package dotty.tools
package dotc
package core
package classfile
import Contexts._, Symbols._, Types._, Names._, StdNames._, NameOps._, Scopes._, Decorators._
import SymDenotations._, unpickleScala2.Scala2Unpickler._, Constants._, Annotations._, util.Positions._
import ast.tpd._
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 typer.Checking.checkNonCyclic
import io.AbstractFile
import scala.util.control.NonFatal
object ClassfileParser {
/** Marker trait for unpicklers that can be embedded in classfiles. */
trait Embedded
}
class ClassfileParser(
classfile: AbstractFile,
classRoot: ClassDenotation,
moduleRoot: ClassDenotation)(ictx: Context) {
import ClassfileConstants._
import ClassfileParser._
protected val in = new AbstractFileReader(classfile)
protected val staticModule: Symbol = moduleRoot.sourceModule(ictx)
protected val instanceScope: MutableScope = newScope // the scope of all instance definitions
protected val staticScope: MutableScope = newScope // the scope of all static definitions
protected var pool: ConstantPool = _ // the classfile's constant pool
protected var currentClassName: Name = _ // JVM name of the current class
protected var classTParams = Map[Name,Symbol]()
classRoot.info = (new NoCompleter).withDecls(instanceScope)
moduleRoot.info = (new NoCompleter).withDecls(staticScope).withSourceModule(_ => staticModule)
private def currentIsTopLevel(implicit ctx: Context) = classRoot.owner is Flags.PackageClass
private def mismatchError(c: Symbol) =
throw new IOException(s"class file '${in.file}' has location not matching its contents: contains $c")
def run()(implicit ctx: Context): Option[Embedded] = try {
ctx.debuglog("[class] >> " + classRoot.fullName)
parseHeader
this.pool = new ConstantPool
parseClass()
} catch {
case e: RuntimeException =>
if (ctx.debug) e.printStackTrace()
throw new IOException(
i"""class file $classfile is broken, reading aborted with ${e.getClass}
|${Option(e.getMessage).getOrElse("")}""")
}
private def parseHeader(): Unit = {
val magic = in.nextInt
if (magic != JAVA_MAGIC)
throw new IOException(s"class file '${in.file}' has wrong magic number 0x${toHexString(magic)}, should be 0x${toHexString(JAVA_MAGIC)}")
val minorVersion = in.nextChar.toInt
val majorVersion = in.nextChar.toInt
if ((majorVersion < JAVA_MAJOR_VERSION) ||
((majorVersion == JAVA_MAJOR_VERSION) &&
(minorVersion < JAVA_MINOR_VERSION)))
throw new IOException(
s"class file '${in.file}' has unknown version $majorVersion.$minorVersion, should be at least $JAVA_MAJOR_VERSION.$JAVA_MINOR_VERSION")
}
/** Return the class symbol of the given name. */
def classNameToSymbol(name: Name)(implicit ctx: Context): Symbol = innerClasses.get(name) match {
case Some(entry) => innerClasses.classSymbol(entry.externalName)
case None => ctx.requiredClass(name)
}
var sawPrivateConstructor = false
def parseClass()(implicit ctx: Context): Option[Embedded] = {
val jflags = in.nextChar
val isAnnotation = hasAnnotation(jflags)
val sflags = classTranslation.flags(jflags)
val isEnum = (jflags & JAVA_ACC_ENUM) != 0
val nameIdx = in.nextChar
currentClassName = pool.getClassName(nameIdx)
if (currentIsTopLevel) {
val c = pool.getClassSymbol(nameIdx)
if (c != classRoot.symbol) mismatchError(c)
}
addEnclosingTParams()
/** 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] = {
val superType = if (isAnnotation) { in.nextChar; defn.AnnotationType }
else pool.getSuperClass(in.nextChar).typeRef
val ifaceCount = in.nextChar
var ifaces = for (i <- (0 until ifaceCount).toList) yield pool.getSuperClass(in.nextChar).typeRef
// Dotty deviation: was
// var ifaces = for (i <- List.range(0 until ifaceCount)) ...
// This does not typecheck because the type parameter of List is now lower-bounded by Int | Char.
// Consequently, no best implicit for the "Integral" evidence parameter of "range"
// is found. If we treat constant subtyping specially, we might be able
// to do something there. But in any case, the until should be more efficient.
if (isAnnotation) ifaces = defn.ClassfileAnnotationType :: ifaces
superType :: ifaces
}
val result = unpickleOrParseInnerClasses()
if (!result.isDefined) {
var classInfo: Type = TempClassInfoType(parseParents, instanceScope, classRoot.symbol)
// might be reassigned by later parseAttributes
val staticInfo = TempClassInfoType(List(), staticScope, moduleRoot.symbol)
enterOwnInnerClasses
classRoot.setFlag(sflags)
moduleRoot.setFlag(Flags.JavaDefined | Flags.ModuleClassCreationFlags)
setPrivateWithin(classRoot, jflags)
setPrivateWithin(moduleRoot, jflags)
setPrivateWithin(moduleRoot.sourceModule, jflags)
for (i <- 0 until in.nextChar) parseMember(method = false)
for (i <- 0 until in.nextChar) parseMember(method = true)
classInfo = parseAttributes(classRoot.symbol, classInfo)
if (isAnnotation) addAnnotationConstructor(classInfo)
val companionClassMethod = ctx.synthesizeCompanionMethod(nme.COMPANION_CLASS_METHOD, classRoot, moduleRoot)
if (companionClassMethod.exists) companionClassMethod.entered
val companionModuleMethod = ctx.synthesizeCompanionMethod(nme.COMPANION_MODULE_METHOD, moduleRoot, classRoot)
if (companionModuleMethod.exists) companionModuleMethod.entered
setClassInfo(classRoot, classInfo)
setClassInfo(moduleRoot, staticInfo)
}
// eager load java enum definitions for exhaustivity check of pattern match
if (isEnum) {
instanceScope.toList.map(_.ensureCompleted())
staticScope.toList.map(_.ensureCompleted())
classRoot.setFlag(Flags.Enum)
moduleRoot.setFlag(Flags.Enum)
}
result
}
/** Add type parameters of enclosing classes */
def addEnclosingTParams()(implicit ctx: Context): Unit = {
var sym = classRoot.owner
while (sym.isClass && !(sym is Flags.ModuleClass)) {
for (tparam <- sym.typeParams) {
classTParams = classTParams.updated(tparam.name.unexpandedName, tparam)
}
sym = sym.owner
}
}
def parseMember(method: Boolean)(implicit ctx: Context): Unit = {
val start = indexCoord(in.bp)
val jflags = in.nextChar
val sflags =
if (method) Flags.Method | methodTranslation.flags(jflags)
else fieldTranslation.flags(jflags)
val name = pool.getName(in.nextChar)
if (!(sflags is Flags.Private) || name == nme.CONSTRUCTOR || ctx.settings.optimise.value) {
val member = ctx.newSymbol(
getOwner(jflags), name, sflags, memberCompleter, coord = start)
getScope(jflags).enter(member)
}
// skip rest of member for now
in.nextChar // info
skipAttributes
}
val memberCompleter = new LazyType {
def complete(denot: SymDenotation)(implicit ctx: Context): Unit = {
val oldbp = in.bp
try {
in.bp = denot.symbol.coord.toIndex
val sym = denot.symbol
val jflags = in.nextChar
val isEnum = (jflags & JAVA_ACC_ENUM) != 0
val name = pool.getName(in.nextChar)
val isConstructor = name eq nme.CONSTRUCTOR
/** Strip leading outer param from constructor.
* Todo: Also strip trailing access tag for private inner constructors?
*/
def stripOuterParamFromConstructor() = innerClasses.get(currentClassName) match {
case Some(entry) if !isStatic(entry.jflags) =>
val mt @ MethodTpe(paramNames, paramTypes, resultType) = denot.info
denot.info = mt.derivedMethodType(paramNames.tail, paramTypes.tail, resultType)
case _ =>
}
/** Make return type of constructor be the enclosing class type,
* and make constructor type polymorphic in the type parameters of the class
*/
def normalizeConstructorInfo() = {
val mt @ MethodType(paramNames) = denot.info
val rt = classRoot.typeRef appliedTo (classRoot.typeParams map (_.typeRef))
denot.info = mt.derivedMethodType(paramNames, mt.paramTypes, rt)
addConstructorTypeParams(denot)
}
denot.info = pool.getType(in.nextChar)
if (isEnum) denot.info = ConstantType(Constant(sym))
if (isConstructor) stripOuterParamFromConstructor()
setPrivateWithin(denot, jflags)
denot.info = translateTempPoly(parseAttributes(sym, denot.info))
if (isConstructor) normalizeConstructorInfo()
if ((denot is Flags.Method) && (jflags & JAVA_ACC_VARARGS) != 0)
denot.info = arrayToRepeated(denot.info)
// seal java enums
if (isEnum) {
val enumClass = sym.owner.linkedClass
if (!(enumClass is Flags.Sealed)) enumClass.setFlag(Flags.AbstractSealed)
enumClass.addAnnotation(Annotation.makeChild(sym))
}
} finally {
in.bp = oldbp
}
}
}
/** Map direct references to Object to references to Any */
final def objToAny(tp: Type)(implicit ctx: Context) =
if (tp.isDirectRef(defn.ObjectClass) && !ctx.phase.erasedTypes) defn.AnyType else tp
private def sigToType(sig: TermName, owner: Symbol = null)(implicit ctx: Context): Type = {
var index = 0
val end = sig.length
def accept(ch: Char): Unit = {
assert(sig(index) == ch, (sig(index), ch))
index += 1
}
def subName(isDelimiter: Char => Boolean): TermName = {
val start = index
while (!isDelimiter(sig(index))) { index += 1 }
sig.slice(start, index)
}
// Warning: sigToType contains nested completers which might be forced in a later run!
// So local methods need their own ctx parameters.
def sig2type(tparams: immutable.Map[Name,Symbol], skiptvs: Boolean)(implicit ctx: Context): Type = {
val tag = sig(index); index += 1
(tag: @switch) match {
case BYTE_TAG => defn.ByteType
case CHAR_TAG => defn.CharType
case DOUBLE_TAG => defn.DoubleType
case FLOAT_TAG => defn.FloatType
case INT_TAG => defn.IntType
case LONG_TAG => defn.LongType
case SHORT_TAG => defn.ShortType
case VOID_TAG => defn.UnitType
case BOOL_TAG => defn.BooleanType
case 'L' =>
def processInner(tp: Type): Type = tp match {
case tp: TypeRef if !(tp.symbol.owner is Flags.ModuleClass) =>
TypeRef(processInner(tp.prefix.widen), tp.name)
case _ =>
tp
}
def processClassType(tp: Type): Type = tp match {
case tp: TypeRef =>
if (sig(index) == '<') {
accept('<')
var tp1: Type = tp
var formals = tp.typeParamSymbols
while (sig(index) != '>') {
sig(index) match {
case variance @ ('+' | '-' | '*') =>
index += 1
val bounds = variance match {
case '+' => objToAny(TypeBounds.upper(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.isDirectRef(defn.AnyClass)) TypeBounds.empty
else TypeBounds.lower(tp)
case '*' => TypeBounds.empty
}
tp1 = RefinedType(tp1, formals.head.name, bounds)
case _ =>
tp1 = RefinedType(tp1, formals.head.name, TypeAlias(sig2type(tparams, skiptvs)))
}
formals = formals.tail
}
accept('>')
tp1
} else tp
case tp =>
assert(sig(index) != '<', tp)
tp
}
val classSym = classNameToSymbol(subName(c => c == ';' || c == '<'))
var tpe = processClassType(processInner(classSym.typeRef))
while (sig(index) == '.') {
accept('.')
val name = subName(c => c == ';' || c == '<' || c == '.').toTypeName
val clazz = tpe.member(name).symbol
tpe = processClassType(processInner(clazz.typeRef))
}
accept(';')
tpe
case ARRAY_TAG =>
while ('0' <= sig(index) && sig(index) <= '9') index += 1
var elemtp = sig2type(tparams, skiptvs)
// make unbounded Array[T] where T is a type variable into Ar ray[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.derivesFrom(defn.ObjectClass))) {
elemtp = AndType(elemtp, defn.ObjectType)
}
defn.ArrayOf(elemtp)
case '(' =>
// we need a method symbol. given in line 486 by calling getType(methodSym, ..)
val paramtypes = new ListBuffer[Type]()
var paramnames = new ListBuffer[TermName]()
while (sig(index) != ')') {
paramnames += nme.syntheticParamName(paramtypes.length)
paramtypes += objToAny(sig2type(tparams, skiptvs))
}
index += 1
val restype = sig2type(tparams, skiptvs)
JavaMethodType(paramnames.toList, paramtypes.toList, restype)
case 'T' =>
val n = subName(';'.==).toTypeName
index += 1
//assert(tparams contains n, s"classTparams = $classTParams, tparams = $tparams, key = $n")
if (skiptvs) defn.AnyType else tparams(n).typeRef
}
} // sig2type(tparams, skiptvs)
def sig2typeBounds(tparams: immutable.Map[Name, Symbol], skiptvs: Boolean)(implicit ctx: Context): Type = {
val ts = new ListBuffer[Type]
while (sig(index) == ':') {
index += 1
if (sig(index) != ':') // guard against empty class bound
ts += objToAny(sig2type(tparams, skiptvs))
}
TypeBounds.upper(((NoType: Type) /: ts)(_ & _) orElse defn.AnyType)
}
var tparams = classTParams
def typeParamCompleter(start: Int) = new LazyType {
def complete(denot: SymDenotation)(implicit ctx: Context): Unit = {
val savedIndex = index
try {
index = start
denot.info =
checkNonCyclic( // we need the checkNonCyclic call to insert LazyRefs for F-bounded cycles
denot.symbol,
sig2typeBounds(tparams, skiptvs = false),
reportErrors = false)
} finally {
index = savedIndex
}
}
}
val newTParams = new ListBuffer[Symbol]()
if (sig(index) == '<') {
assert(owner != null)
index += 1
val start = index
while (sig(index) != '>') {
val tpname = subName(':'.==).toTypeName
val expname = if (owner.isClass) tpname.expandedName(owner) else tpname
val s = ctx.newSymbol(
owner, expname, owner.typeParamCreationFlags,
typeParamCompleter(index), coord = indexCoord(index))
if (owner.isClass) owner.asClass.enter(s)
tparams = tparams + (tpname -> s)
sig2typeBounds(tparams, skiptvs = true)
newTParams += s
}
index += 1
}
val ownTypeParams = newTParams.toList.asInstanceOf[List[TypeSymbol]]
val tpe =
if ((owner == null) || !owner.isClass)
sig2type(tparams, skiptvs = false)
else {
classTParams = tparams
val parents = new ListBuffer[Type]()
while (index < end) {
parents += sig2type(tparams, skiptvs = false) // here the variance doesnt'matter
}
TempClassInfoType(parents.toList, instanceScope, owner)
}
if (ownTypeParams.isEmpty) tpe else TempPolyType(ownTypeParams, tpe)
} // sigToType
def parseAnnotArg(skip: Boolean = false)(implicit ctx: Context): Option[Tree] = {
val tag = in.nextByte.toChar
val index = in.nextChar
tag match {
case STRING_TAG =>
if (skip) None else Some(Literal(Constant(pool.getName(index).toString)))
case BOOL_TAG | BYTE_TAG | CHAR_TAG | SHORT_TAG | INT_TAG |
LONG_TAG | FLOAT_TAG | DOUBLE_TAG =>
if (skip) None else Some(Literal(pool.getConstant(index)))
case CLASS_TAG =>
if (skip) None else Some(Literal(Constant(pool.getType(index))))
case ENUM_TAG =>
val t = pool.getType(index)
val n = pool.getName(in.nextChar)
val module = t.typeSymbol.companionModule
val s = module.info.decls.lookup(n)
if (skip) {
None
} else if (s != NoSymbol) {
Some(Literal(Constant(s)))
} else {
ctx.warning(s"""While parsing annotations in ${in.file}, could not find $n in enum $module.\nThis is likely due to an implementation restriction: an annotation argument cannot refer to a member of the annotated class (SI-7014).""")
None
}
case ARRAY_TAG =>
val arr = new ArrayBuffer[Tree]()
var hasError = false
for (i <- 0 until index)
parseAnnotArg(skip) match {
case Some(c) => arr += c
case None => hasError = true
}
if (hasError) None
else if (skip) None
else {
val elems = arr.toList
val elemType =
if (elems.isEmpty) defn.ObjectType
else ctx.typeComparer.lub(elems.tpes).widen
Some(JavaSeqLiteral(elems, TypeTree(elemType)))
}
case ANNOTATION_TAG =>
parseAnnotation(index, skip) map (_.tree)
}
}
/** Parse and return a single annotation. If it is malformed,
* return None.
*/
def parseAnnotation(attrNameIndex: Char, skip: Boolean = false)(implicit ctx: Context): Option[Annotation] = try {
val attrType = pool.getType(attrNameIndex)
val nargs = in.nextChar
val argbuf = new ListBuffer[Tree]
var hasError = false
for (i <- 0 until nargs) {
val name = pool.getName(in.nextChar)
parseAnnotArg(skip) match {
case Some(arg) => argbuf += NamedArg(name, arg)
case None => hasError = !skip
}
}
if (hasError || skip) None
else Some(Annotation.deferredResolve(attrType, argbuf.toList))
} catch {
case f: FatalError => throw f // don't eat fatal errors, they mean a class was not found
case NonFatal(ex) =>
// 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.
ctx.warning("Caught: " + ex + " while parsing annotations in " + in.file)
if (ctx.debug) ex.printStackTrace()
None // ignore malformed annotations
}
def parseAttributes(sym: Symbol, symtype: Type)(implicit ctx: Context): Type = {
def convertTo(c: Constant, pt: Type): Constant = {
if (pt == defn.BooleanType && c.tag == IntTag)
Constant(c.value != 0)
else
c convertTo pt
}
var newType = symtype
def parseAttribute(): Unit = {
val attrName = pool.getName(in.nextChar).toTypeName
val attrLen = in.nextInt
val end = in.bp + attrLen
attrName match {
case tpnme.SignatureATTR =>
val sig = pool.getExternalName(in.nextChar)
newType = sigToType(sig, sym)
if (ctx.debug && ctx.verbose)
println("" + sym + "; signature = " + sig + " type = " + newType)
case tpnme.SyntheticATTR =>
sym.setFlag(Flags.SyntheticArtifact)
case tpnme.BridgeATTR =>
sym.setFlag(Flags.Bridge)
case tpnme.DeprecatedATTR =>
val msg = Literal(Constant("see corresponding Javadoc for more information."))
val since = Literal(Constant(""))
sym.addAnnotation(Annotation(defn.DeprecatedAnnot, msg, since))
case tpnme.ConstantValueATTR =>
val c = pool.getConstant(in.nextChar)
val c1 = convertTo(c, symtype)
if (c1 ne null) newType = ConstantType(c1)
else println("failure to convert " + c + " to " + symtype); //debug
case tpnme.AnnotationDefaultATTR =>
sym.addAnnotation(Annotation(defn.AnnotationDefaultAnnot, Nil))
// Java annotations on classes / methods / fields with RetentionPolicy.RUNTIME
case tpnme.RuntimeAnnotationATTR =>
parseAnnotations(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 =>
parseExceptions(attrLen)
case tpnme.CodeATTR =>
if (sym.owner is Flags.JavaTrait) {
sym.resetFlag(Flags.Deferred)
sym.owner.resetFlag(Flags.PureInterface)
ctx.log(s"$sym in ${sym.owner} is a java8+ default method.")
}
in.skip(attrLen)
case _ =>
}
in.bp = end
}
/**
* Parse the "Exceptions" attribute which denotes the exceptions
* thrown by a method.
*/
def parseExceptions(len: Int): Unit = {
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)
sym.addAnnotation(ThrowsAnnotation(cls.asClass))
}
}
/** 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): Unit = {
val nAttr = in.nextChar
for (n <- 0 until nAttr)
parseAnnotation(in.nextChar) match {
case Some(annot) =>
sym.addAnnotation(annot)
case None =>
}
}
// begin parseAttributes
for (i <- 0 until in.nextChar) {
parseAttribute()
}
newType
}
/** Add synthetic constructor(s) and potentially also default getters which
* reflects the fields of the annotation with given `classInfo`.
* Annotations in Scala are assumed to get all their arguments as constructor
* parameters. For Java annotations we need to fake it by making up the constructor.
* Note that default getters have type Nothing. That's OK because we need
* them only to signal that the corresponding parameter is optional.
*/
def addAnnotationConstructor(classInfo: Type, tparams: List[TypeSymbol] = Nil)(implicit ctx: Context): Unit = {
def addDefaultGetter(attr: Symbol, n: Int) =
ctx.newSymbol(
owner = moduleRoot.symbol,
name = nme.CONSTRUCTOR.defaultGetterName(n),
flags = attr.flags & Flags.AccessFlags,
info = defn.NothingType).entered
classInfo match {
case classInfo @ TempPolyType(tparams, restpe) if tparams.isEmpty =>
addAnnotationConstructor(restpe, tparams)
case classInfo: TempClassInfoType =>
val attrs = classInfo.decls.toList.filter(_.isTerm)
val targs = tparams.map(_.typeRef)
val paramNames = attrs.map(_.name.asTermName)
val paramTypes = attrs.map(_.info.resultType)
def addConstr(ptypes: List[Type]) = {
val mtype = MethodType(paramNames, ptypes, classRoot.typeRef.appliedTo(targs))
val constrType = if (tparams.isEmpty) mtype else TempPolyType(tparams, mtype)
val constr = ctx.newSymbol(
owner = classRoot.symbol,
name = nme.CONSTRUCTOR,
flags = Flags.Synthetic,
info = constrType
).entered
for ((attr, i) <- attrs.zipWithIndex)
if (attr.hasAnnotation(defn.AnnotationDefaultAnnot)) {
constr.setFlag(Flags.HasDefaultParams)
addDefaultGetter(attr, i)
}
}
addConstr(paramTypes)
// The code below added an extra constructor to annotations where the
// last parameter of the constructor is an Array[X] for some X, the
// array was replaced by a vararg argument. Unfortunately this breaks
// inference when doing:
// @Annot(Array())
// The constructor is overloaded so the expected type of `Array()` is
// WildcardType, and the type parameter of the Array apply method gets
// instantiated to `Nothing` instead of `X`.
// I'm leaving this commented out in case we improve inference to make this work.
// Note that if this is reenabled then JavaParser will also need to be modified
// to add the extra constructor (this was not implemented before).
/*
if (paramTypes.nonEmpty)
paramTypes.last match {
case defn.ArrayOf(elemtp) =>
addConstr(paramTypes.init :+ defn.RepeatedParamType.appliedTo(elemtp))
case _ =>
}
*/
}
}
/** Enter own inner classes in the right scope. It needs the scopes to be set up,
* and implicitly current class' superclasses.
*/
private def enterOwnInnerClasses()(implicit ctx: Context): Unit = {
def className(name: Name): Name = name.drop(name.lastIndexOf('.') + 1)
def enterClassAndModule(entry: InnerClassEntry, file: AbstractFile, jflags: Int) = {
ctx.base.loaders.enterClassAndModule(
getOwner(jflags),
entry.originalName,
new ClassfileLoader(file),
classTranslation.flags(jflags),
getScope(jflags))
}
for (entry <- innerClasses.values) {
// create a new class member for immediate inner classes
if (entry.outerName == currentClassName) {
val file = ctx.platform.classPath.findBinaryFile(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`.
* @return true iff classfile is from Scala, so no Java info needs to be read.
*/
def unpickleOrParseInnerClasses()(implicit ctx: Context): Option[Embedded] = {
val oldbp = in.bp
try {
skipSuperclasses()
skipMembers() // fields
skipMembers() // methods
val attrs = in.nextChar
val attrbp = in.bp
def scan(target: TypeName): Boolean = {
in.bp = attrbp
var i = 0
while (i < attrs && pool.getName(in.nextChar).toTypeName != target) {
val attrLen = in.nextInt
in.skip(attrLen)
i += 1
}
i < attrs
}
def unpickleScala(bytes: Array[Byte]): Some[Embedded] = {
val unpickler = new unpickleScala2.Scala2Unpickler(bytes, classRoot, moduleRoot)(ctx)
unpickler.run()(ctx.addMode(Mode.Scala2Unpickling))
Some(unpickler)
}
def unpickleTASTY(bytes: Array[Byte]): Some[Embedded] = {
val unpickler = new tasty.DottyUnpickler(bytes)
unpickler.enter(roots = Set(classRoot, moduleRoot, moduleRoot.sourceModule))
Some(unpickler)
}
def parseScalaSigBytes: Array[Byte] = {
val tag = in.nextByte.toChar
assert(tag == STRING_TAG, tag)
pool getBytes in.nextChar
}
def parseScalaLongSigBytes: Array[Byte] = {
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
}
pool.getBytes(entries.toList)
}
if (scan(tpnme.TASTYATTR)) {
val attrLen = in.nextInt
return unpickleTASTY(in.nextBytes(attrLen))
}
if (scan(tpnme.RuntimeAnnotationATTR)) {
val attrLen = in.nextInt
val nAnnots = in.nextChar
var i = 0
while (i < nAnnots) {
val attrClass = pool.getType(in.nextChar).typeSymbol
val nArgs = in.nextChar
var j = 0
while (j < nArgs) {
val argName = pool.getName(in.nextChar)
if (argName == nme.bytes)
if (attrClass == defn.ScalaSignatureAnnot)
return unpickleScala(parseScalaSigBytes)
else if (attrClass == defn.ScalaLongSignatureAnnot)
return unpickleScala(parseScalaLongSigBytes)
else if (attrClass == defn.TASTYSignatureAnnot)
return unpickleTASTY(parseScalaSigBytes)
else if (attrClass == defn.TASTYLongSignatureAnnot)
return unpickleTASTY(parseScalaLongSigBytes)
parseAnnotArg(skip = true)
j += 1
}
i += 1
}
}
if (scan(tpnme.InnerClassesATTR)) {
val attrLen = in.nextInt
val entries = in.nextChar.toInt
for (i <- 0 until entries) {
val innerIndex = in.nextChar
val outerIndex = in.nextChar
val nameIndex = in.nextChar
val jflags = in.nextChar
if (innerIndex != 0 && outerIndex != 0 && nameIndex != 0) {
val entry = InnerClassEntry(innerIndex, outerIndex, nameIndex, jflags)
innerClasses(pool.getClassName(innerIndex)) = entry
}
}
}
None
} finally 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)
override def toString =
originalName + " in " + outerName + "(" + externalName + ")"
}
object innerClasses extends scala.collection.mutable.HashMap[Name, InnerClassEntry] {
/** Return the Symbol of the top level class enclosing `name`,
* or 'name's symbol if no entry found for `name`.
*/
def topLevelClass(name: Name)(implicit ctx: Context): Symbol = {
val tlName = if (isDefinedAt(name)) {
var entry = this(name)
while (isDefinedAt(entry.outerName))
entry = this(entry.outerName)
entry.outerName
} else
name
classNameToSymbol(tlName)
}
/** Return the class symbol for `externalName`. 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 `defn`.
*/
def classSymbol(externalName: Name)(implicit ctx: Context): Symbol = {
/** Return the symbol of `innerName`, having the given `externalName`. */
def innerSymbol(externalName: Name, innerName: Name, static: Boolean): Symbol = {
def getMember(sym: Symbol, name: Name)(implicit ctx: Context): Symbol =
if (static)
if (sym == classRoot.symbol) staticScope.lookup(name)
else sym.companionModule.info.member(name).symbol
else
if (sym == classRoot.symbol) instanceScope.lookup(name)
else sym.info.member(name).symbol
innerClasses.get(externalName) match {
case Some(entry) =>
val outerName = entry.outerName.stripModuleClassSuffix
val owner = classSymbol(outerName)
val result = ctx.atPhaseNotLaterThan(ctx.typerPhase) { implicit ctx =>
getMember(owner, innerName.toTypeName)
}
assert(result ne NoSymbol,
i"""failure to resolve inner class:
|externalName = $externalName,
|outerName = $outerName,
|innerName = $innerName
|owner.fullName = ${owner.showFullName}
|while parsing ${classfile}""")
result
case None =>
classNameToSymbol(externalName)
}
}
get(externalName) match {
case Some(entry) =>
innerSymbol(entry.externalName, entry.originalName, isStatic(entry.jflags))
case None =>
classNameToSymbol(externalName)
}
}
}
def skipAttributes(): Unit = {
val attrCount = in.nextChar
for (i <- 0 until attrCount) {
in.skip(2); in.skip(in.nextInt)
}
}
def skipMembers(): Unit = {
val memberCount = in.nextChar
for (i <- 0 until memberCount) {
in.skip(6); skipAttributes()
}
}
def skipSuperclasses(): Unit = {
in.skip(2) // superclass
val ifaces = in.nextChar
in.skip(2 * ifaces)
}
protected def getOwner(flags: Int): Symbol =
if (isStatic(flags)) moduleRoot.symbol else classRoot.symbol
protected def getScope(flags: Int): MutableScope =
if (isStatic(flags)) staticScope else instanceScope
private def setPrivateWithin(denot: SymDenotation, jflags: Int)(implicit ctx: Context): Unit = {
if ((jflags & (JAVA_ACC_PRIVATE | JAVA_ACC_PUBLIC)) == 0)
denot.privateWithin = denot.enclosingPackageClass
}
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
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[TermName](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): TermName = {
if (index <= 0 || len <= index)
errorBadIndex(index)
values(index) match {
case name: TermName => name
case null =>
val start = starts(index)
if (in.buf(start).toInt != CONSTANT_UTF8) errorBadTag(start)
val name = termName(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): TermName = {
if (index <= 0 || len <= index)
errorBadIndex(index)
if (internalized(index) == null)
internalized(index) = getName(index).replace('/', '.')
internalized(index)
}
def getClassSymbol(index: Int)(implicit ctx: Context): 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 (name.isModuleClassName && (name ne nme.nothingRuntimeClass) && (name ne nme.nullRuntimeClass))
// Null$ and Nothing$ ARE classes
c = ctx.requiredModule(name.sourceModuleName)
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): TermName = {
val start = starts(index)
if (in.buf(start).toInt != CONSTANT_CLASS) errorBadTag(start)
getExternalName(in.getChar(start + 1))
}
/** Return a name and a type at the given index.
*/
private def getNameAndType(index: Int, ownerTpe: Type)(implicit ctx: Context): (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)
var tpe = getType(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 tp: MethodType =>
tp.derivedMethodType(tp.paramNames, tp.paramTypes, ownerTpe)
}
p = (name, tpe)
values(index) = p
}
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)(implicit ctx: Context): 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(0) == ARRAY_TAG) {
c = sigToType(name)
values(index) = c
} else {
val sym = classNameToSymbol(name)
values(index) = sym
c = sym.typeRef
}
} else c = value match {
case tp: Type => tp
case cls: Symbol => cls.typeRef
}
c
}
def getType(index: Int)(implicit ctx: Context): Type =
sigToType(getExternalName(index))
def getSuperClass(index: Int)(implicit ctx: Context): Symbol = {
assert(index != 0, "attempt to parse java.lang.Object from classfile")
getClassSymbol(index)
}
def getConstant(index: Int)(implicit ctx: Context): 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.typeRef)
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)
}
}