path: root/src/compiler/scala/tools/nsc/symtab/classfile/ClassfileParser.scala

/* NSC -- new Scala compiler
 * Copyright 2005-2013 LAMP/EPFL
 * @author  Martin Odersky
 */

package scala.tools.nsc
package symtab
package classfile

import java.io.{ File, IOException }
import java.lang.Integer.toHexString
import scala.collection.{ mutable, immutable }
import scala.collection.mutable.{ ListBuffer, ArrayBuffer }
import scala.annotation.switch
import scala.reflect.internal.pickling.{PickleBuffer, ByteCodecs}
import scala.tools.nsc.io.AbstractFile

/** This abstract class implements a class file parser.
 *
 *  @author Martin Odersky
 *  @version 1.0
 */
abstract class ClassfileParser {
  val global: Global
  import global._
  import definitions.{ AnnotationClass, ClassfileAnnotationClass }
  import scala.reflect.internal.ClassfileConstants._
  import Flags._

  protected var in: AbstractFileReader = _  // the class file reader
  protected var clazz: Symbol = _           // the class symbol containing dynamic members
  protected var staticModule: Symbol = _    // the module symbol containing static members
  protected var instanceScope: Scope = _     // the scope of all instance definitions
  protected var staticScope: Scope = _       // the scope of all static definitions
  protected var pool: ConstantPool = _      // the classfile's constant pool
  protected var isScala: Boolean = _        // does class file describe a scala class?
  protected var isScalaAnnot: Boolean = _   // does class file describe a scala class with its pickled info in an annotation?
  protected var isScalaRaw: Boolean = _     // this class file is a scala class with no pickled info
  protected var busy: Option[Symbol] = None // lock to detect recursive reads
  protected var currentClass: Name = _      // JVM name of the current class
  protected var classTParams = Map[Name,Symbol]()
  protected var srcfile0 : Option[AbstractFile] = None
  protected def moduleClass: Symbol = staticModule.moduleClass

  def srcfile = srcfile0

  private def currentIsTopLevel = !(currentClass.decodedName containsChar '$')

  private object unpickler extends scala.reflect.internal.pickling.UnPickler {
    val global: ClassfileParser.this.global.type = ClassfileParser.this.global
  }

  private def handleMissing(e: MissingRequirementError) = {
    if (settings.debug.value) e.printStackTrace
    throw new IOException(s"Missing dependency '${e.req}', required by ${in.file}")
  }
  private def handleError(e: Exception) = {
    if (settings.debug.value) e.printStackTrace()
    throw new IOException(s"class file '${in.file}' is broken\n(${e.getClass}/${e.getMessage})")
  }
  private def mismatchError(c: Symbol) = {
    throw new IOException(s"class file '${in.file}' has location not matching its contents: contains $c")
  }

  private def parseErrorHandler[T]: PartialFunction[Throwable, T] = {
    case e: MissingRequirementError => handleMissing(e)
    case e: RuntimeException        => handleError(e)
  }
  @inline private def pushBusy[T](sym: Symbol)(body: => T): T = {
    busy match {
      case Some(`sym`)  => throw new IOException(s"unsatisfiable cyclic dependency in '$sym'")
      case Some(sym1)   => throw new IOException(s"illegal class file dependency between '$sym' and '$sym1'")
      case _            => ()
    }

    busy = Some(sym)
    try body
    catch parseErrorHandler
    finally busy = None
  }
  @inline private def raiseLoaderLevel[T](body: => T): T = {
    loaders.parentsLevel += 1
    try body
    finally loaders.parentsLevel -= 1
  }

  def parse(file: AbstractFile, root: Symbol): Unit = {
    debuglog("[class] >> " + root.fullName)

    pushBusy(root) {
      this.in           = new AbstractFileReader(file)
      this.clazz        = if (root.isModule) root.companionClass else root
      // WARNING! do no use clazz.companionModule to find staticModule.
      // In a situation where root can be defined, but its companionClass not,
      // this would give incorrect results (see SI-5031 in separate compilation scenario)
      this.staticModule = if (root.isModule) root else root.companionModule
      this.isScala      = false

      parseHeader
      this.pool = new ConstantPool
      parseClass()
    }
  }

  private def parseHeader() {
    val magic = in.nextInt
    if (magic != JAVA_MAGIC)
      throw new IOException("class file '" + in.file + "' "
                            + "has wrong magic number 0x" + toHexString(magic)
                            + ", should be 0x" + toHexString(JAVA_MAGIC))
    val minorVersion = in.nextChar.toInt
    val majorVersion = in.nextChar.toInt
    if ((majorVersion < JAVA_MAJOR_VERSION) ||
        ((majorVersion == JAVA_MAJOR_VERSION) &&
         (minorVersion < JAVA_MINOR_VERSION)))
      throw new IOException("class file '" + in.file + "' "
                            + "has unknown version "
                            + majorVersion + "." + minorVersion
                            + ", should be at least "
                            + JAVA_MAJOR_VERSION + "." + JAVA_MINOR_VERSION)
  }

  class ConstantPool {
    private val len = in.nextChar
    private val starts = new Array[Int](len)
    private val values = new Array[AnyRef](len)
    private val internalized = new Array[Name](len)

    { var i = 1
      while (i < starts.length) {
        starts(i) = in.bp
        i += 1
        (in.nextByte.toInt: @switch) match {
          case CONSTANT_UTF8 | CONSTANT_UNICODE =>
            in.skip(in.nextChar)
          case CONSTANT_CLASS | CONSTANT_STRING | CONSTANT_METHODTYPE=>
            in.skip(2)
          case CONSTANT_METHODHANDLE =>
            in.skip(3)
          case CONSTANT_FIELDREF | CONSTANT_METHODREF | CONSTANT_INTFMETHODREF
             | CONSTANT_NAMEANDTYPE | CONSTANT_INTEGER | CONSTANT_FLOAT
             | CONSTANT_INVOKEDYNAMIC =>
            in.skip(4)
          case CONSTANT_LONG | CONSTANT_DOUBLE =>
            in.skip(8)
            i += 1
          case _ =>
            errorBadTag(in.bp - 1)
        }
      }
    }

    /** Return the name found at given index. */
    def getName(index: Int): Name = {
      if (index <= 0 || len <= index)
        errorBadIndex(index)

      values(index) match {
        case name: Name => name
        case null   =>
          val start = starts(index)
          if (in.buf(start).toInt != CONSTANT_UTF8) errorBadTag(start)
          val name = newTermName(in.buf, start + 3, in.getChar(start + 1))
          values(index) = name
          name
      }
    }

    /** Return the name found at given index in the constant pool, with '/' replaced by '.'. */
    def getExternalName(index: Int): Name = {
      if (index <= 0 || len <= index)
        errorBadIndex(index)

      if (internalized(index) == null)
        internalized(index) = getName(index).replace('/', '.')

      internalized(index)
    }

    def getClassSymbol(index: Int): Symbol = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      var c = values(index).asInstanceOf[Symbol]
      if (c eq null) {
        val start = starts(index)
        if (in.buf(start).toInt != CONSTANT_CLASS) errorBadTag(start)
        val name = getExternalName(in.getChar(start + 1))
        if (nme.isModuleName(name))
          c = rootMirror.getModule(nme.stripModuleSuffix(name))
        else
          c = classNameToSymbol(name)

        values(index) = c
      }
      c
    }

    /** Return the external name of the class info structure found at 'index'.
     *  Use 'getClassSymbol' if the class is sure to be a top-level class.
     */
    def getClassName(index: Int): Name = {
      val start = starts(index)
      if (in.buf(start).toInt != CONSTANT_CLASS) errorBadTag(start)
      getExternalName(in.getChar(start + 1))
    }

    /** Return the symbol of the class member at `index`.
     *  The following special cases exist:
     *   - If the member refers to special `MODULE$` static field, return
     *  the symbol of the corresponding module.
     *   - If the member is a field, and is not found with the given name,
     *     another try is made by appending `nme.LOCAL_SUFFIX_STRING`
     *   - If no symbol is found in the right tpe, a new try is made in the
     *     companion class, in case the owner is an implementation class.
     */
    def getMemberSymbol(index: Int, static: Boolean): Symbol = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      var f = values(index).asInstanceOf[Symbol]
      if (f eq null) {
        val start = starts(index)
        val first = in.buf(start).toInt
        if (first != CONSTANT_FIELDREF &&
            first != CONSTANT_METHODREF &&
            first != CONSTANT_INTFMETHODREF) errorBadTag(start)
        val ownerTpe = getClassOrArrayType(in.getChar(start + 1))
        debuglog("getMemberSymbol(static: " + static + "): owner type: " + ownerTpe + " " + ownerTpe.typeSymbol.originalName)
        val (name0, tpe0) = getNameAndType(in.getChar(start + 3), ownerTpe)
        debuglog("getMemberSymbol: name and tpe: " + name0 + ": " + tpe0)

        forceMangledName(tpe0.typeSymbol.name, false)
        val (name, tpe) = getNameAndType(in.getChar(start + 3), ownerTpe)
        if (name == nme.MODULE_INSTANCE_FIELD) {
          val index = in.getChar(start + 1)
          val name = getExternalName(in.getChar(starts(index) + 1))
          //assert(name.endsWith("$"), "Not a module class: " + name)
          f = forceMangledName(name dropRight 1, true)
          if (f == NoSymbol)
            f = rootMirror.getModule(name dropRight 1)
        } else {
          val origName = nme.originalName(name)
          val owner = if (static) ownerTpe.typeSymbol.linkedClassOfClass else ownerTpe.typeSymbol
          f = owner.info.findMember(origName, 0, 0, false).suchThat(_.tpe.widen =:= tpe)
          if (f == NoSymbol)
            f = owner.info.findMember(newTermName(origName + nme.LOCAL_SUFFIX_STRING), 0, 0, false).suchThat(_.tpe =:= tpe)
          if (f == NoSymbol) {
            // if it's an impl class, try to find it's static member inside the class
            if (ownerTpe.typeSymbol.isImplClass) {
              f = ownerTpe.findMember(origName, 0, 0, false).suchThat(_.tpe =:= tpe)
            } else {
              log("Couldn't find " + name + ": " + tpe + " inside: \n" + ownerTpe)
              f = tpe match {
                case MethodType(_, _) => owner.newMethod(name, owner.pos)
                case _                => owner.newVariable(name, owner.pos)
              }
              f setInfo tpe
              log("created fake member " + f.fullName)
            }
          }
        }
        assert(f != NoSymbol,
          s"could not find $name: $tpe in $ownerTpe" + (
            if (settings.debug.value) ownerTpe.members.mkString(", members are:\n  ", "\n  ", "") else ""
          )
        )
        values(index) = f
      }
      f
    }

    /** Return a name and a type at the given index. If the type is a method
     *  type, a dummy symbol is created in `ownerTpe`, which is used as the
     *  owner of its value parameters. This might lead to inconsistencies,
     *  if a symbol of the given name already exists, and has a different
     *  type.
     */
    private def getNameAndType(index: Int, ownerTpe: Type): (Name, Type) = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      var p = values(index).asInstanceOf[(Name, Type)]
      if (p eq null) {
        val start = starts(index)
        if (in.buf(start).toInt != CONSTANT_NAMEANDTYPE) errorBadTag(start)
        val name = getName(in.getChar(start + 1).toInt)
        // create a dummy symbol for method types
        val dummySym = ownerTpe.typeSymbol.newMethod(name, ownerTpe.typeSymbol.pos)
        var tpe  = getType(dummySym, in.getChar(start + 3).toInt)

        // fix the return type, which is blindly set to the class currently parsed
        if (name == nme.CONSTRUCTOR)
          tpe match {
            case MethodType(formals, restpe) =>
              tpe = MethodType(formals, ownerTpe)
          }

        p = (name, tpe)
      }
      p
    }

    /** Return the type of a class constant entry. Since
     *  arrays are considered to be class types, they might
     *  appear as entries in 'newarray' or 'cast' opcodes.
     */
    def getClassOrArrayType(index: Int): Type = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      val value = values(index)
      var c: Type = null
      if (value eq null) {
        val start = starts(index)
        if (in.buf(start).toInt != CONSTANT_CLASS) errorBadTag(start)
        val name = getExternalName(in.getChar(start + 1))
        if (name.charAt(0) == ARRAY_TAG) {
          c = sigToType(null, name)
          values(index) = c
        } else {
          val sym = classNameToSymbol(name)
                  /*if (name.endsWith("$")) definitions.getModule(name.subName(0, name.length - 1))
                    else if (name.endsWith("$class")) definitions.getModule(name)
                    else definitions.getClass(name)*/
          values(index) = sym
          c = sym.tpe
        }
      } else c = value match {
          case tp: Type => tp
          case cls: Symbol => cls.tpe
      }
      c
    }

    def getType(index: Int): Type = getType(null, index)

    def getType(sym: Symbol, index: Int): Type =
      sigToType(sym, getExternalName(index))

    def getSuperClass(index: Int): Symbol =
      if (index == 0) definitions.AnyClass else getClassSymbol(index)

    def getConstant(index: Int): Constant = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      var value = values(index)
      if (value eq null) {
        val start = starts(index)
        value = (in.buf(start).toInt: @switch) match {
          case CONSTANT_STRING =>
            Constant(getName(in.getChar(start + 1).toInt).toString)
          case CONSTANT_INTEGER =>
            Constant(in.getInt(start + 1))
          case CONSTANT_FLOAT =>
            Constant(in.getFloat(start + 1))
          case CONSTANT_LONG =>
            Constant(in.getLong(start + 1))
          case CONSTANT_DOUBLE =>
            Constant(in.getDouble(start + 1))
          case CONSTANT_CLASS =>
            getClassOrArrayType(index).typeSymbol
          case _ =>
            errorBadTag(start)
        }
        values(index) = value
      }
      value match {
        case  ct: Constant => ct
        case cls: Symbol   => Constant(cls.tpe)
        case arr: Type     => Constant(arr)
      }
    }

    private def getSubArray(bytes: Array[Byte]): Array[Byte] = {
      val decodedLength = ByteCodecs.decode(bytes)
      val arr           = new Array[Byte](decodedLength)
      System.arraycopy(bytes, 0, arr, 0, decodedLength)
      arr
    }

    def getBytes(index: Int): Array[Byte] = {
      if (index <= 0 || len <= index) errorBadIndex(index)
      var value = values(index).asInstanceOf[Array[Byte]]
      if (value eq null) {
        val start = starts(index)
        if (in.buf(start).toInt != CONSTANT_UTF8) errorBadTag(start)
        val len   = in.getChar(start + 1)
        val bytes = new Array[Byte](len)
        System.arraycopy(in.buf, start + 3, bytes, 0, len)
        value = getSubArray(bytes)
        values(index) = value
      }
      value
    }

    def getBytes(indices: List[Int]): Array[Byte] = {
      assert(!indices.isEmpty, indices)
      var value = values(indices.head).asInstanceOf[Array[Byte]]
      if (value eq null) {
        val bytesBuffer = ArrayBuffer.empty[Byte]
        for (index <- indices) {
          if (index <= 0 || ConstantPool.this.len <= index) errorBadIndex(index)
          val start = starts(index)
          if (in.buf(start).toInt != CONSTANT_UTF8) errorBadTag(start)
          val len = in.getChar(start + 1)
          bytesBuffer ++= in.buf.view(start + 3, start + 3 + len)
        }
        value = getSubArray(bytesBuffer.toArray)
        values(indices.head) = value
      }
      value
    }

    /** Throws an exception signaling a bad constant index. */
    private def errorBadIndex(index: Int) =
      throw new RuntimeException("bad constant pool index: " + index + " at pos: " + in.bp)

    /** Throws an exception signaling a bad tag at given address. */
    private def errorBadTag(start: Int) =
      throw new RuntimeException("bad constant pool tag " + in.buf(start) + " at byte " + start)
  }

  /** Try to force the chain of enclosing classes for the given name. Otherwise
   *  flatten would not lift classes that were not referenced in the source code.
   */
  def forceMangledName(name: Name, module: Boolean): Symbol = {
    val parts = name.decode.toString.split(Array('.', '$'))
    var sym: Symbol = rootMirror.RootClass

    // was "at flatten.prev"
    beforeFlatten {
      for (part0 <- parts; if !(part0 == ""); part = newTermName(part0)) {
        val sym1 = beforeIcode {
          sym.linkedClassOfClass.info
          sym.info.decl(part.encode)
        }//.suchThat(module == _.isModule)

        sym = sym1 orElse sym.info.decl(part.encode.toTypeName)
      }
    }
    sym
  }

  private def loadClassSymbol(name: Name): Symbol = {
    val file = global.classPath findSourceFile ("" +name) getOrElse {
      // SI-5593 Scaladoc's current strategy is to visit all packages in search of user code that can be documented
      // therefore, it will rummage through the classpath triggering errors whenever it encounters package objects
      // that are not in their correct place (see bug for details)
      if (!settings.isScaladoc)
        warning(s"Class $name not found - continuing with a stub.")
      return NoSymbol.newClass(name.toTypeName)
    }
    val completer     = new global.loaders.ClassfileLoader(file)
    var owner: Symbol = rootMirror.RootClass
    var sym: Symbol   = NoSymbol
    var ss: Name      = null
    var start         = 0
    var end           = name indexOf '.'

    while (end > 0) {
      ss = name.subName(start, end)
      sym = owner.info.decls lookup ss
      if (sym == NoSymbol) {
        sym = owner.newPackage(ss) setInfo completer
        sym.moduleClass setInfo completer
        owner.info.decls enter sym
      }
      owner = sym.moduleClass
      start = end + 1
      end = name.indexOf('.', start)
    }
    ss = name.subName(0, start)
    owner.info.decls lookup ss orElse {
      sym = owner.newClass(ss.toTypeName) setInfoAndEnter completer
      debuglog("loaded "+sym+" from file "+file)
      sym
    }
  }
  /** FIXME - we shouldn't be doing ad hoc lookups in the empty package.
   *  The method called "getClassByName" should either return the class or not.
   */
  private def lookupClass(name: Name) = (
    if (name containsChar '.')
      rootMirror getClassByName name // see tickets #2464, #3756
    else
      definitions.getMember(rootMirror.EmptyPackageClass, name.toTypeName)
  )

  /** Return the class symbol of the given name. */
  def classNameToSymbol(name: Name): Symbol = {
    if (innerClasses contains name)
      innerClasses innerSymbol name
    else
      try lookupClass(name)
      catch { case _: FatalError => loadClassSymbol(name) }
  }

  var sawPrivateConstructor = false

  def parseClass() {
    val jflags       = in.nextChar
    val isAnnotation = hasAnnotation(jflags)
    var sflags       = toScalaClassFlags(jflags)
    var nameIdx      = in.nextChar
    currentClass     = pool.getClassName(nameIdx)

    /** Parse parents for Java classes. For Scala, return AnyRef, since the real type will be unpickled.
     *  Updates the read pointer of 'in'. */
    def parseParents: List[Type] = {
      if (isScala) {
        in.nextChar              // skip superclass
        val ifaces = in.nextChar
        in.bp += ifaces * 2     // .. and iface count interfaces
        List(definitions.AnyRefClass.tpe) // dummy superclass, will be replaced by pickled information
      }
      else raiseLoaderLevel {
        val superType = if (isAnnotation) { in.nextChar; definitions.AnnotationClass.tpe }
                        else pool.getSuperClass(in.nextChar).tpe
        val ifaceCount = in.nextChar
        var ifaces = for (i <- List.range(0, ifaceCount)) yield pool.getSuperClass(in.nextChar).tpe
        if (isAnnotation) ifaces = definitions.ClassfileAnnotationClass.tpe :: ifaces
        superType :: ifaces
      }
    }

    val c = if (currentIsTopLevel) pool.getClassSymbol(nameIdx) else clazz
    if (currentIsTopLevel) {
      if (c != clazz) {
        if ((clazz eq NoSymbol) && (c ne NoSymbol)) clazz = c
        else mismatchError(c)
      }
    }

    addEnclosingTParams(clazz)
    parseInnerClasses() // also sets the isScala / isScalaRaw flags, see r15956
    // get the class file parser to reuse scopes.
    instanceScope = newScope
    staticScope = newScope

    val classInfo = ClassInfoType(parseParents, instanceScope, clazz)
    val staticInfo = ClassInfoType(List(), staticScope, moduleClass)

    if (!isScala && !isScalaRaw)
      enterOwnInnerClasses

    val curbp = in.bp
    skipMembers() // fields
    skipMembers() // methods
    if (!isScala) {
      clazz setFlag sflags
      importPrivateWithinFromJavaFlags(clazz, jflags)
      importPrivateWithinFromJavaFlags(staticModule, jflags)
      clazz.setInfo(classInfo)
      moduleClass setInfo staticInfo
      staticModule.setInfo(moduleClass.tpe)
      staticModule.setFlag(JAVA)
      staticModule.moduleClass.setFlag(JAVA)
      // attributes now depend on having infos set already
      parseAttributes(clazz, classInfo)

      def queueLoad() {
        in.bp = curbp
        0 until in.nextChar foreach (_ => parseField())
        sawPrivateConstructor = false
        0 until in.nextChar foreach (_ => parseMethod())
        val needsConstructor = (
             !sawPrivateConstructor
          && instanceScope.lookup(nme.CONSTRUCTOR) == NoSymbol
          && (sflags & INTERFACE) == 0
        )
        if (needsConstructor)
          instanceScope enter clazz.newClassConstructor(NoPosition)
      }

      loaders.pendingLoadActions ::= (queueLoad _)
      if (loaders.parentsLevel == 0) {
        while (loaders.pendingLoadActions.nonEmpty) {
          val item = loaders.pendingLoadActions.head
          loaders.pendingLoadActions = loaders.pendingLoadActions.tail
          item()
        }
      }
    } else
      parseAttributes(clazz, classInfo)
  }

  /** Add type parameters of enclosing classes */
  def addEnclosingTParams(clazz: Symbol) {
    var sym = clazz.owner
    while (sym.isClass && !sym.isModuleClass) {
      for (t <- sym.tpe.typeArgs)
        classTParams = classTParams + (t.typeSymbol.name -> t.typeSymbol)

      sym = sym.owner
    }
  }

  def parseField() {
    val jflags = in.nextChar
    var sflags = toScalaFieldFlags(jflags)
    if ((sflags & PRIVATE) != 0L && !global.settings.optimise.value) {
      in.skip(4); skipAttributes()
    } else {
      val name    = pool.getName(in.nextChar)
      val info    = pool.getType(in.nextChar)
      val sym     = getOwner(jflags).newValue(name, NoPosition, sflags)
      val isEnum  = (jflags & JAVA_ACC_ENUM) != 0

      sym setInfo {
        if (isEnum) ConstantType(Constant(sym))
        else info
      }
      importPrivateWithinFromJavaFlags(sym, jflags)
      parseAttributes(sym, info)
      getScope(jflags).enter(sym)

      // sealed java enums
      if (isEnum) {
        val enumClass = sym.owner.linkedClassOfClass
        if (!enumClass.isSealed)
          enumClass setFlag (SEALED | ABSTRACT)

        enumClass addChild sym
      }
    }
  }

  def parseMethod() {
    val jflags = in.nextChar.toInt
    var sflags = toScalaMethodFlags(jflags)
    if (isPrivate(jflags) && !global.settings.optimise.value) {
      val name = pool.getName(in.nextChar)
      if (name == nme.CONSTRUCTOR)
        sawPrivateConstructor = true
      in.skip(2); skipAttributes()
    } else {
      if ((sflags & PRIVATE) != 0L && global.settings.optimise.value) {
        in.skip(4); skipAttributes()
      } else {
        val name = pool.getName(in.nextChar)
        val sym = getOwner(jflags).newMethod(name, NoPosition, sflags)
        var info = pool.getType(sym, (in.nextChar))
        if (name == nme.CONSTRUCTOR)
          info match {
            case MethodType(params, restpe) =>
              // if this is a non-static inner class, remove the explicit outer parameter
              val newParams = innerClasses getEntry currentClass match {
                case Some(entry) if !isScalaRaw && !isStatic(entry.jflags) =>
                  /* About `clazz.owner.isPackage` below: SI-5957
                   * For every nested java class A$B, there are two symbols in the scala compiler.
                   *  1. created by SymbolLoader, because of the existence of the A$B.class file, owner: package
                   *  2. created by ClassfileParser of A when reading the inner classes, owner: A
                   * If symbol 1 gets completed (e.g. because the compiled source mentions `A$B`, not `A#B`), the
                   * ClassfileParser for 1 executes, and clazz.owner is the package.
                   */
                  assert(params.head.tpe.typeSymbol == clazz.owner || clazz.owner.isPackage, params.head.tpe.typeSymbol + ": " + clazz.owner)
                  params.tail
                case _ =>
                  params
              }
              info = MethodType(newParams, clazz.tpe)
          }
        sym.setInfo(info)
        importPrivateWithinFromJavaFlags(sym, jflags)
        parseAttributes(sym, info)
        if ((jflags & JAVA_ACC_VARARGS) != 0) {
          sym.setInfo(arrayToRepeated(sym.info))
        }
        getScope(jflags).enter(sym)
      }
    }
  }

  private def sigToType(sym: Symbol, sig: Name): Type = {
    var index = 0
    val end = sig.length
    def accept(ch: Char) {
      assert(sig.charAt(index) == ch, (sig.charAt(index), ch))
      index += 1
    }
    def subName(isDelimiter: Char => Boolean): Name = {
      val start = index
      while (!isDelimiter(sig.charAt(index))) { index += 1 }
      sig.subName(start, index)
    }
    def sig2type(tparams: immutable.Map[Name,Symbol], skiptvs: Boolean): Type = {
      val tag = sig.charAt(index); index += 1
      tag match {
        case BYTE_TAG   => definitions.ByteClass.tpe
        case CHAR_TAG   => definitions.CharClass.tpe
        case DOUBLE_TAG => definitions.DoubleClass.tpe
        case FLOAT_TAG  => definitions.FloatClass.tpe
        case INT_TAG    => definitions.IntClass.tpe
        case LONG_TAG   => definitions.LongClass.tpe
        case SHORT_TAG  => definitions.ShortClass.tpe
        case VOID_TAG   => definitions.UnitClass.tpe
        case BOOL_TAG   => definitions.BooleanClass.tpe
        case 'L' =>
          def processInner(tp: Type): Type = tp match {
            case TypeRef(pre, sym, args) if (!sym.isStatic) =>
              typeRef(processInner(pre.widen), sym, args)
            case _ =>
              tp
          }
          def processClassType(tp: Type): Type = tp match {
            case TypeRef(pre, classSym, args) =>
              val existentials = new ListBuffer[Symbol]()
              if (sig.charAt(index) == '<') {
                accept('<')
                val xs = new ListBuffer[Type]()
                var i = 0
                while (sig.charAt(index) != '>') {
                  sig.charAt(index) match {
                    case variance @ ('+' | '-' | '*') =>
                      index += 1
                      val bounds = variance match {
                        case '+' => TypeBounds.upper(objToAny(sig2type(tparams, skiptvs)))
                        case '-' =>
                          val tp = sig2type(tparams, skiptvs)
                          // sig2type seems to return AnyClass regardless of the situation:
                          // we don't want Any as a LOWER bound.
                          if (tp.typeSymbol == definitions.AnyClass) TypeBounds.empty
                          else TypeBounds.lower(tp)
                        case '*' => TypeBounds.empty
                      }
                      val newtparam = sym.newExistential(newTypeName("?"+i), sym.pos) setInfo bounds
                      existentials += newtparam
                      xs += newtparam.tpeHK
                      i += 1
                    case _ =>
                      xs += sig2type(tparams, skiptvs)
                  }
                }
                accept('>')
                assert(xs.length > 0, tp)
                newExistentialType(existentials.toList, typeRef(pre, classSym, xs.toList))
              } else if (classSym.isMonomorphicType) {
                tp
              } else {
                // raw type - existentially quantify all type parameters
                val eparams = typeParamsToExistentials(classSym, classSym.unsafeTypeParams)
                val t = typeRef(pre, classSym, eparams.map(_.tpeHK))
                newExistentialType(eparams, t)
              }
            case tp =>
              assert(sig.charAt(index) != '<', s"sig=$sig, index=$index, tp=$tp")
              tp
          }

          val classSym = classNameToSymbol(subName(c => c == ';' || c == '<'))
          assert(!classSym.isOverloaded, classSym.alternatives)
          var tpe = processClassType(processInner(classSym.tpe))
          while (sig.charAt(index) == '.') {
            accept('.')
            val name = subName(c => c == ';' || c == '<' || c == '.').toTypeName
            val clazz = tpe.member(name)
            tpe = processClassType(processInner(clazz.tpe))
          }
          accept(';')
          tpe
        case ARRAY_TAG =>
          while ('0' <= sig.charAt(index) && sig.charAt(index) <= '9') index += 1
          var elemtp = sig2type(tparams, skiptvs)
          // make unbounded Array[T] where T is a type variable into Array[T with Object]
          // (this is necessary because such arrays have a representation which is incompatible
          // with arrays of primitive types.
          // NOTE that the comparison to Object only works for abstract types bounded by classes that are strict subclasses of Object
          // if the bound is exactly Object, it will have been converted to Any, and the comparison will fail
          // see also RestrictJavaArraysMap (when compiling java sources directly)
          if (elemtp.typeSymbol.isAbstractType && !(elemtp <:< definitions.ObjectClass.tpe)) {
            elemtp = intersectionType(List(elemtp, definitions.ObjectClass.tpe))
          }

          definitions.arrayType(elemtp)
        case '(' =>
          // we need a method symbol. given in line 486 by calling getType(methodSym, ..)
          assert(sym ne null, sig)
          val paramtypes = new ListBuffer[Type]()
          while (sig.charAt(index) != ')') {
            paramtypes += objToAny(sig2type(tparams, skiptvs))
          }
          index += 1
          val restype = if (sym != null && sym.isClassConstructor) {
            accept('V')
            clazz.tpe
          } else
            sig2type(tparams, skiptvs)
          JavaMethodType(sym.newSyntheticValueParams(paramtypes.toList), restype)
        case 'T' =>
          val n = subName(';'.==).toTypeName
          index += 1
          if (skiptvs) definitions.AnyClass.tpe
          else tparams(n).typeConstructor
      }
    } // sig2type(tparams, skiptvs)

    def sig2typeBounds(tparams: immutable.Map[Name, Symbol], skiptvs: Boolean): Type = {
      val ts = new ListBuffer[Type]
      while (sig.charAt(index) == ':') {
        index += 1
        if (sig.charAt(index) != ':') // guard against empty class bound
          ts += objToAny(sig2type(tparams, skiptvs))
      }
      TypeBounds.upper(intersectionType(ts.toList, sym))
    }

    var tparams = classTParams
    val newTParams = new ListBuffer[Symbol]()
    if (sig.charAt(index) == '<') {
      assert(sym != null, sig)
      index += 1
      val start = index
      while (sig.charAt(index) != '>') {
        val tpname = subName(':'.==).toTypeName
        val s = sym.newTypeParameter(tpname)
        tparams = tparams + (tpname -> s)
        sig2typeBounds(tparams, true)
        newTParams += s
      }
      index = start
      while (sig.charAt(index) != '>') {
        val tpname = subName(':'.==).toTypeName
        val s = tparams(tpname)
        s.setInfo(sig2typeBounds(tparams, false))
      }
      accept('>')
    }
    val ownTypeParams = newTParams.toList
    if (!ownTypeParams.isEmpty)
      sym.setInfo(new TypeParamsType(ownTypeParams))
    val tpe =
      if ((sym eq null) || !sym.isClass)
        sig2type(tparams, false)
      else {
        classTParams = tparams
        val parents = new ListBuffer[Type]()
        while (index < end) {
          parents += sig2type(tparams, false)  // here the variance doesnt'matter
        }
        ClassInfoType(parents.toList, instanceScope, sym)
      }
    GenPolyType(ownTypeParams, tpe)
  } // sigToType

  class TypeParamsType(override val typeParams: List[Symbol]) extends LazyType with FlagAgnosticCompleter {
    override def complete(sym: Symbol) { throw new AssertionError("cyclic type dereferencing") }
  }

  def parseAttributes(sym: Symbol, symtype: Type) {
    def convertTo(c: Constant, pt: Type): Constant = {
      if (pt.typeSymbol == definitions.BooleanClass && c.tag == IntTag)
        Constant(c.value != 0)
      else
        c convertTo pt
    }
    def parseAttribute() {
      val attrName = pool.getName(in.nextChar).toTypeName
      val attrLen = in.nextInt
      attrName match {
        case tpnme.SignatureATTR =>
          if (!isScala && !isScalaRaw) {
            val sig = pool.getExternalName(in.nextChar)
            val newType = sigToType(sym, sig)
            sym.setInfo(newType)
          }
          else in.skip(attrLen)
        case tpnme.SyntheticATTR =>
          sym.setFlag(SYNTHETIC | ARTIFACT)
          in.skip(attrLen)
        case tpnme.BridgeATTR =>
          sym.setFlag(BRIDGE)
          in.skip(attrLen)
        case tpnme.DeprecatedATTR =>
          val arg = Literal(Constant("see corresponding Javadoc for more information."))
          sym.addAnnotation(definitions.DeprecatedAttr, arg, Literal(Constant("")))
          in.skip(attrLen)
        case tpnme.ConstantValueATTR =>
          val c = pool.getConstant(in.nextChar)
          val c1 = convertTo(c, symtype)
          if (c1 ne null) sym.setInfo(ConstantType(c1))
          else debugwarn(s"failure to convert $c to $symtype")
        case tpnme.ScalaSignatureATTR =>
          if (!isScalaAnnot) {
            debugwarn(s"symbol ${sym.fullName} has pickled signature in attribute")
            unpickler.unpickle(in.buf, in.bp, clazz, staticModule, in.file.name)
          }
          in.skip(attrLen)
        case tpnme.ScalaATTR =>
          isScalaRaw = true
         // Attribute on methods of java annotation classes when that method has a default
        case tpnme.AnnotationDefaultATTR =>
          sym.addAnnotation(definitions.AnnotationDefaultAttr)
          in.skip(attrLen)
        // Java annotations on classes / methods / fields with RetentionPolicy.RUNTIME
        case tpnme.RuntimeAnnotationATTR =>
          if (isScalaAnnot || !isScala) {
            val scalaSigAnnot = parseAnnotations(attrLen)
            if (isScalaAnnot)
              scalaSigAnnot match {
                case Some(san: AnnotationInfo) =>
                  val bytes =
                    san.assocs.find({ _._1 == nme.bytes }).get._2.asInstanceOf[ScalaSigBytes].bytes
                  unpickler.unpickle(bytes, 0, clazz, staticModule, in.file.name)
                case None =>
                  throw new RuntimeException("Scala class file does not contain Scala annotation")
              }
            debuglog("[class] << " + sym.fullName + sym.annotationsString)
          }
          else
            in.skip(attrLen)

        // TODO 1: parse runtime visible annotations on parameters
        // case tpnme.RuntimeParamAnnotationATTR

        // TODO 2: also parse RuntimeInvisibleAnnotation / RuntimeInvisibleParamAnnotation,
        // i.e. java annotations with RetentionPolicy.CLASS?

        case tpnme.ExceptionsATTR if (!isScala) =>
          parseExceptions(attrLen)

        case tpnme.SourceFileATTR =>
          val srcfileLeaf = pool.getName(in.nextChar).toString.trim
          val srcpath = sym.enclosingPackage match {
            case NoSymbol => srcfileLeaf
            case rootMirror.EmptyPackage => srcfileLeaf
            case pkg => pkg.fullName(File.separatorChar)+File.separator+srcfileLeaf
          }
          srcfile0 = settings.outputDirs.srcFilesFor(in.file, srcpath).find(_.exists)
        case tpnme.CodeATTR =>
          if (sym.owner.isInterface) {
            sym setFlag DEFAULTMETHOD
            log(s"$sym in ${sym.owner} is a java8+ default method.")
          }
          in.skip(attrLen)
        case _ =>
          in.skip(attrLen)
      }
    }

    def parseAnnotArg: Option[ClassfileAnnotArg] = {
      val tag = in.nextByte.toChar
      val index = in.nextChar
      tag match {
        case STRING_TAG =>
          Some(LiteralAnnotArg(Constant(pool.getName(index).toString)))
        case BOOL_TAG | BYTE_TAG | CHAR_TAG | SHORT_TAG | INT_TAG |
             LONG_TAG | FLOAT_TAG | DOUBLE_TAG =>
          Some(LiteralAnnotArg(pool.getConstant(index)))
        case CLASS_TAG  =>
          Some(LiteralAnnotArg(Constant(pool.getType(index))))
        case ENUM_TAG   =>
          val t = pool.getType(index)
          val n = pool.getName(in.nextChar)
          val s = t.typeSymbol.companionModule.info.decls.lookup(n)
          assert(s != NoSymbol, t)
          Some(LiteralAnnotArg(Constant(s)))
        case ARRAY_TAG  =>
          val arr = new ArrayBuffer[ClassfileAnnotArg]()
          var hasError = false
          for (i <- 0 until index)
            parseAnnotArg match {
              case Some(c) => arr += c
              case None => hasError = true
            }
          if (hasError) None
          else Some(ArrayAnnotArg(arr.toArray))
        case ANNOTATION_TAG =>
          parseAnnotation(index) map (NestedAnnotArg(_))
      }
    }

    def parseScalaSigBytes: Option[ScalaSigBytes] = {
      val tag = in.nextByte.toChar
      assert(tag == STRING_TAG, tag)
      Some(ScalaSigBytes(pool getBytes in.nextChar))
    }

    def parseScalaLongSigBytes: Option[ScalaSigBytes] = {
      val tag = in.nextByte.toChar
      assert(tag == ARRAY_TAG, tag)
      val stringCount = in.nextChar
      val entries =
        for (i <- 0 until stringCount) yield {
          val stag = in.nextByte.toChar
          assert(stag == STRING_TAG, stag)
          in.nextChar.toInt
        }
      Some(ScalaSigBytes(pool.getBytes(entries.toList)))
    }

    /** Parse and return a single annotation.  If it is malformed,
     *  return None.
     */
    def parseAnnotation(attrNameIndex: Char): Option[AnnotationInfo] = try {
      val attrType = pool.getType(attrNameIndex)
      val nargs = in.nextChar
      val nvpairs = new ListBuffer[(Name, ClassfileAnnotArg)]
      var hasError = false
      for (i <- 0 until nargs) {
        val name = pool.getName(in.nextChar)
        // The "bytes: String" argument of the ScalaSignature attribute is parsed specially so that it is
        // available as an array of bytes (the pickled Scala signature) instead of as a string. The pickled signature
        // is encoded as a string because of limitations in the Java class file format.
        if ((attrType == definitions.ScalaSignatureAnnotation.tpe) && (name == nme.bytes))
          parseScalaSigBytes match {
            case Some(c) => nvpairs += ((name, c))
            case None => hasError = true
          }
        else if ((attrType == definitions.ScalaLongSignatureAnnotation.tpe) && (name == nme.bytes))
          parseScalaLongSigBytes match {
            case Some(c) => nvpairs += ((name, c))
            case None => hasError = true
          }
        else
          parseAnnotArg match {
            case Some(c) => nvpairs += ((name, c))
            case None => hasError = true
          }
      }
      if (hasError) None
      else Some(AnnotationInfo(attrType, List(), nvpairs.toList))
    }
    catch {
      case f: FatalError       => throw f  // don't eat fatal errors, they mean a class was not found
      case ex: java.lang.Error => throw ex
      case ex: Throwable       =>
        // We want to be robust when annotations are unavailable, so the very least
        // we can do is warn the user about the exception
        // There was a reference to ticket 1135, but that is outdated: a reference to a class not on
        // the classpath would *not* end up here. A class not found is signaled
        // with a `FatalError` exception, handled above. Here you'd end up after a NPE (for example),
        // and that should never be swallowed silently.
        warning(s"Caught: $ex while parsing annotations in ${in.file}")
        if (settings.debug.value) ex.printStackTrace()

        None // ignore malformed annotations
    }

    /**
     * Parse the "Exceptions" attribute which denotes the exceptions
     * thrown by a method.
     */
    def parseExceptions(len: Int) {
      val nClasses = in.nextChar
      for (n <- 0 until nClasses) {
        // FIXME: this performs an equivalent of getExceptionTypes instead of getGenericExceptionTypes (SI-7065)
        val cls = pool.getClassSymbol(in.nextChar.toInt)
        // we call initialize due to the fact that we call Symbol.isMonomorphicType in addThrowsAnnotation
        // and that method requires Symbol to be forced to give the right answers, see SI-7107 for details
        cls.initialize
        sym.addThrowsAnnotation(cls)
      }
    }

    /** Parse a sequence of annotations and attaches them to the
     *  current symbol sym, except for the ScalaSignature annotation that it returns, if it is available. */
    def parseAnnotations(len: Int): Option[AnnotationInfo] =  {
      val nAttr = in.nextChar
      var scalaSigAnnot: Option[AnnotationInfo] = None
      for (n <- 0 until nAttr)
        parseAnnotation(in.nextChar) match {
          case Some(scalaSig) if (scalaSig.atp == definitions.ScalaSignatureAnnotation.tpe) =>
            scalaSigAnnot = Some(scalaSig)
          case Some(scalaSig) if (scalaSig.atp == definitions.ScalaLongSignatureAnnotation.tpe) =>
            scalaSigAnnot = Some(scalaSig)
          case Some(annot) =>
            sym.addAnnotation(annot)
          case None =>
        }
      scalaSigAnnot
    }

    // begin parseAttributes
    for (i <- 0 until in.nextChar) parseAttribute()
  }

  /** Enter own inner classes in the right scope. It needs the scopes to be set up,
   *  and implicitly current class' superclasses.
   */
  private def enterOwnInnerClasses() {
    def className(name: Name): Name =
      name.subName(name.lastPos('.') + 1, name.length)

    def enterClassAndModule(entry: InnerClassEntry, file: AbstractFile, jflags: Int) {
      val completer   = new global.loaders.ClassfileLoader(file)
      val name        = entry.originalName
      var sflags      = toScalaClassFlags(jflags)
      val owner       = getOwner(jflags)
      val scope       = getScope(jflags)
      val innerClass  = owner.newClass(name.toTypeName, NoPosition, sflags) setInfo completer
      val innerModule = owner.newModule(name.toTermName, NoPosition, sflags) setInfo completer

      innerModule.moduleClass setInfo global.loaders.moduleClassLoader
      List(innerClass, innerModule.moduleClass) foreach (_.associatedFile = file)

      scope enter innerClass
      scope enter innerModule

      val decls = innerClass.enclosingPackage.info.decls
      def unlinkIfPresent(name: Name) = {
        val e = decls lookupEntry name
        if (e ne null)
          decls unlink e
      }

      val cName = className(entry.externalName)
      unlinkIfPresent(cName.toTermName)
      unlinkIfPresent(cName.toTypeName)
    }

    for (entry <- innerClasses.entries) {
      // create a new class member for immediate inner classes
      if (entry.outerName == currentClass) {
        val file = global.classPath.findSourceFile(entry.externalName.toString) getOrElse {
          throw new AssertionError(entry.externalName)
        }
        enterClassAndModule(entry, file, entry.jflags)
      }
    }
  }

  /** Parse inner classes. Expects `in.bp` to point to the superclass entry.
   *  Restores the old `bp`.
   */
  def parseInnerClasses() {
    val oldbp = in.bp
    skipSuperclasses()
    skipMembers() // fields
    skipMembers() // methods
    val attrs = in.nextChar
    for (i <- 0 until attrs) {
      val attrName = pool.getName(in.nextChar).toTypeName
      val attrLen = in.nextInt
      attrName match {
        case tpnme.SignatureATTR =>
          in.skip(attrLen)
        case tpnme.ScalaSignatureATTR =>
          isScala = true
          val pbuf = new PickleBuffer(in.buf, in.bp, in.bp + attrLen)
          pbuf.readNat; pbuf.readNat;
          if (pbuf.readNat == 0) // a scala signature attribute with no entries means that the actual scala signature
            isScalaAnnot = true    // is in a ScalaSignature annotation.
          in.skip(attrLen)
        case tpnme.ScalaATTR =>
          isScalaRaw = true
        case tpnme.InnerClassesATTR if !isScala =>
          val entries = in.nextChar.toInt
          for (i <- 0 until entries) {
            val innerIndex, outerIndex, nameIndex, jflags = in.nextChar.toInt
            if (innerIndex != 0 && outerIndex != 0 && nameIndex != 0)
              innerClasses add InnerClassEntry(innerIndex, outerIndex, nameIndex, jflags)
          }
        case _ =>
          in.skip(attrLen)
      }
    }
    in.bp = oldbp
  }

  /** An entry in the InnerClasses attribute of this class file. */
  case class InnerClassEntry(external: Int, outer: Int, name: Int, jflags: Int) {
    def externalName = pool getClassName external
    def outerName    = pool getClassName outer
    def originalName = pool getName name
    def isStatic     = ClassfileParser.this.isStatic(jflags)
    def isModule     = originalName.isTermName
    def scope        = if (isStatic) staticScope else instanceScope
    def enclosing    = if (isStatic) enclModule else enclClass

    // The name of the outer class, without its trailing $ if it has one.
    private def strippedOuter = nme stripModuleSuffix outerName
    private def isInner       = innerClasses contains strippedOuter
    private def enclClass     = if (isInner) innerClasses innerSymbol strippedOuter else classNameToSymbol(strippedOuter)
    private def enclModule    = enclClass.companionModule

    private def staticWord = if (isStatic) "static " else ""
    override def toString = s"$staticWord$originalName in $outerName ($externalName)"
  }

  /** Return the Symbol of the top level class enclosing `name`,
   *  or the symbol of `name` itself if no enclosing classes are found.
   */
  def topLevelClass(name: Name): Symbol = innerClasses getEntry name match {
    case Some(entry) => topLevelClass(entry.outerName)
    case _           => classNameToSymbol(name)
  }

  /** Return the class symbol for the given name. It looks it up in its outer class.
   *  Forces all outer class symbols to be completed.
   *
   *  If the given name is not an inner class, it returns the symbol found in `definitions`.
   */
  object innerClasses {
    private val inners = mutable.HashMap[Name, InnerClassEntry]()

    def contains(name: Name) = inners contains name
    def getEntry(name: Name) = inners get name
    def entries              = inners.values

    def add(entry: InnerClassEntry): Unit = {
      inners get entry.externalName foreach (existing =>
        debugwarn(s"Overwriting inner class entry! Was $existing, now $entry")
      )
      inners(entry.externalName) = entry
    }
    def innerSymbol(externalName: Name): Symbol = this getEntry externalName match {
      case Some(entry) => innerSymbol(entry)
      case _           => NoSymbol
    }
    // if loading during initialization of `definitions` typerPhase is not yet set.
    // in that case we simply load the member at the current phase
    @inline private def enteringTyperIfPossible(body: => Symbol): Symbol =
      if (currentRun.typerPhase eq null) body else beforeTyper(body)

    private def innerSymbol(entry: InnerClassEntry): Symbol = {
      val name      = entry.originalName.toTypeName
      val enclosing = entry.enclosing
      def getMember = (
        if (enclosing == clazz) entry.scope lookup name
        else enclosing.info member name
      )
      enteringTyperIfPossible(getMember)
      /** There used to be an assertion that this result is not NoSymbol; changing it to an error
       *  revealed it had been going off all the time, but has been swallowed by a catch t: Throwable
       *  in Repository.scala. Since it has been accomplishing nothing except misleading anyone who
       *  thought it wasn't triggering, I removed it entirely.
       */
    }
  }

  class LazyAliasType(alias: Symbol) extends LazyType with FlagAgnosticCompleter {
    override def complete(sym: Symbol) {
      sym setInfo createFromClonedSymbols(alias.initialize.typeParams, alias.tpe)(typeFun)
    }
  }

  def skipAttributes() {
    val attrCount = in.nextChar
    for (i <- 0 until attrCount) {
      in.skip(2); in.skip(in.nextInt)
    }
  }

  def skipMembers() {
    val memberCount = in.nextChar
    for (i <- 0 until memberCount) {
      in.skip(6); skipAttributes()
    }
  }

  def skipSuperclasses() {
    in.skip(2) // superclass
    val ifaces = in.nextChar
    in.skip(2 * ifaces)
  }

  protected def getOwner(flags: Int): Symbol =
    if (isStatic(flags)) moduleClass else clazz

  protected def getScope(flags: Int): Scope =
    if (isStatic(flags)) staticScope else instanceScope

  private def isPrivate(flags: Int)     = (flags & JAVA_ACC_PRIVATE) != 0
  private def isStatic(flags: Int)      = (flags & JAVA_ACC_STATIC) != 0
  private def hasAnnotation(flags: Int) = (flags & JAVA_ACC_ANNOTATION) != 0
}