/* NSC -- new Scala compiler * Copyright 2005-2009 LAMP/EPFL * @author Martin Odersky */ // $Id: Unapplies.scala 18406 2009-07-30 07:41:22Z odersky $ package scala.tools.nsc package typechecker import symtab.Flags._ /* * @author Martin Odersky * @version 1.0 */ trait Unapplies extends ast.TreeDSL { self: Analyzer => import global._ import definitions._ import CODE.{ CASE => _, _ } private def isVarargs(vd: ValDef) = treeInfo isRepeatedParamType vd.tpt private def isByName(vd: ValDef) = treeInfo isByNameParamType vd.tpt private def toIdent(x: DefTree) = Ident(x.name) setPos x.pos.focus /** returns type list for return type of the extraction */ def unapplyTypeList(ufn: Symbol, ufntpe: Type) = { assert(ufn.isMethod) //Console.println("utl "+ufntpe+" "+ufntpe.typeSymbol) ufn.name match { case nme.unapply => unapplyTypeListFromReturnType(ufntpe) case nme.unapplySeq => unapplyTypeListFromReturnTypeSeq(ufntpe) case _ => throw new TypeError(ufn+" is not an unapply or unapplySeq") } } /** (the inverse of unapplyReturnTypeSeq) * for type Boolean, returns Nil * for type Option[T] or Some[T]: * - returns T0...Tn if n>0 and T <: Product[T0...Tn]] * - returns T otherwise */ def unapplyTypeListFromReturnType(tp1: Type): List[Type] = { val tp = unapplyUnwrap(tp1) tp.typeSymbol match { // unapplySeqResultToMethodSig case BooleanClass => Nil case OptionClass | SomeClass => val prod = tp.typeArgs.head getProductArgs(prod) match { case Some(xs) if xs.size > 1 => xs // n > 1 case _ => List(prod) // special n == 0 || n == 1 } case _ => throw new TypeError("result type "+tp+" of unapply not in {Boolean, Option[_], Some[_]}") } } /** let type be the result type of the (possibly polymorphic) unapply method * for type Option[T] or Some[T] * -returns T0...Tn-1,Tn* if n>0 and T <: Product[T0...Tn-1,Seq[Tn]]], * -returns R* if T = Seq[R] */ def unapplyTypeListFromReturnTypeSeq(tp1: Type): List[Type] = { val tp = unapplyUnwrap(tp1) tp.typeSymbol match { case OptionClass | SomeClass => val ts = unapplyTypeListFromReturnType(tp1) val last1 = (ts.last baseType SeqClass) match { case TypeRef(pre, seqClass, args) => typeRef(pre, RepeatedParamClass, args) // XXX seqClass or SeqClass? case _ => throw new TypeError("last not seq") } ts.init ::: List(last1) case _ => throw new TypeError("result type "+tp+" of unapply not in {Option[_], Some[_]}") } } /** returns type of the unapply method returning T_0...T_n * for n == 0, boolean * for n == 1, Some[T0] * else Some[Product[Ti]] */ def unapplyReturnTypeExpected(argsLength: Int) = argsLength match { case 0 => BooleanClass.tpe case 1 => optionType(WildcardType) case n => optionType(productType((List fill n)(WildcardType))) } /** returns unapply or unapplySeq if available */ def unapplyMember(tp: Type): Symbol = (tp member nme.unapply) match { case NoSymbol => tp member nme.unapplySeq case unapp => unapp } def copyUntyped[T <: Tree](tree: T): T = applyAndReturn[T](UnTyper traverse _)(tree.duplicate) def copyUntypedInvariant(td: TypeDef): TypeDef = applyAndReturn[TypeDef](UnTyper traverse _)( treeCopy.TypeDef(td, td.mods &~ (COVARIANT | CONTRAVARIANT), td.name, td.tparams, td.rhs).duplicate ) private def classType(cdef: ClassDef, tparams: List[TypeDef]): Tree = { val tycon = REF(cdef.symbol) if (tparams.isEmpty) tycon else AppliedTypeTree(tycon, tparams map toIdent) } private def constrParamss(cdef: ClassDef): List[List[ValDef]] = { val DefDef(_, _, _, vparamss, _, _) = treeInfo firstConstructor cdef.impl.body vparamss map (_ map copyUntyped[ValDef]) } /** The return value of an unapply method of a case class C[Ts] * @param param The name of the parameter of the unapply method, assumed to be of type C[Ts] * @param caseclazz The case class C[Ts] */ private def caseClassUnapplyReturnValue(param: Name, caseclazz: Symbol) = { def caseFieldAccessorValue(selector: Symbol): Tree = Ident(param) DOT selector caseclazz.caseFieldAccessors match { case Nil => TRUE case xs => SOME(xs map caseFieldAccessorValue: _*) } } /** The module corresponding to a case class; without any member definitions */ def caseModuleDef(cdef: ClassDef): ModuleDef = { def inheritFromFun1 = !(cdef.mods hasFlag ABSTRACT) && cdef.tparams.isEmpty && constrParamss(cdef).length == 1 def createFun1 = gen.scalaFunctionConstr(constrParamss(cdef).head map (_.tpt), toIdent(cdef)) def parents = if (inheritFromFun1) List(createFun1) else Nil companionModuleDef(cdef, parents ::: List(gen.scalaScalaObjectConstr)) } def companionModuleDef(cdef: ClassDef, parents: List[Tree]): ModuleDef = atPos(cdef.pos.focus) { ModuleDef( Modifiers(cdef.mods.flags & AccessFlags | SYNTHETIC, cdef.mods.privateWithin), cdef.name.toTermName, Template(parents, emptyValDef, NoMods, Nil, List(Nil), Nil, cdef.impl.pos.focus)) } private val caseMods = Modifiers(SYNTHETIC | CASE) /** The apply method corresponding to a case class */ def caseModuleApplyMeth(cdef: ClassDef): DefDef = { val tparams = cdef.tparams map copyUntypedInvariant val cparamss = constrParamss(cdef) atPos(cdef.pos.focus)( DefDef(caseMods, nme.apply, tparams, cparamss, classType(cdef, tparams), New(classType(cdef, tparams), cparamss map (_ map gen.paramToArg))) ) } /** The unapply method corresponding to a case class */ def caseModuleUnapplyMeth(cdef: ClassDef): DefDef = { val tparams = cdef.tparams map copyUntypedInvariant val paramName = newTermName("x$0") val method = constrParamss(cdef) match { case xs :: _ if !xs.isEmpty && isVarargs(xs.last) => nme.unapplySeq case _ => nme.unapply } val cparams = List(ValDef(Modifiers(PARAM | SYNTHETIC), paramName, classType(cdef, tparams), EmptyTree)) atPos(cdef.pos.focus)( DefDef(caseMods, method, tparams, List(cparams), TypeTree(), caseClassUnapplyReturnValue(paramName, cdef.symbol)) ) } def caseClassCopyMeth(cdef: ClassDef): Option[DefDef] = { def isDisallowed(vd: ValDef) = isVarargs(vd) || isByName(vd) val cparamss = constrParamss(cdef) val flat = cparamss flatten if (flat.isEmpty || (cdef.symbol hasFlag ABSTRACT) || (flat exists isDisallowed)) None else { val tparams = cdef.tparams map copyUntypedInvariant // the parameter types have to be exactly the same as the constructor's parameter types; so it's // not good enough to just duplicated the (untyped) tpt tree; the parameter types are removed here // and re-added in ``finishWith'' in the namer. def paramWithDefault(vd: ValDef) = treeCopy.ValDef(vd, vd.mods | DEFAULTPARAM, vd.name, atPos(vd.pos.focus)(TypeTree() setOriginal vd.tpt), toIdent(vd)) val paramss = cparamss map (_ map paramWithDefault) val classTpe = classType(cdef, tparams) Some(atPos(cdef.pos.focus)( DefDef(Modifiers(SYNTHETIC), nme.copy, tparams, paramss, classTpe, New(classTpe, paramss map (_ map toIdent))) )) } } }