forked from OSchip/llvm-project
Correct various uses of 'argument' that in fact refer to function parameters
Cleanup only. llvm-svn: 199773
This commit is contained in:
parent
111d3485af
commit
601b22c377
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@ -2887,7 +2887,7 @@ CINDEX_LINKAGE enum CXCallingConv clang_getFunctionTypeCallingConv(CXType T);
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CINDEX_LINKAGE CXType clang_getResultType(CXType T);
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/**
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* \brief Retrieve the number of non-variadic arguments associated with a
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* \brief Retrieve the number of non-variadic parameters associated with a
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* function type.
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*
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* If a non-function type is passed in, -1 is returned.
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@ -2895,7 +2895,7 @@ CINDEX_LINKAGE CXType clang_getResultType(CXType T);
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CINDEX_LINKAGE int clang_getNumArgTypes(CXType T);
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/**
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* \brief Retrieve the type of an argument of a function type.
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* \brief Retrieve the type of a parameter of a function type.
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*
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* If a non-function type is passed in or the function does not have enough
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* parameters, an invalid type is returned.
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@ -6950,11 +6950,8 @@ QualType ASTContext::mergeFunctionTypes(QualType lhs, QualType rhs,
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if (lproto && rproto) { // two C99 style function prototypes
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assert(!lproto->hasExceptionSpec() && !rproto->hasExceptionSpec() &&
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"C++ shouldn't be here");
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unsigned lproto_nargs = lproto->getNumParams();
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unsigned rproto_nargs = rproto->getNumParams();
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// Compatible functions must have the same number of arguments
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if (lproto_nargs != rproto_nargs)
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// Compatible functions must have the same number of parameters
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if (lproto->getNumParams() != rproto->getNumParams())
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return QualType();
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// Variadic and non-variadic functions aren't compatible
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@ -6968,27 +6965,28 @@ QualType ASTContext::mergeFunctionTypes(QualType lhs, QualType rhs,
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!FunctionTypesMatchOnNSConsumedAttrs(rproto, lproto))
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return QualType();
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// Check argument compatibility
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// Check parameter type compatibility
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SmallVector<QualType, 10> types;
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for (unsigned i = 0; i < lproto_nargs; i++) {
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QualType largtype = lproto->getParamType(i).getUnqualifiedType();
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QualType rargtype = rproto->getParamType(i).getUnqualifiedType();
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QualType argtype = mergeFunctionParameterTypes(
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largtype, rargtype, OfBlockPointer, Unqualified);
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if (argtype.isNull()) return QualType();
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for (unsigned i = 0, n = lproto->getNumParams(); i < n; i++) {
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QualType lParamType = lproto->getParamType(i).getUnqualifiedType();
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QualType rParamType = rproto->getParamType(i).getUnqualifiedType();
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QualType paramType = mergeFunctionParameterTypes(
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lParamType, rParamType, OfBlockPointer, Unqualified);
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if (paramType.isNull())
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return QualType();
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if (Unqualified)
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argtype = argtype.getUnqualifiedType();
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paramType = paramType.getUnqualifiedType();
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types.push_back(argtype);
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types.push_back(paramType);
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if (Unqualified) {
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largtype = largtype.getUnqualifiedType();
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rargtype = rargtype.getUnqualifiedType();
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lParamType = lParamType.getUnqualifiedType();
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rParamType = rParamType.getUnqualifiedType();
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}
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if (getCanonicalType(argtype) != getCanonicalType(largtype))
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if (getCanonicalType(paramType) != getCanonicalType(lParamType))
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allLTypes = false;
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if (getCanonicalType(argtype) != getCanonicalType(rargtype))
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if (getCanonicalType(paramType) != getCanonicalType(rParamType))
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allRTypes = false;
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}
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@ -7012,20 +7010,19 @@ QualType ASTContext::mergeFunctionTypes(QualType lhs, QualType rhs,
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// The only types actually affected are promotable integer
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// types and floats, which would be passed as a different
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// type depending on whether the prototype is visible.
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unsigned proto_nargs = proto->getNumParams();
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for (unsigned i = 0; i < proto_nargs; ++i) {
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QualType argTy = proto->getParamType(i);
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for (unsigned i = 0, n = proto->getNumParams(); i < n; ++i) {
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QualType paramTy = proto->getParamType(i);
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// Look at the converted type of enum types, since that is the type used
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// to pass enum values.
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if (const EnumType *Enum = argTy->getAs<EnumType>()) {
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argTy = Enum->getDecl()->getIntegerType();
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if (argTy.isNull())
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if (const EnumType *Enum = paramTy->getAs<EnumType>()) {
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paramTy = Enum->getDecl()->getIntegerType();
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if (paramTy.isNull())
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return QualType();
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}
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if (argTy->isPromotableIntegerType() ||
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getCanonicalType(argTy).getUnqualifiedType() == FloatTy)
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if (paramTy->isPromotableIntegerType() ||
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getCanonicalType(paramTy).getUnqualifiedType() == FloatTy)
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return QualType();
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}
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@ -7346,10 +7343,8 @@ bool ASTContext::FunctionTypesMatchOnNSConsumedAttrs(
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FunctionProtoType::ExtProtoInfo ToEPI =
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ToFunctionType->getExtProtoInfo();
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if (FromEPI.ConsumedParameters && ToEPI.ConsumedParameters)
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for (unsigned ArgIdx = 0, NumArgs = FromFunctionType->getNumParams();
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ArgIdx != NumArgs; ++ArgIdx) {
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if (FromEPI.ConsumedParameters[ArgIdx] !=
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ToEPI.ConsumedParameters[ArgIdx])
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for (unsigned i = 0, n = FromFunctionType->getNumParams(); i != n; ++i) {
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if (FromEPI.ConsumedParameters[i] != ToEPI.ConsumedParameters[i])
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return false;
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}
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return true;
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@ -186,13 +186,12 @@ static bool isSafeToConvert(const RecordDecl *RD, CodeGenTypes &CGT) {
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return isSafeToConvert(RD, CGT, AlreadyChecked);
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}
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/// isFuncTypeArgumentConvertible - Return true if the specified type in a
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/// function argument or result position can be converted to an IR type at this
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/// isFuncParamTypeConvertible - Return true if the specified type in a
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/// function parameter or result position can be converted to an IR type at this
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/// point. This boils down to being whether it is complete, as well as whether
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/// we've temporarily deferred expanding the type because we're in a recursive
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/// context.
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bool CodeGenTypes::isFuncTypeArgumentConvertible(QualType Ty) {
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bool CodeGenTypes::isFuncParamTypeConvertible(QualType Ty) {
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// If this isn't a tagged type, we can convert it!
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const TagType *TT = Ty->getAs<TagType>();
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if (TT == 0) return true;
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@ -217,17 +216,17 @@ bool CodeGenTypes::isFuncTypeArgumentConvertible(QualType Ty) {
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/// Code to verify a given function type is complete, i.e. the return type
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/// and all of the argument types are complete. Also check to see if we are in
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/// and all of the parameter types are complete. Also check to see if we are in
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/// a RS_StructPointer context, and if so whether any struct types have been
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/// pended. If so, we don't want to ask the ABI lowering code to handle a type
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/// that cannot be converted to an IR type.
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bool CodeGenTypes::isFuncTypeConvertible(const FunctionType *FT) {
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if (!isFuncTypeArgumentConvertible(FT->getResultType()))
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if (!isFuncParamTypeConvertible(FT->getResultType()))
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return false;
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if (const FunctionProtoType *FPT = dyn_cast<FunctionProtoType>(FT))
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for (unsigned i = 0, e = FPT->getNumParams(); i != e; i++)
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if (!isFuncTypeArgumentConvertible(FPT->getParamType(i)))
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if (!isFuncParamTypeConvertible(FPT->getParamType(i)))
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return false;
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return true;
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@ -493,7 +492,7 @@ llvm::Type *CodeGenTypes::ConvertType(QualType T) {
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break;
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}
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// While we're converting the argument types for a function, we don't want
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// While we're converting the parameter types for a function, we don't want
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// to recursively convert any pointed-to structs. Converting directly-used
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// structs is ok though.
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if (!RecordsBeingLaidOut.insert(Ty)) {
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@ -136,7 +136,7 @@ public:
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/// be converted to an LLVM type (i.e. doesn't depend on an incomplete tag
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/// type).
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bool isFuncTypeConvertible(const FunctionType *FT);
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bool isFuncTypeArgumentConvertible(QualType Ty);
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bool isFuncParamTypeConvertible(QualType Ty);
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/// GetFunctionTypeForVTable - Get the LLVM function type for use in a vtable,
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/// given a CXXMethodDecl. If the method to has an incomplete return type,
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@ -67,10 +67,10 @@ static bool hasFunctionProto(const Decl *D) {
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return isa<ObjCMethodDecl>(D) || isa<BlockDecl>(D);
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}
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/// getFunctionOrMethodNumArgs - Return number of function or method
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/// arguments. It is an error to call this on a K&R function (use
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/// getFunctionOrMethodNumParams - Return number of function or method
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/// parameters. It is an error to call this on a K&R function (use
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/// hasFunctionProto first).
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static unsigned getFunctionOrMethodNumArgs(const Decl *D) {
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static unsigned getFunctionOrMethodNumParams(const Decl *D) {
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if (const FunctionType *FnTy = D->getFunctionType())
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return cast<FunctionProtoType>(FnTy)->getNumParams();
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if (const BlockDecl *BD = dyn_cast<BlockDecl>(D))
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@ -78,7 +78,7 @@ static unsigned getFunctionOrMethodNumArgs(const Decl *D) {
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return cast<ObjCMethodDecl>(D)->param_size();
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}
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static QualType getFunctionOrMethodArgType(const Decl *D, unsigned Idx) {
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static QualType getFunctionOrMethodParamType(const Decl *D, unsigned Idx) {
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if (const FunctionType *FnTy = D->getFunctionType())
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return cast<FunctionProtoType>(FnTy)->getParamType(Idx);
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if (const BlockDecl *BD = dyn_cast<BlockDecl>(D))
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@ -208,16 +208,15 @@ static bool checkAttrMutualExclusion(Sema &S, Decl *D,
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return false;
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}
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/// \brief Check if IdxExpr is a valid argument index for a function or
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/// \brief Check if IdxExpr is a valid parameter index for a function or
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/// instance method D. May output an error.
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///
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/// \returns true if IdxExpr is a valid index.
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static bool checkFunctionOrMethodArgumentIndex(Sema &S, const Decl *D,
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static bool checkFunctionOrMethodParameterIndex(Sema &S, const Decl *D,
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const AttributeList &Attr,
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unsigned AttrArgNum,
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const Expr *IdxExpr,
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uint64_t &Idx)
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{
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uint64_t &Idx) {
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assert(isFunctionOrMethod(D));
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// In C++ the implicit 'this' function parameter also counts.
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@ -225,8 +224,8 @@ static bool checkFunctionOrMethodArgumentIndex(Sema &S, const Decl *D,
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bool HP = hasFunctionProto(D);
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bool HasImplicitThisParam = isInstanceMethod(D);
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bool IV = HP && isFunctionOrMethodVariadic(D);
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unsigned NumArgs = (HP ? getFunctionOrMethodNumArgs(D) : 0) +
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HasImplicitThisParam;
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unsigned NumParams =
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(HP ? getFunctionOrMethodNumParams(D) : 0) + HasImplicitThisParam;
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llvm::APSInt IdxInt;
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if (IdxExpr->isTypeDependent() || IdxExpr->isValueDependent() ||
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@ -238,7 +237,7 @@ static bool checkFunctionOrMethodArgumentIndex(Sema &S, const Decl *D,
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}
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Idx = IdxInt.getLimitedValue();
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if (Idx < 1 || (!IV && Idx > NumArgs)) {
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if (Idx < 1 || (!IV && Idx > NumParams)) {
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S.Diag(Attr.getLoc(), diag::err_attribute_argument_out_of_bounds)
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<< Attr.getName() << AttrArgNum << IdxExpr->getSourceRange();
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return false;
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@ -1193,13 +1192,13 @@ static void handleNonNullAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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for (unsigned i = 0; i < Attr.getNumArgs(); ++i) {
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Expr *Ex = Attr.getArgAsExpr(i);
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uint64_t Idx;
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if (!checkFunctionOrMethodArgumentIndex(S, D, Attr, i + 1, Ex, Idx))
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if (!checkFunctionOrMethodParameterIndex(S, D, Attr, i + 1, Ex, Idx))
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return;
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// Is the function argument a pointer type?
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// FIXME: Should also highlight argument in decl in the diagnostic.
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if (!attrNonNullArgCheck(S, getFunctionOrMethodArgType(D, Idx),
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Attr, Ex->getSourceRange()))
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if (!attrNonNullArgCheck(S, getFunctionOrMethodParamType(D, Idx), Attr,
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Ex->getSourceRange()))
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continue;
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NonNullArgs.push_back(Idx);
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@ -1208,8 +1207,8 @@ static void handleNonNullAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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// If no arguments were specified to __attribute__((nonnull)) then all pointer
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// arguments have a nonnull attribute.
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if (NonNullArgs.empty()) {
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for (unsigned i = 0, e = getFunctionOrMethodNumArgs(D); i != e; ++i) {
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QualType T = getFunctionOrMethodArgType(D, i).getNonReferenceType();
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for (unsigned i = 0, e = getFunctionOrMethodNumParams(D); i != e; ++i) {
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QualType T = getFunctionOrMethodParamType(D, i).getNonReferenceType();
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possibleTransparentUnionPointerType(T);
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if (T->isAnyPointerType() || T->isBlockPointerType())
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NonNullArgs.push_back(i);
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@ -1298,11 +1297,11 @@ static void handleOwnershipAttr(Sema &S, Decl *D, const AttributeList &AL) {
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for (unsigned i = 1; i < AL.getNumArgs(); ++i) {
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Expr *Ex = AL.getArgAsExpr(i);
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uint64_t Idx;
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if (!checkFunctionOrMethodArgumentIndex(S, D, AL, i, Ex, Idx))
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if (!checkFunctionOrMethodParameterIndex(S, D, AL, i, Ex, Idx))
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return;
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// Is the function argument a pointer type?
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QualType T = getFunctionOrMethodArgType(D, Idx);
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QualType T = getFunctionOrMethodParamType(D, Idx);
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int Err = -1; // No error
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switch (K) {
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case OwnershipAttr::Takes:
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@ -2363,12 +2362,12 @@ static void handleCleanupAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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/// http://gcc.gnu.org/onlinedocs/gcc/Function-Attributes.html
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static void handleFormatArgAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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Expr *IdxExpr = Attr.getArgAsExpr(0);
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uint64_t ArgIdx;
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if (!checkFunctionOrMethodArgumentIndex(S, D, Attr, 1, IdxExpr, ArgIdx))
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uint64_t Idx;
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if (!checkFunctionOrMethodParameterIndex(S, D, Attr, 1, IdxExpr, Idx))
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return;
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// make sure the format string is really a string
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QualType Ty = getFunctionOrMethodArgType(D, ArgIdx);
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QualType Ty = getFunctionOrMethodParamType(D, Idx);
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bool not_nsstring_type = !isNSStringType(Ty, S.Context);
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if (not_nsstring_type &&
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@ -2393,7 +2392,7 @@ static void handleFormatArgAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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return;
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}
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// We cannot use the ArgIdx returned from checkFunctionOrMethodArgumentIndex
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// We cannot use the Idx returned from checkFunctionOrMethodParameterIndex
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// because that has corrected for the implicit this parameter, and is zero-
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// based. The attribute expects what the user wrote explicitly.
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llvm::APSInt Val;
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// In C++ the implicit 'this' function parameter also counts, and they are
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// counted from one.
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bool HasImplicitThisParam = isInstanceMethod(D);
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unsigned NumArgs = getFunctionOrMethodNumArgs(D) + HasImplicitThisParam;
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unsigned NumArgs = getFunctionOrMethodNumParams(D) + HasImplicitThisParam;
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IdentifierInfo *II = Attr.getArgAsIdent(0)->Ident;
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StringRef Format = II->getName();
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@ -2559,7 +2558,7 @@ static void handleFormatAttr(Sema &S, Decl *D, const AttributeList &Attr) {
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}
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// make sure the format string is really a string
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QualType Ty = getFunctionOrMethodArgType(D, ArgIdx);
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QualType Ty = getFunctionOrMethodParamType(D, ArgIdx);
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if (Kind == CFStringFormat) {
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if (!isCFStringType(Ty, S.Context)) {
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@ -3271,19 +3270,19 @@ static void handleArgumentWithTypeTagAttr(Sema &S, Decl *D,
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}
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uint64_t ArgumentIdx;
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if (!checkFunctionOrMethodArgumentIndex(S, D, Attr, 2, Attr.getArgAsExpr(1),
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if (!checkFunctionOrMethodParameterIndex(S, D, Attr, 2, Attr.getArgAsExpr(1),
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ArgumentIdx))
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return;
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uint64_t TypeTagIdx;
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if (!checkFunctionOrMethodArgumentIndex(S, D, Attr, 3, Attr.getArgAsExpr(2),
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if (!checkFunctionOrMethodParameterIndex(S, D, Attr, 3, Attr.getArgAsExpr(2),
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TypeTagIdx))
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return;
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bool IsPointer = (Attr.getName()->getName() == "pointer_with_type_tag");
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if (IsPointer) {
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// Ensure that buffer has a pointer type.
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QualType BufferTy = getFunctionOrMethodArgType(D, ArgumentIdx);
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QualType BufferTy = getFunctionOrMethodParamType(D, ArgumentIdx);
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if (!BufferTy->isPointerType()) {
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S.Diag(Attr.getLoc(), diag::err_attribute_pointers_only)
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<< Attr.getName();
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@ -554,8 +554,8 @@ CXType clang_getArgType(CXType X, unsigned i) {
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return MakeCXType(QualType(), GetTU(X));
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if (const FunctionProtoType *FD = T->getAs<FunctionProtoType>()) {
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unsigned numArgs = FD->getNumParams();
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if (i >= numArgs)
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unsigned numParams = FD->getNumParams();
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if (i >= numParams)
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return MakeCXType(QualType(), GetTU(X));
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return MakeCXType(FD->getParamType(i), GetTU(X));
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