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|
/* NSC -- new scala compiler
* Copyright 2004-2010 LAMP/EPFL
*/
package scala.tools.nsc
package symtab
package clr
import java.io.IOException
import ch.epfl.lamp.compiler.msil.{Type => MSILType, Attribute => MSILAttribute, _}
import scala.collection.mutable.{HashMap, HashSet}
import classfile.UnPickler
import ch.epfl.lamp.compiler.msil.Type.TMVarUsage
/**
* @author Nikolay Mihaylov
*/
abstract class TypeParser {
val global: Global
import global._
import loaders.clrTypes
//##########################################################################
private var clazz: Symbol = _
private var instanceDefs: Scope = _ // was members
private var staticModule: Symbol = _ // was staticsClass
private var staticDefs: Scope = _ // was statics
protected def statics: Symbol = staticModule.moduleClass
protected var busy: Boolean = false // lock to detect recursive reads
private object unpickler extends UnPickler {
val global: TypeParser.this.global.type = TypeParser.this.global
}
def parse(typ: MSILType, root: Symbol) {
def handleError(e: Throwable) = {
if (settings.debug.value) e.printStackTrace() //debug
throw new IOException("type '" + typ.FullName + "' is broken\n(" + e.getMessage() + ")")
}
assert(!busy)
busy = true
if (root.isModule) {
this.clazz = root.companionClass
this.staticModule = root
} else {
this.clazz = root
this.staticModule = root.companionModule
}
try {
parseClass(typ)
} catch {
case e: FatalError => handleError(e)
case e: RuntimeException => handleError(e)
}
busy = false
}
class TypeParamsType(override val typeParams: List[Symbol]) extends LazyType {
override def complete(sym: Symbol) { throw new AssertionError("cyclic type dereferencing") }
}
/* the names `classTParams' and `newTParams' stem from the forJVM version (ClassfileParser.sigToType())
* but there are differences that should be kept in mind.
* forMSIL, a nested class knows nothing about any type-params in the nesting class,
* therefore newTParams is redundant (other than for recording lexical order),
* it always contains the same elements as classTParams.value */
val classTParams = scala.collection.mutable.Map[Int,Symbol]() // TODO should this be a stack? (i.e., is it possible for >1 invocation to getCLRType on the same TypeParser instance be active )
val newTParams = new scala.collection.mutable.ListBuffer[Symbol]()
val methodTParams = scala.collection.mutable.Map[Int,Symbol]()
private def sig2typeBounds(tvarCILDef: GenericParamAndConstraints): Type = {
val ts = new scala.collection.mutable.ListBuffer[Type]
for (cnstrnt <- tvarCILDef.Constraints) {
ts += getCLRType(cnstrnt) // TODO we're definitely not at or after erasure, no need to call objToAny, right?
}
TypeBounds.upper(intersectionType(ts.toList, clazz))
// TODO variance???
}
private def createViewFromTo(viewSuffix : String, fromTpe : Type, toTpe : Type,
addToboxMethodMap : Boolean, isAddressOf : Boolean) : Symbol = {
val flags = Flags.JAVA | Flags.STATIC | Flags.IMPLICIT; // todo: static? shouldn't be final instead?
val viewMethodType = (msym: Symbol) => JavaMethodType(msym.newSyntheticValueParams(List(fromTpe)), toTpe)
val vmsym = createMethod(nme.view_ + viewSuffix, flags, viewMethodType, null, true);
if (addToboxMethodMap) definitions.boxMethod(clazz) = vmsym
if (isAddressOf) clrTypes.addressOfViews += vmsym
vmsym
}
private def createDefaultConstructor(typ: MSILType) {
val attrs = MethodAttributes.Public | MethodAttributes.RTSpecialName | MethodAttributes.SpecialName // TODO instance
val declType= typ
val method = new ConstructorInfo(declType, attrs, Array[MSILType]())
val flags = Flags.JAVA
val owner = clazz
val methodSym = owner.newMethod(NoPosition, nme.CONSTRUCTOR).setFlag(flags)
val rettype = clazz.tpe
val mtype = methodType(Array[MSILType](), rettype);
val mInfo = mtype(methodSym)
methodSym.setInfo(mInfo)
instanceDefs.enter(methodSym);
clrTypes.constructors(methodSym) = method
}
private def parseClass(typ: MSILType) {
{
val t4c = clrTypes.types.get(clazz)
assert(t4c == None || t4c == Some(typ))
}
clrTypes.types(clazz) = typ
{
val c4t = clrTypes.sym2type.get(typ)
assert(c4t == None || c4t == Some(clazz))
}
clrTypes.sym2type(typ) = clazz
if (typ.IsDefined(clrTypes.SCALA_SYMTAB_ATTR, false)) {
val attrs = typ.GetCustomAttributes(clrTypes.SCALA_SYMTAB_ATTR, false);
assert (attrs.length == 1, attrs.length);
val a = attrs(0).asInstanceOf[MSILAttribute];
assert (a.getConstructor() == clrTypes.SYMTAB_CONSTR);
val symtab = a.getConstructorArguments()(0).asInstanceOf[Array[Byte]]
unpickler.unpickle(symtab, 0, clazz, staticModule, typ.FullName);
val mClass = clrTypes.getType(typ.FullName + "$");
if (mClass != null) {
clrTypes.types(statics) = mClass;
val moduleInstance = mClass.GetField("MODULE$");
assert (moduleInstance != null, mClass);
clrTypes.fields(statics) = moduleInstance;
}
return
}
val flags = translateAttributes(typ)
var clazzBoxed : Symbol = NoSymbol
var clazzMgdPtr : Symbol = NoSymbol
val canBeTakenAddressOf = (typ.IsValueType || typ.IsEnum) && (typ.FullName != "System.Enum")
if(canBeTakenAddressOf) {
clazzBoxed = clazz.owner.newClass(clazz.name.toTypeName append "Boxed")
clazzMgdPtr = clazz.owner.newClass(clazz.name.toTypeName append "MgdPtr")
clrTypes.mdgptrcls4clssym(clazz) = clazzMgdPtr
/* adding typMgdPtr to clrTypes.sym2type should happen early (before metadata for supertypes is parsed,
before metadata for members are parsed) so that clazzMgdPtr can be found by getClRType. */
val typMgdPtr = MSILType.mkByRef(typ)
clrTypes.types(clazzMgdPtr) = typMgdPtr
clrTypes.sym2type(typMgdPtr) = clazzMgdPtr
/* clazzMgdPtr but not clazzBoxed is mapped by clrTypes.types into an msil.Type instance,
because there's no metadata-level representation for a "boxed valuetype" */
val instanceDefsMgdPtr = new Scope
val classInfoMgdPtr = ClassInfoType(definitions.anyvalparam, instanceDefsMgdPtr, clazzMgdPtr)
clazzMgdPtr.setFlag(flags)
clazzMgdPtr.setInfo(classInfoMgdPtr)
}
/* START CLR generics (snippet 1) */
// first pass
for (tvarCILDef <- typ.getSortedTVars() ) {
val tpname = newTypeName(tvarCILDef.Name.replaceAll("!", "")) // TODO are really all type-params named in all assemblies out there? (NO)
val tpsym = clazz.newTypeParameter(NoPosition, tpname)
classTParams.put(tvarCILDef.Number, tpsym)
newTParams += tpsym
// TODO wouldn't the following also be needed later, i.e. during getCLRType
tpsym.setInfo(definitions.AnyClass.tpe)
}
// second pass
for (tvarCILDef <- typ.getSortedTVars() ) {
val tpsym = classTParams(tvarCILDef.Number)
tpsym.setInfo(sig2typeBounds(tvarCILDef)) // we never skip bounds unlike in forJVM
}
/* END CLR generics (snippet 1) */
val ownTypeParams = newTParams.toList
/* START CLR generics (snippet 2) */
if (!ownTypeParams.isEmpty) {
clazz.setInfo(new TypeParamsType(ownTypeParams))
if(typ.IsValueType && !typ.IsEnum) {
clazzBoxed.setInfo(new TypeParamsType(ownTypeParams))
}
}
/* END CLR generics (snippet 2) */
instanceDefs = new Scope
staticDefs = new Scope
val classInfoAsInMetadata = {
val ifaces: Array[MSILType] = typ.getInterfaces()
val superType = if (typ.BaseType() != null) getCLRType(typ.BaseType())
else if (typ.IsInterface()) definitions.ObjectClass.tpe
else definitions.AnyClass.tpe; // this branch activates for System.Object only.
// parents (i.e., base type and interfaces)
val parents = new scala.collection.mutable.ListBuffer[Type]()
parents += superType
for (iface <- ifaces) {
parents += getCLRType(iface) // here the variance doesn't matter
}
// methods, properties, events, fields are entered in a moment
if (canBeTakenAddressOf) {
val instanceDefsBoxed = new Scope
ClassInfoType(parents.toList, instanceDefsBoxed, clazzBoxed)
} else
ClassInfoType(parents.toList, instanceDefs, clazz)
}
val staticInfo = ClassInfoType(List(), staticDefs, statics)
clazz.setFlag(flags)
if (canBeTakenAddressOf) {
clazzBoxed.setInfo( if (ownTypeParams.isEmpty) classInfoAsInMetadata
else polyType(ownTypeParams, classInfoAsInMetadata) )
clazzBoxed.setFlag(flags)
val rawValueInfoType = ClassInfoType(definitions.anyvalparam, instanceDefs, clazz)
clazz.setInfo( if (ownTypeParams.isEmpty) rawValueInfoType
else polyType(ownTypeParams, rawValueInfoType) )
} else {
clazz.setInfo( if (ownTypeParams.isEmpty) classInfoAsInMetadata
else polyType(ownTypeParams, classInfoAsInMetadata) )
}
// TODO I don't remember if statics.setInfo and staticModule.setInfo should also know about type params
statics.setFlag(Flags.JAVA)
statics.setInfo(staticInfo)
staticModule.setFlag(Flags.JAVA)
staticModule.setInfo(statics.tpe)
if (canBeTakenAddressOf) {
// implicit conversions are owned by staticModule.moduleClass
createViewFromTo("2Boxed", clazz.tpe, clazzBoxed.tpe, addToboxMethodMap = true, isAddressOf = false)
// createViewFromTo("2Object", clazz.tpe, definitions.ObjectClass.tpe, addToboxMethodMap = true, isAddressOf = false)
createViewFromTo("2MgdPtr", clazz.tpe, clazzMgdPtr.tpe, addToboxMethodMap = false, isAddressOf = true)
// a return can't have type managed-pointer, thus a dereference-conversion is not needed
// similarly, a method can't declare as return type "boxed valuetype"
if (!typ.IsEnum) {
// a synthetic default constructor for raw-type allows `new X' syntax
createDefaultConstructor(typ)
}
}
// import nested types
for (ntype <- typ.getNestedTypes() if !(ntype.IsNestedPrivate || ntype.IsNestedAssembly || ntype.IsNestedFamANDAssem)
|| ntype.IsInterface /* TODO why shouldn't nested ifaces be type-parsed too? */ )
{
val loader = new loaders.MSILTypeLoader(ntype)
val nclazz = statics.newClass(NoPosition, ntype.Name.toTypeName)
val nmodule = statics.newModule(NoPosition, ntype.Name)
nclazz.setInfo(loader)
nmodule.setInfo(loader)
staticDefs.enter(nclazz)
staticDefs.enter(nmodule)
assert(nclazz.companionModule == nmodule, nmodule)
assert(nmodule.companionClass == nclazz, nclazz)
}
val fields = typ.getFields()
for (field <- fields
if !(field.IsPrivate() || field.IsAssembly() || field.IsFamilyAndAssembly)
if (getCLRType(field.FieldType) != null)
) {
assert (!field.FieldType.IsPointer && !field.FieldType.IsByRef, "CLR requirement")
val flags = translateAttributes(field);
val name = newTermName(field.Name);
val fieldType =
if (field.IsLiteral && !field.FieldType.IsEnum && isDefinedAtgetConstant(getCLRType(field.FieldType)))
ConstantType(getConstant(getCLRType(field.FieldType), field.getValue))
else
getCLRType(field.FieldType)
val owner = if (field.IsStatic()) statics else clazz;
val sym = owner.newValue(NoPosition, name).setFlag(flags).setInfo(fieldType);
// TODO: set private within!!! -> look at typechecker/Namers.scala
(if (field.IsStatic()) staticDefs else instanceDefs).enter(sym);
clrTypes.fields(sym) = field;
}
for (constr <- typ.getConstructors() if !constr.IsStatic() && !constr.IsPrivate() &&
!constr.IsAssembly() && !constr.IsFamilyAndAssembly() && !constr.HasPtrParamOrRetType())
createMethod(constr);
// initially also contains getters and setters of properties.
val methodsSet = new HashSet[MethodInfo]();
methodsSet ++= typ.getMethods();
for (prop <- typ.getProperties) {
val propType: Type = getCLSType(prop.PropertyType);
if (propType != null) {
val getter: MethodInfo = prop.GetGetMethod(true);
val setter: MethodInfo = prop.GetSetMethod(true);
var gparamsLength: Int = -1;
if (!(getter == null || getter.IsPrivate || getter.IsAssembly
|| getter.IsFamilyAndAssembly || getter.HasPtrParamOrRetType))
{
assert(prop.PropertyType == getter.ReturnType);
val gparams: Array[ParameterInfo] = getter.GetParameters();
gparamsLength = gparams.length;
val name: Name = if (gparamsLength == 0) prop.Name else nme.apply;
val flags = translateAttributes(getter);
val owner: Symbol = if (getter.IsStatic) statics else clazz;
val methodSym = owner.newMethod(NoPosition, name).setFlag(flags)
val mtype: Type = if (gparamsLength == 0) PolyType(List(), propType) // .NET properties can't be polymorphic
else methodType(getter, getter.ReturnType)(methodSym)
methodSym.setInfo(mtype);
methodSym.setFlag(Flags.ACCESSOR);
(if (getter.IsStatic) staticDefs else instanceDefs).enter(methodSym)
clrTypes.methods(methodSym) = getter;
methodsSet -= getter;
}
if (!(setter == null || setter.IsPrivate || setter.IsAssembly
|| setter.IsFamilyAndAssembly || setter.HasPtrParamOrRetType))
{
val sparams: Array[ParameterInfo] = setter.GetParameters()
if(getter != null)
assert(getter.IsStatic == setter.IsStatic);
assert(setter.ReturnType == clrTypes.VOID);
if(getter != null)
assert(sparams.length == gparamsLength + 1, "" + getter + "; " + setter);
val name: Name = if (gparamsLength == 0) nme.getterToSetter(prop.Name)
else nme.update;
val flags = translateAttributes(setter);
val mtype = methodType(setter, definitions.UnitClass.tpe);
val owner: Symbol = if (setter.IsStatic) statics else clazz;
val methodSym = owner.newMethod(NoPosition, name).setFlag(flags)
methodSym.setInfo(mtype(methodSym))
methodSym.setFlag(Flags.ACCESSOR);
(if (setter.IsStatic) staticDefs else instanceDefs).enter(methodSym);
clrTypes.methods(methodSym) = setter;
methodsSet -= setter;
}
}
}
/* for (event <- typ.GetEvents) {
// adding += and -= methods to add delegates to an event.
// raising the event ist not possible from outside the class (this is so
// generally in .net world)
val adder: MethodInfo = event.GetAddMethod();
val remover: MethodInfo = event.GetRemoveMethod();
if (!(adder == null || adder.IsPrivate || adder.IsAssembly
|| adder.IsFamilyAndAssembly))
{
assert(adder.ReturnType == clrTypes.VOID);
assert(adder.GetParameters().map(_.ParameterType).toList == List(event.EventHandlerType));
val name = encode("+=");
val flags = translateAttributes(adder);
val mtype: Type = methodType(adder, adder.ReturnType);
createMethod(name, flags, mtype, adder, adder.IsStatic)
methodsSet -= adder;
}
if (!(remover == null || remover.IsPrivate || remover.IsAssembly
|| remover.IsFamilyAndAssembly))
{
assert(remover.ReturnType == clrTypes.VOID);
assert(remover.GetParameters().map(_.ParameterType).toList == List(event.EventHandlerType));
val name = encode("-=");
val flags = translateAttributes(remover);
val mtype: Type = methodType(remover, remover.ReturnType);
createMethod(name, flags, mtype, remover, remover.IsStatic)
methodsSet -= remover;
}
} */
/* Adds view amounting to syntax sugar for a CLR implicit overload.
The long-form syntax can also be supported if "methodsSet -= method" (last statement) is removed.
/* remember, there's typ.getMethods and type.GetMethods */
for (method <- typ.getMethods)
if(!method.HasPtrParamOrRetType &&
method.IsPublic && method.IsStatic && method.IsSpecialName &&
method.Name == "op_Implicit") {
// create a view: typ => method's return type
val viewRetType: Type = getCLRType(method.ReturnType)
val viewParamTypes: List[Type] = method.GetParameters().map(_.ParameterType).map(getCLSType).toList;
/* The spec says "The operator method shall be defined as a static method on either the operand or return type."
* We don't consider the declaring type for the purposes of definitions.functionType,
* instead we regard op_Implicit's argument type and return type as defining the view's signature.
*/
if (viewRetType != null && !viewParamTypes.contains(null)) {
/* The check above applies e.g. to System.Decimal that has a conversion from UInt16, a non-CLS type, whose CLS-mapping returns null */
val funType: Type = definitions.functionType(viewParamTypes, viewRetType);
val flags = Flags.JAVA | Flags.STATIC | Flags.IMPLICIT; // todo: static? shouldn't be final instead?
val viewMethodType = (msym: Symbol) => JavaMethodType(msym.newSyntheticValueParams(viewParamTypes), funType)
val vmsym = createMethod(nme.view_, flags, viewMethodType, method, true);
methodsSet -= method;
}
}
*/
for (method <- methodsSet.iterator)
if (!method.IsPrivate() && !method.IsAssembly() && !method.IsFamilyAndAssembly()
&& !method.HasPtrParamOrRetType)
createMethod(method);
// Create methods and views for delegate support
if (clrTypes.isDelegateType(typ)) {
createDelegateView(typ)
createDelegateChainers(typ)
}
// for enumerations introduce comparison and bitwise logical operations;
// the backend will recognize them and replace them with comparison or
// bitwise logical operations on the primitive underlying type
if (typ.IsEnum) {
val ENUM_CMP_NAMES = List(nme.EQ, nme.NE, nme.LT, nme.LE, nme.GT, nme.GE);
val ENUM_BIT_LOG_NAMES = List(nme.OR, nme.AND, nme.XOR);
val flags = Flags.JAVA | Flags.FINAL
for (cmpName <- ENUM_CMP_NAMES) {
val enumCmp = clazz.newMethod(NoPosition, cmpName)
val enumCmpType = JavaMethodType(enumCmp.newSyntheticValueParams(List(clazz.tpe)), definitions.BooleanClass.tpe)
enumCmp.setFlag(flags).setInfo(enumCmpType)
instanceDefs.enter(enumCmp)
}
for (bitLogName <- ENUM_BIT_LOG_NAMES) {
val enumBitLog = clazz.newMethod(NoPosition, bitLogName)
val enumBitLogType = JavaMethodType(enumBitLog.newSyntheticValueParams(List(clazz.tpe)), clazz.tpe /* was classInfo, infinite typer */)
enumBitLog.setFlag(flags).setInfo(enumBitLogType)
instanceDefs.enter(enumBitLog)
}
}
} // parseClass
private def populateMethodTParams(method: MethodBase, methodSym: MethodSymbol) : List[Symbol] = {
if(!method.IsGeneric) Nil
else {
methodTParams.clear
val newMethodTParams = new scala.collection.mutable.ListBuffer[Symbol]()
// first pass
for (mvarCILDef <- method.getSortedMVars() ) {
val mtpname = newTypeName(mvarCILDef.Name.replaceAll("!", "")) // TODO are really all method-level-type-params named in all assemblies out there? (NO)
val mtpsym = methodSym.newTypeParameter(NoPosition, mtpname)
methodTParams.put(mvarCILDef.Number, mtpsym)
newMethodTParams += mtpsym
// TODO wouldn't the following also be needed later, i.e. during getCLRType
mtpsym.setInfo(definitions.AnyClass.tpe)
}
// second pass
for (mvarCILDef <- method.getSortedMVars() ) {
val mtpsym = methodTParams(mvarCILDef.Number)
mtpsym.setInfo(sig2typeBounds(mvarCILDef)) // we never skip bounds unlike in forJVM
}
newMethodTParams.toList
}
}
private def createMethod(method: MethodBase) {
val flags = translateAttributes(method);
val owner = if (method.IsStatic()) statics else clazz;
val methodSym = owner.newMethod(NoPosition, getName(method)).setFlag(flags)
/* START CLR generics (snippet 3) */
val newMethodTParams = populateMethodTParams(method, methodSym)
/* END CLR generics (snippet 3) */
val rettype = if (method.IsConstructor()) clazz.tpe
else getCLSType(method.asInstanceOf[MethodInfo].ReturnType);
if (rettype == null) return;
val mtype = methodType(method, rettype);
if (mtype == null) return;
/* START CLR generics (snippet 4) */
val mInfo = if (method.IsGeneric) polyType(newMethodTParams, mtype(methodSym))
else mtype(methodSym)
/* END CLR generics (snippet 4) */
/* START CLR non-generics (snippet 4)
val mInfo = mtype(methodSym)
END CLR non-generics (snippet 4) */
methodSym.setInfo(mInfo)
(if (method.IsStatic()) staticDefs else instanceDefs).enter(methodSym);
if (method.IsConstructor())
clrTypes.constructors(methodSym) = method.asInstanceOf[ConstructorInfo]
else clrTypes.methods(methodSym) = method.asInstanceOf[MethodInfo];
}
private def createMethod(name: Name, flags: Long, args: Array[MSILType], retType: MSILType, method: MethodInfo, statik: Boolean): Symbol = {
val mtype = methodType(args, getCLSType(retType))
assert(mtype != null)
createMethod(name, flags, mtype, method, statik)
}
private def createMethod(name: Name, flags: Long, mtype: Symbol => Type, method: MethodInfo, statik: Boolean): Symbol = {
val methodSym: Symbol = (if (statik) statics else clazz).newMethod(NoPosition, name)
methodSym.setFlag(flags).setInfo(mtype(methodSym))
(if (statik) staticDefs else instanceDefs).enter(methodSym)
if (method != null)
clrTypes.methods(methodSym) = method
methodSym
}
private def createDelegateView(typ: MSILType) = {
val invoke: MethodInfo = typ.GetMember("Invoke")(0).asInstanceOf[MethodInfo];
val invokeRetType: Type = getCLRType(invoke.ReturnType);
val invokeParamTypes: List[Type] =invoke.GetParameters().map(_.ParameterType).map(getCLSType).toList;
val funType: Type = definitions.functionType(invokeParamTypes, invokeRetType);
val typClrType: Type = getCLRType(typ);
val flags = Flags.JAVA | Flags.STATIC | Flags.IMPLICIT; // todo: static? think not needed
// create the forward view: delegate => function
val delegateParamTypes: List[Type] = List(typClrType);
// not ImplicitMethodType, this is for methods with implicit parameters (not implicit methods)
val forwardViewMethodType = (msym: Symbol) => JavaMethodType(msym.newSyntheticValueParams(delegateParamTypes), funType)
val fmsym = createMethod(nme.view_, flags, forwardViewMethodType, null, true);
// create the backward view: function => delegate
val functionParamTypes: List[Type] = List(funType);
val backwardViewMethodType = (msym: Symbol) => JavaMethodType(msym.newSyntheticValueParams(functionParamTypes), typClrType)
val bmsym = createMethod(nme.view_, flags, backwardViewMethodType, null, true);
}
private def createDelegateChainers(typ: MSILType) = {
val flags: Long = Flags.JAVA | Flags.FINAL
val args: Array[MSILType] = Array(typ)
var s = createMethod(encode("+="), flags, args, clrTypes.VOID, clrTypes.DELEGATE_COMBINE, false);
s = createMethod(encode("-="), flags, args, clrTypes.VOID, clrTypes.DELEGATE_REMOVE, false);
s = createMethod(nme.PLUS, flags, args, typ, clrTypes.DELEGATE_COMBINE, false);
s = createMethod(nme.MINUS, flags, args, typ, clrTypes.DELEGATE_REMOVE, false);
}
private def getName(method: MethodBase): Name = {
def operatorOverload(name : String, paramsArity : Int) : Option[Name] = paramsArity match {
case 1 => name match {
// PartitionI.10.3.1
case "op_Decrement" => Some(encode("--"))
case "op_Increment" => Some(encode("++"))
case "op_UnaryNegation" => Some(nme.UNARY_-)
case "op_UnaryPlus" => Some(nme.UNARY_+)
case "op_LogicalNot" => Some(nme.UNARY_!)
case "op_OnesComplement" => Some(nme.UNARY_~)
/* op_True and op_False have no operator symbol assigned,
Other methods that will have to be written in full are:
op_AddressOf & (unary)
op_PointerDereference * (unary) */
case _ => None
}
case 2 => name match {
// PartitionI.10.3.2
case "op_Addition" => Some(nme.ADD)
case "op_Subtraction" => Some(nme.SUB)
case "op_Multiply" => Some(nme.MUL)
case "op_Division" => Some(nme.DIV)
case "op_Modulus" => Some(nme.MOD)
case "op_ExclusiveOr" => Some(nme.XOR)
case "op_BitwiseAnd" => Some(nme.AND)
case "op_BitwiseOr" => Some(nme.OR)
case "op_LogicalAnd" => Some(nme.ZAND)
case "op_LogicalOr" => Some(nme.ZOR)
case "op_LeftShift" => Some(nme.LSL)
case "op_RightShift" => Some(nme.ASR)
case "op_Equality" => Some(nme.EQ)
case "op_GreaterThan" => Some(nme.GT)
case "op_LessThan" => Some(nme.LT)
case "op_Inequality" => Some(nme.NE)
case "op_GreaterThanOrEqual" => Some(nme.GE)
case "op_LessThanOrEqual" => Some(nme.LE)
/* op_MemberSelection is reserved in Scala */
/* The standard does not assign operator symbols to op_Assign , op_SignedRightShift , op_UnsignedRightShift ,
* and op_UnsignedRightShiftAssignment so those names will be used instead to invoke those methods. */
/*
The remaining binary operators are not overloaded in C# and are therefore not in widespread use. They have to be written in full.
op_RightShiftAssignment >>=
op_MultiplicationAssignment *=
op_PointerToMemberSelection ->*
op_SubtractionAssignment -=
op_ExclusiveOrAssignment ^=
op_LeftShiftAssignment <<=
op_ModulusAssignment %=
op_AdditionAssignment +=
op_BitwiseAndAssignment &=
op_BitwiseOrAssignment |=
op_Comma ,
op_DivisionAssignment /=
*/
case _ => None
}
case _ => None
}
if (method.IsConstructor()) return nme.CONSTRUCTOR;
val name = method.Name;
if (method.IsStatic()) {
if(method.IsSpecialName) {
val paramsArity = method.GetParameters().size
// handle operator overload, otherwise handle as any static method
val operName = operatorOverload(name, paramsArity)
if (operName.isDefined) { return operName.get; }
}
return newTermName(name);
}
val params = method.GetParameters();
name match {
case "GetHashCode" if (params.length == 0) => nme.hashCode_;
case "ToString" if (params.length == 0) => nme.toString_;
case "Finalize" if (params.length == 0) => nme.finalize_;
case "Equals" if (params.length == 1 && params(0).ParameterType == clrTypes.OBJECT) =>
nme.equals_;
case "Invoke" if (clrTypes.isDelegateType(method.DeclaringType)) => nme.apply;
case _ => newTermName(name);
}
}
//##########################################################################
private def methodType(method: MethodBase, rettype: MSILType): Symbol => Type = {
val rtype = getCLSType(rettype);
if (rtype == null) null else methodType(method, rtype);
}
/** Return a method type for the given method. */
private def methodType(method: MethodBase, rettype: Type): Symbol => Type =
methodType(method.GetParameters().map(_.ParameterType), rettype);
/** Return a method type for the provided argument types and return type. */
private def methodType(argtypes: Array[MSILType], rettype: Type): Symbol => Type = {
def paramType(typ: MSILType): Type =
if (typ eq clrTypes.OBJECT) definitions.AnyClass.tpe // TODO a hack to compile scalalib, should be definitions.AnyRefClass.tpe
else getCLSType(typ);
val ptypes = argtypes.map(paramType).toList;
if (ptypes.contains(null)) null
else method => JavaMethodType(method.newSyntheticValueParams(ptypes), rettype);
}
//##########################################################################
private def getClassType(typ: MSILType): Type = {
assert(typ != null);
val res = definitions.getClass(typ.FullName.replace('+', '.')).tpe;
//if (res.isError())
// global.reporter.error("unknown class reference " + type.FullName);
res
}
private def getCLSType(typ: MSILType): Type = { // getCLS returns non-null for types GenMSIL can handle, be they CLS-compliant or not
if (typ.IsTMVarUsage())
/* START CLR generics (snippet 5) */
getCLRType(typ)
/* END CLR generics (snippet 5) */
/* START CLR non-generics (snippet 5)
null
END CLR non-generics (snippet 5) */
else if ( /* TODO hack if UBYE, uncommented, "ambiguous reference to overloaded definition" ensues, for example for System.Math.Max(x, y) */
typ == clrTypes.USHORT || typ == clrTypes.UINT || typ == clrTypes.ULONG
/* || typ == clrTypes.UBYTE */
|| typ.IsNotPublic() || typ.IsNestedPrivate()
|| typ.IsNestedAssembly() || typ.IsNestedFamANDAssem()
|| typ.IsPointer()
|| (typ.IsArray() && getCLRType(typ.GetElementType()) == null) /* TODO hack: getCLR instead of getCLS */
|| (typ.IsByRef() && !typ.GetElementType().CanBeTakenAddressOf()))
null
else
getCLRType(typ)
}
private def getCLRTypeIfPrimitiveNullOtherwise(typ: MSILType): Type =
if (typ == clrTypes.OBJECT)
definitions.ObjectClass.tpe;
else if (typ == clrTypes.VALUE_TYPE)
definitions.AnyValClass.tpe
else if (typ == clrTypes.STRING)
definitions.StringClass.tpe;
else if (typ == clrTypes.VOID)
definitions.UnitClass.tpe
else if (typ == clrTypes.BOOLEAN)
definitions.BooleanClass.tpe
else if (typ == clrTypes.CHAR)
definitions.CharClass.tpe
else if ((typ == clrTypes.BYTE) || (typ == clrTypes.UBYTE)) // TODO U... is a hack to compile scalalib
definitions.ByteClass.tpe
else if ((typ == clrTypes.SHORT) || (typ == clrTypes.SHORT)) // TODO U... is a hack to compile scalalib
definitions.ShortClass.tpe
else if ((typ == clrTypes.INT) || (typ == clrTypes.UINT)) // TODO U... is a hack to compile scalalib
definitions.IntClass.tpe
else if ((typ == clrTypes.LONG) || (typ == clrTypes.LONG)) // TODO U... is a hack to compile scalalib
definitions.LongClass.tpe
else if (typ == clrTypes.FLOAT)
definitions.FloatClass.tpe
else if (typ == clrTypes.DOUBLE)
definitions.DoubleClass.tpe
else null
private def getCLRType(tMSIL: MSILType): Type = {
var res = getCLRTypeIfPrimitiveNullOtherwise(tMSIL)
if (res != null) res
else if (tMSIL.isInstanceOf[ConstructedType]) {
val ct = tMSIL.asInstanceOf[ConstructedType]
/* START CLR generics (snippet 6) */
val cttpArgs = ct.typeArgs.map(tmsil => getCLRType(tmsil)).toList
appliedType(getCLRType(ct.instantiatedType), cttpArgs)
/* END CLR generics (snippet 6) */
/* START CLR non-generics (snippet 6)
getCLRType(ct.instantiatedType)
END CLR non-generics (snippet 6) */
} else if (tMSIL.isInstanceOf[TMVarUsage]) {
/* START CLR generics (snippet 7) */
val tVarUsage = tMSIL.asInstanceOf[TMVarUsage]
val tVarNumber = tVarUsage.Number
if (tVarUsage.isTVar) classTParams(tVarNumber).typeConstructor // shouldn't fail, just return definitions.AnyClass.tpe at worst
else methodTParams(tVarNumber).typeConstructor // shouldn't fail, just return definitions.AnyClass.tpe at worst
/* END CLR generics (snippet 7) */
/* START CLR non-generics (snippet 7)
null // definitions.ObjectClass.tpe
END CLR non-generics (snippet 7) */
} else if (tMSIL.IsArray()) {
var elemtp = getCLRType(tMSIL.GetElementType())
// cut&pasted from ClassfileParser
// 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).
// TODO does that incompatibility also apply to .NET?
if (elemtp.typeSymbol.isAbstractType && !(elemtp <:< definitions.ObjectClass.tpe))
elemtp = intersectionType(List(elemtp, definitions.ObjectClass.tpe))
appliedType(definitions.ArrayClass.tpe, List(elemtp))
} else {
res = clrTypes.sym2type.get(tMSIL) match {
case Some(sym) => sym.tpe
case None => if (tMSIL.IsByRef && tMSIL.GetElementType.IsValueType) {
val addressed = getCLRType(tMSIL.GetElementType)
val clasym = addressed.typeSymbolDirect // TODO should be .typeSymbol?
clasym.info.load(clasym)
val secondAttempt = clrTypes.sym2type.get(tMSIL)
secondAttempt match { case Some(sym) => sym.tpe
case None => null
}
} else getClassType(tMSIL)
}
if (res == null)
null // TODO new RuntimeException()
else res
}
}
// the values are Java-Box-Classes (e.g. Integer, Boolean, Character)
// java.lang.Number to get the value (if a number, not for boolean, character)
// see ch.epfl.lamp.compiler.msil.util.PEStream.java
def getConstant(constType: Type, value: Object): Constant = {
val typeClass = constType.typeSymbol
if (typeClass == definitions.BooleanClass)
Constant(value.asInstanceOf[java.lang.Boolean].booleanValue)
else if (typeClass == definitions.ByteClass)
Constant(value.asInstanceOf[java.lang.Number].byteValue)
else if (typeClass == definitions.ShortClass)
Constant(value.asInstanceOf[java.lang.Number].shortValue)
else if (typeClass == definitions.CharClass)
Constant(value.asInstanceOf[java.lang.Character].charValue)
else if (typeClass == definitions.IntClass)
Constant(value.asInstanceOf[java.lang.Number].intValue)
else if (typeClass == definitions.LongClass)
Constant(value.asInstanceOf[java.lang.Number].longValue)
else if (typeClass == definitions.FloatClass)
Constant(value.asInstanceOf[java.lang.Number].floatValue)
else if (typeClass == definitions.DoubleClass)
Constant(value.asInstanceOf[java.lang.Number].doubleValue)
else if (typeClass == definitions.StringClass)
Constant(value.asInstanceOf[java.lang.String])
else
abort("illegal value: " + value + ", class-symbol: " + typeClass)
}
def isDefinedAtgetConstant(constType: Type): Boolean = {
val typeClass = constType.typeSymbol
if ( (typeClass == definitions.BooleanClass)
|| (typeClass == definitions.ByteClass)
|| (typeClass == definitions.ShortClass)
|| (typeClass == definitions.CharClass)
|| (typeClass == definitions.IntClass)
|| (typeClass == definitions.LongClass)
|| (typeClass == definitions.FloatClass)
|| (typeClass == definitions.DoubleClass)
|| (typeClass == definitions.StringClass)
)
true
else
false
}
private def translateAttributes(typ: MSILType): Long = {
var flags: Long = Flags.JAVA;
if (typ.IsNotPublic() || typ.IsNestedPrivate()
|| typ.IsNestedAssembly() || typ.IsNestedFamANDAssem())
flags = flags | Flags.PRIVATE;
else if (typ.IsNestedFamily() || typ.IsNestedFamORAssem())
flags = flags | Flags.PROTECTED;
if (typ.IsAbstract())
flags = flags | Flags.ABSTRACT;
if (typ.IsSealed())
flags = flags | Flags.FINAL;
if (typ.IsInterface())
flags = flags | Flags.INTERFACE | Flags.TRAIT | Flags.ABSTRACT;
flags
}
private def translateAttributes(field: FieldInfo): Long = {
var flags: Long = Flags.JAVA;
if (field.IsPrivate() || field.IsAssembly() || field.IsFamilyAndAssembly())
flags = flags | Flags.PRIVATE;
else if (field.IsFamily() || field.IsFamilyOrAssembly())
flags = flags | Flags.PROTECTED;
if (field.IsInitOnly() || field.IsLiteral())
flags = flags | Flags.FINAL;
else
flags = flags | Flags.MUTABLE;
if (field.IsStatic)
flags = flags | Flags.STATIC
flags
}
private def translateAttributes(method: MethodBase): Long = {
var flags: Long = Flags.JAVA;
if (method.IsPrivate() || method.IsAssembly() || method.IsFamilyAndAssembly())
flags = flags | Flags.PRIVATE;
else if (method.IsFamily() || method.IsFamilyOrAssembly())
flags = flags | Flags.PROTECTED;
if (method.IsAbstract())
flags = flags | Flags.DEFERRED;
if (method.IsStatic)
flags = flags | Flags.STATIC
flags
}
}
|