInfoWrapper {
implicit def apply[T: ru.TypeTag : ClassTag] : InternalInfoWrapper[T] = new InternalInfoWrapper[T](None)
}
object InternalInfoWrapper extends LowPriorityInternalInfoWrapper {
}
class InternalInfoWrapper[T: ru.TypeTag : ClassTag](value: Option[T] = None) {
def ? : InternalInfo[T] = new InternalInfo[T](value)
}
/** Todos...
* translate tag type arguments into applied types
* customizable symbol filter (had to hardcode no-spec to reduce noise)
*/
class InternalInfo[T](value: Option[T] = None)(implicit typeEvidence: ru.TypeTag[T], runtimeClassEvidence: ClassTag[T]) {
private def newInfo[U: ru.TypeTag : ClassTag](value: U): InternalInfo[U] = new InternalInfo[U](Some(value))
private def isSpecialized(s: Symbol) = s.name.toString contains "$mc"
private def isImplClass(s: Symbol) = s.name.toString endsWith "$class"
/** Standard noise reduction filter. */
def excludeMember(s: Symbol) = (
isSpecialized(s)
|| isImplClass(s)
|| s.isAnonOrRefinementClass
|| s.isAnonymousFunction
)
def symbol = compilerSymbolFromTag(tag)
def tpe = compilerTypeFromTag(tag)
def name = symbol.name
def companion = symbol.companionSymbol
def info = symbol.info
def moduleClass = symbol.moduleClass
def owner = symbol.owner
def owners = symbol.ownerChain drop 1
def signature = symbol.defString
def decls = info.decls
def declsOverride = membersDeclared filter (_.isOverride)
def declsOriginal = membersDeclared filterNot (_.isOverride)
def members = membersUnabridged filterNot excludeMember
def membersUnabridged = tpe.members.toList
def membersDeclared = members filterNot excludeMember
def membersInherited = members filterNot (membersDeclared contains _)
def memberTypes = members filter (_.name.isTypeName)
def memberMethods = members filter (_.isMethod)
def pkg = symbol.enclosingPackage
def pkgName = pkg.fullName
def pkgClass = symbol.enclosingPackageClass
def pkgMembers = pkg.info.members filterNot excludeMember
def pkgClasses = pkgMembers filter (s => s.isClass && s.isDefinedInPackage)
def pkgSymbols = new PackageSlurper(pkgClass).slurp() filterNot excludeMember
def tag = typeEvidence
def runtimeClass = runtimeClassEvidence.runtimeClass
def shortClass = runtimeClass.getName split "[$.]" last
def baseClasses = tpe.baseClasses
def baseClassDecls = mapFrom(baseClasses)(_.info.decls.toList.sortBy(_.name))
def ancestors = baseClasses drop 1
def ancestorDeclares(name: String) = ancestors filter (_.info member newTermName(name) ne NoSymbol)
def baseTypes = tpe.baseTypeSeq.toList
def <:<[U: ru.TypeTag : ClassTag](other: U) = tpe <:< newInfo(other).tpe
def lub[U: ru.TypeTag : ClassTag](other: U) = intp.global.lub(List(tpe, newInfo(other).tpe))
def glb[U: ru.TypeTag : ClassTag](other: U) = intp.global.glb(List(tpe, newInfo(other).tpe))
override def toString = value match {
case Some(x) => "%s (%s)".format(x, shortClass)
case _ => runtimeClass.getName
}
}
trait LowPriorityPrettifier {
implicit object AnyPrettifier extends Prettifier[Any] {
def show(x: Any): Unit = prettify(x) foreach println
def prettify(x: Any): TraversableOnce[String] = x match {
case x: Name => List(x.decode)
case Tuple2(k, v) => List(prettify(k).toIterator ++ Iterator("->") ++ prettify(v) mkString " ")
case xs: Array[_] => xs.iterator flatMap prettify
case xs: TraversableOnce[_] => xs flatMap prettify
case x => List(Prettifier.stringOf(x))
}
}
}
object StringPrettifier extends Prettifier[String] {
def show(x: String) = println(x)
def prettify(x: String) = List(Prettifier stringOf x)
}
object Prettifier extends LowPriorityPrettifier {
def stringOf(x: Any): String = scala.runtime.ScalaRunTime.stringOf(x)
def prettify[T](value: T): TraversableOnce[String] = default[T] prettify value
def default[T] = new Prettifier[T] {
def prettify(x: T): TraversableOnce[String] = AnyPrettifier prettify x
def show(x: T): Unit = AnyPrettifier show x
}
}
trait Prettifier[T] {
def show(x: T): Unit
def prettify(x: T): TraversableOnce[String]
def show(xs: TraversableOnce[T]): Unit = prettify(xs) foreach println
def prettify(xs: TraversableOnce[T]): TraversableOnce[String] = xs flatMap (x => prettify(x))
}
abstract class PrettifierClass[T: Prettifier]() {
val pretty = implicitly[Prettifier[T]]
import pretty._
def value: Seq[T]
def pp(f: Seq[T] => Seq[T]): Unit =
pretty prettify f(value) foreach (StringPrettifier show _)
def freq[U](p: T => U) = (value.toSeq groupBy p mapValues (_.size)).toList sortBy (-_._2) map (_.swap)
def ppfreq[U](p: T => U): Unit = freq(p) foreach { case (count, key) => println("%5d %s".format(count, key)) }
def |[U](f: Seq[T] => Seq[U]): Seq[U] = f(value)
def ^^[U](f: T => U): Seq[U] = value map f
def ^?[U](pf: PartialFunction[T, U]): Seq[U] = value collect pf
def >>!(implicit ord: Ordering[T]): Unit = pp(_.sorted.distinct)
def >>(implicit ord: Ordering[T]): Unit = pp(_.sorted)
def >!(): Unit = pp(_.distinct)
def >(): Unit = pp(identity)
def >#(): Unit = this ># (identity[T] _)
def >#[U](p: T => U): Unit = this ppfreq p
def >?(p: T => Boolean): Unit = pp(_ filter p)
def >?(s: String): Unit = pp(_ filter (_.toString contains s))
def >?(r: Regex): Unit = pp(_ filter (_.toString matches fixRegex(r)))
private def fixRegex(r: scala.util.matching.Regex): String = {
val s = r.pattern.toString
val prefix = if (s startsWith "^") "" else """^.*?"""
val suffix = if (s endsWith "$") "" else """.*$"""
prefix + s + suffix
}
}
class MultiPrettifierClass[T: Prettifier](val value: Seq[T]) extends PrettifierClass[T]() { }
class SinglePrettifierClass[T: Prettifier](single: T) extends PrettifierClass[T]() {
val value = List(single)
}
class RichReplString(s: String) {
// make an url out of the string
def u: URL = (
if (s contains ":") new URL(s)
else if (new JFile(s) exists) new JFile(s).toURI.toURL
else new URL("http://" + s)
)
}
class RichInputStream(in: InputStream)(implicit codec: Codec) {
def bytes(): Array[Byte] = io.Streamable.bytes(in)
def slurp(): String = io.Streamable.slurp(in)
def <<(): String = slurp()
}
class RichReplURL(url: URL)(implicit codec: Codec) {
def slurp(): String = io.Streamable.slurp(url)
}
class RichSymbolList(syms: List[Symbol]) {
def sigs = syms map (_.defString)
def infos = syms map (_.info)
}
trait Implicits1 {
// fallback
implicit def replPrinting[T](x: T)(implicit pretty: Prettifier[T] = Prettifier.default[T]) =
new SinglePrettifierClass[T](x)
implicit def liftToTypeName(s: String): TypeName = newTypeName(s)
}
trait Implicits2 extends Implicits1 {
class RichSymbol(sym: Symbol) {
// convenient type application
def apply(targs: Type*): Type = typeRef(NoPrefix, sym, targs.toList)
}
object symbolSubtypeOrdering extends Ordering[Symbol] {
def compare(s1: Symbol, s2: Symbol) =
if (s1 eq s2) 0
else if (s1 isLess s2) -1
else 1
}
implicit lazy val powerSymbolOrdering: Ordering[Symbol] = Ordering[Name] on (_.name)
implicit lazy val powerTypeOrdering: Ordering[Type] = Ordering[Symbol] on (_.typeSymbol)
implicit def replInternalInfo[T: ru.TypeTag : ClassTag](x: T): InternalInfoWrapper[T] = new InternalInfoWrapper[T](Some(x))
implicit def replEnhancedStrings(s: String): RichReplString = new RichReplString(s)
implicit def replMultiPrinting[T: Prettifier](xs: TraversableOnce[T]): MultiPrettifierClass[T] =
new MultiPrettifierClass[T](xs.toSeq)
implicit def replPrettifier[T] : Prettifier[T] = Prettifier.default[T]
implicit def replTypeApplication(sym: Symbol): RichSymbol = new RichSymbol(sym)
implicit def replInputStream(in: InputStream)(implicit codec: Codec) = new RichInputStream(in)
implicit def replEnhancedURLs(url: URL)(implicit codec: Codec): RichReplURL = new RichReplURL(url)(codec)
implicit def liftToTermName(s: String): TermName = newTermName(s)
implicit def replListOfSymbols(xs: List[Symbol]) = new RichSymbolList(xs)
}
trait ReplUtilities {
// [Eugene to Paul] needs review!
// def module[T: Manifest] = getModuleIfDefined(manifest[T].erasure.getName stripSuffix nme.MODULE_SUFFIX_STRING)
// def clazz[T: Manifest] = getClassIfDefined(manifest[T].erasure.getName)
def module[T: ru.TypeTag] = ru.typeOf[T].typeSymbol.suchThat(_.isPackage)
def clazz[T: ru.TypeTag] = ru.typeOf[T].typeSymbol.suchThat(_.isClass)
def info[T: ru.TypeTag : ClassTag] = InternalInfo[T]
def ?[T: ru.TypeTag : ClassTag] = InternalInfo[T]
def url(s: String) = {
try new URL(s)
catch { case _: MalformedURLException =>
if (Path(s).exists) Path(s).toURL
else new URL("http://" + s)
}
}
def sanitize(s: String): String = sanitize(s.getBytes())
def sanitize(s: Array[Byte]): String = (s map {
case x if x.toChar.isControl => '?'
case x => x.toChar
}).mkString
def strings(s: Seq[Byte]): List[String] = {
if (s.length == 0) Nil
else s dropWhile (_.toChar.isControl) span (x => !x.toChar.isControl) match {
case (next, rest) => next.map(_.toChar).mkString :: strings(rest)
}
}
}
lazy val rutil: ReplUtilities = new ReplUtilities { }
lazy val phased: Phased = new { val global: intp.global.type = intp.global } with Phased { }
def context(code: String) = analyzer.rootContext(unit(code))
def source(code: String) = newSourceFile(code)
def unit(code: String) = newCompilationUnit(code)
def trees(code: String) = parse(code) getOrElse Nil
def typeOf(id: String) = intp.typeOfExpression(id)
override def toString = """
|** Power mode status **
|Default phase: %s
|Names: %s
|Identifiers: %s
""".stripMargin.format(
phased.get,
intp.allDefinedNames mkString " ",
intp.unqualifiedIds mkString " "
)
}