/// getFunctionNoProtoType - Return a K&R style C function type like 'int()'.
///
QualType getFunctionNoProtoType(QualType ResultTy);
-
+
/// getFunctionType - Return a normal function type with a typed argument
/// list. isVariadic indicates whether the argument list includes '...'.
QualType getFunctionType(QualType ResultTy, const QualType *ArgArray,
unsigned NumArgs, bool isVariadic,
- unsigned TypeQuals, bool hasExceptionSpec = false,
- bool hasAnyExceptionSpec = false,
- unsigned NumExs = 0, const QualType *ExArray = 0);
+ unsigned TypeQuals);
/// getTypeDeclType - Return the unique reference to the type for
/// the specified type declaration.
}
FunctionProtoType(QualType Result, const QualType *ArgArray, unsigned numArgs,
- bool isVariadic, unsigned typeQuals, bool hasExs,
- bool hasAnyExs, const QualType *ExArray,
- unsigned numExs, QualType Canonical)
+ bool isVariadic, unsigned typeQuals, QualType Canonical)
: FunctionType(FunctionProto, Result, isVariadic, typeQuals, Canonical,
(Result->isDependentType() ||
hasAnyDependentType(ArgArray, numArgs))),
- NumArgs(numArgs), NumExceptions(numExs), HasExceptionSpec(hasExs),
- AnyExceptionSpec(hasAnyExs) {
+ NumArgs(numArgs) {
// Fill in the trailing argument array.
- QualType *ArgInfo = reinterpret_cast<QualType*>(this+1);
+ QualType *ArgInfo = reinterpret_cast<QualType *>(this+1);;
for (unsigned i = 0; i != numArgs; ++i)
ArgInfo[i] = ArgArray[i];
- // Fill in the exception array.
- QualType *Ex = ArgInfo + numArgs;
- for (unsigned i = 0; i != numExs; ++i)
- Ex[i] = ExArray[i];
}
-
+
/// NumArgs - The number of arguments this function has, not counting '...'.
- unsigned NumArgs : 20;
-
- /// NumExceptions - The number of types in the exception spec, if any.
- unsigned NumExceptions : 10;
-
- /// HasExceptionSpec - Whether this function has an exception spec at all.
- bool HasExceptionSpec : 1;
-
- /// AnyExceptionSpec - Whether this function has a throw(...) spec.
- bool AnyExceptionSpec : 1;
-
+ unsigned NumArgs;
+
/// ArgInfo - There is an variable size array after the class in memory that
/// holds the argument types.
-
- /// Exceptions - There is another variable size array after ArgInfo that
- /// holds the exception types.
-
+
friend class ASTContext; // ASTContext creates these.
public:
assert(i < NumArgs && "Invalid argument number!");
return arg_type_begin()[i];
}
-
- bool hasExceptionSpec() const { return HasExceptionSpec; }
- bool hasAnyExceptionSpec() const { return AnyExceptionSpec; }
- unsigned getNumExceptions() const { return NumExceptions; }
- QualType getExceptionType(unsigned i) const {
- assert(i < NumExceptions && "Invalid exception number!");
- return exception_begin()[i];
- }
-
+
bool isVariadic() const { return getSubClassData(); }
unsigned getTypeQuals() const { return FunctionType::getTypeQuals(); }
return reinterpret_cast<const QualType *>(this+1);
}
arg_type_iterator arg_type_end() const { return arg_type_begin()+NumArgs; }
-
- typedef const QualType *exception_iterator;
- exception_iterator exception_begin() const {
- // exceptions begin where arguments end
- return arg_type_end();
- }
- exception_iterator exception_end() const {
- return exception_begin() + NumExceptions;
- }
-
+
virtual void getAsStringInternal(std::string &InnerString) const;
static bool classof(const Type *T) {
return T->getTypeClass() == FunctionProto;
}
static bool classof(const FunctionProtoType *) { return true; }
-
+
void Profile(llvm::FoldingSetNodeID &ID);
static void Profile(llvm::FoldingSetNodeID &ID, QualType Result,
arg_type_iterator ArgTys, unsigned NumArgs,
- bool isVariadic, unsigned TypeQuals,
- bool hasExceptionSpec, bool anyExceptionSpec,
- unsigned NumExceptions, exception_iterator Exs);
+ bool isVariadic, unsigned TypeQuals);
};
/// list. isVariadic indicates whether the argument list includes '...'.
QualType ASTContext::getFunctionType(QualType ResultTy,const QualType *ArgArray,
unsigned NumArgs, bool isVariadic,
- unsigned TypeQuals, bool hasExceptionSpec,
- bool hasAnyExceptionSpec, unsigned NumExs,
- const QualType *ExArray) {
+ unsigned TypeQuals) {
// Unique functions, to guarantee there is only one function of a particular
// structure.
llvm::FoldingSetNodeID ID;
FunctionProtoType::Profile(ID, ResultTy, ArgArray, NumArgs, isVariadic,
- TypeQuals, hasExceptionSpec, hasAnyExceptionSpec,
- NumExs, ExArray);
+ TypeQuals);
void *InsertPos = 0;
if (FunctionProtoType *FTP =
CanonicalArgs.reserve(NumArgs);
for (unsigned i = 0; i != NumArgs; ++i)
CanonicalArgs.push_back(getCanonicalType(ArgArray[i]));
- llvm::SmallVector<QualType, 2> CanonicalExs;
- CanonicalExs.reserve(NumExs);
- for (unsigned i = 0; i != NumExs; ++i)
- CanonicalExs.push_back(getCanonicalType(ExArray[i]));
-
+
Canonical = getFunctionType(getCanonicalType(ResultTy),
&CanonicalArgs[0], NumArgs,
- isVariadic, TypeQuals, hasExceptionSpec,
- hasAnyExceptionSpec, NumExs, &CanonicalExs[0]);
-
+ isVariadic, TypeQuals);
+
// Get the new insert position for the node we care about.
FunctionProtoType *NewIP =
FunctionProtoTypes.FindNodeOrInsertPos(ID, InsertPos);
assert(NewIP == 0 && "Shouldn't be in the map!"); NewIP = NewIP;
}
-
+
// FunctionProtoType objects are allocated with extra bytes after them
- // for two variable size arrays (for parameter and exception types) at the
- // end of them.
+ // for a variable size array (for parameter types) at the end of them.
FunctionProtoType *FTP =
- (FunctionProtoType*)Allocate(sizeof(FunctionProtoType) +
- NumArgs*sizeof(QualType) +
- NumExs*sizeof(QualType), 8);
+ (FunctionProtoType*)Allocate(sizeof(FunctionProtoType) +
+ NumArgs*sizeof(QualType), 8);
new (FTP) FunctionProtoType(ResultTy, ArgArray, NumArgs, isVariadic,
- TypeQuals, hasExceptionSpec, hasAnyExceptionSpec,
- ExArray, NumExs, Canonical);
+ TypeQuals, Canonical);
Types.push_back(FTP);
FunctionProtoTypes.InsertNode(FTP, InsertPos);
return QualType(FTP, 0);
allRTypes = false;
if (lproto && rproto) { // two C99 style function prototypes
- assert(!lproto->hasExceptionSpec() && !rproto->hasExceptionSpec() &&
- "C++ shouldn't be here");
unsigned lproto_nargs = lproto->getNumArgs();
unsigned rproto_nargs = rproto->getNumArgs();
const FunctionProtoType *proto = lproto ? lproto : rproto;
if (proto) {
- assert(!proto->hasExceptionSpec() && "C++ shouldn't be here");
if (proto->isVariadic()) return QualType();
// Check that the types are compatible with the types that
// would result from default argument promotions (C99 6.7.5.3p15).
void FunctionProtoType::Profile(llvm::FoldingSetNodeID &ID, QualType Result,
arg_type_iterator ArgTys,
unsigned NumArgs, bool isVariadic,
- unsigned TypeQuals, bool hasExceptionSpec,
- bool anyExceptionSpec, unsigned NumExceptions,
- exception_iterator Exs) {
+ unsigned TypeQuals) {
ID.AddPointer(Result.getAsOpaquePtr());
for (unsigned i = 0; i != NumArgs; ++i)
ID.AddPointer(ArgTys[i].getAsOpaquePtr());
ID.AddInteger(isVariadic);
ID.AddInteger(TypeQuals);
- ID.AddInteger(hasExceptionSpec);
- if (hasExceptionSpec) {
- ID.AddInteger(anyExceptionSpec);
- for(unsigned i = 0; i != NumExceptions; ++i)
- ID.AddPointer(Exs[i].getAsOpaquePtr());
- }
}
void FunctionProtoType::Profile(llvm::FoldingSetNodeID &ID) {
Profile(ID, getResultType(), arg_type_begin(), NumArgs, isVariadic(),
- getTypeQuals(), hasExceptionSpec(), hasAnyExceptionSpec(),
- getNumExceptions(), exception_begin());
+ getTypeQuals());
}
void ObjCQualifiedInterfaceType::Profile(llvm::FoldingSetNodeID &ID,
ParamTypes.push_back(GetType(Record[Idx++]));
bool isVariadic = Record[Idx++];
unsigned Quals = Record[Idx++];
- bool hasExceptionSpec = Record[Idx++];
- bool hasAnyExceptionSpec = Record[Idx++];
- unsigned NumExceptions = Record[Idx++];
- llvm::SmallVector<QualType, 2> Exceptions;
- for (unsigned I = 0; I != NumExceptions; ++I)
- Exceptions.push_back(GetType(Record[Idx++]));
return Context->getFunctionType(ResultType, &ParamTypes[0], NumParams,
- isVariadic, Quals, hasExceptionSpec,
- hasAnyExceptionSpec, NumExceptions,
- &Exceptions[0]);
+ isVariadic, Quals);
}
case pch::TYPE_TYPEDEF:
Writer.AddTypeRef(T->getArgType(I), Record);
Record.push_back(T->isVariadic());
Record.push_back(T->getTypeQuals());
- Record.push_back(T->hasExceptionSpec());
- Record.push_back(T->hasAnyExceptionSpec());
- Record.push_back(T->getNumExceptions());
- for (unsigned I = 0, N = T->getNumExceptions(); I != N; ++I)
- Writer.AddTypeRef(T->getExceptionType(I), Record);
Code = pch::TYPE_FUNCTION_PROTO;
}
(OldProto = dyn_cast<FunctionProtoType>(OldFuncType))) {
// The old declaration provided a function prototype, but the
// new declaration does not. Merge in the prototype.
- assert(!OldProto->hasExceptionSpec() && "Exception spec in C");
llvm::SmallVector<QualType, 16> ParamTypes(OldProto->arg_type_begin(),
OldProto->arg_type_end());
NewQType = Context.getFunctionType(NewFuncType->getResultType(),
QualType ClassType = Context.getTypeDeclType(ClassDecl);
ClassType = Context.getCanonicalType(ClassType);
- // FIXME: Implicit declarations have exception specifications, which are
- // the union of the specifications of the implicitly called functions.
-
if (!ClassDecl->hasUserDeclaredConstructor()) {
// C++ [class.ctor]p5:
// A default constructor for a class X is a constructor of class X
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