From: Chandler Carruth Date: Fri, 24 Mar 2017 09:11:57 +0000 (+0000) Subject: Revert r298491 and r298494 which changed Clang's handling of 'nonnull' X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=45bbe0117bee932c967de6d44984ea7dab8f36b5;p=platform%2Fupstream%2Fllvm.git Revert r298491 and r298494 which changed Clang's handling of 'nonnull' attributes. These patches don't work because we can't currently access the parameter information in a reliable way when building attributes. I thought this would be relatively straightforward to fix, but it seems not to be the case. Fixing this will requrie a substantial re-plumbing of machinery to allow attributes to be handled in this location, and several other fixes to the attribute machinery should probably be made at the same time. All of this will make the patch .... substantially more complicated. Reverting for now as there are active miscompiles caused by the current version. llvm-svn: 298695 --- diff --git a/clang/include/clang/AST/ASTContext.h b/clang/include/clang/AST/ASTContext.h index 2a67091..5fa515d 100644 --- a/clang/include/clang/AST/ASTContext.h +++ b/clang/include/clang/AST/ASTContext.h @@ -1864,9 +1864,7 @@ public: /// arguments to the builtin that are required to be integer constant /// expressions. QualType GetBuiltinType(unsigned ID, GetBuiltinTypeError &Error, - unsigned *IntegerConstantArgs = nullptr, - bool *OverrideNonnullReturn = nullptr, - unsigned *OverrideNonnullArgs = nullptr) const; + unsigned *IntegerConstantArgs = nullptr) const; private: CanQualType getFromTargetType(unsigned Type) const; diff --git a/clang/include/clang/Basic/Builtins.def b/clang/include/clang/Basic/Builtins.def index 6a83c1a..d1eafdc 100644 --- a/clang/include/clang/Basic/Builtins.def +++ b/clang/include/clang/Basic/Builtins.def @@ -55,12 +55,6 @@ // S -> signed // U -> unsigned // I -> Required to constant fold to an integer constant expression. -// N -> Do not assume non-null for optimizations even if attributed nonnull. -// This can be used when a relevant standard requires arguments or -// returns to be non-null and they are attributed accordingly but in -// practice are not used in this way. This typically used when a size -// parameter is also provided and when zero it would be reasonable to -// give an invalid pointer. // // Types may be postfixed with the following modifiers: // * -> pointer (optionally followed by an address space number, if no address @@ -792,27 +786,27 @@ LIBBUILTIN(_Exit, "vi", "fr", "stdlib.h", ALL_LANGUAGES) LIBBUILTIN(malloc, "v*z", "f", "stdlib.h", ALL_LANGUAGES) LIBBUILTIN(realloc, "v*v*z", "f", "stdlib.h", ALL_LANGUAGES) // C99 string.h -LIBBUILTIN(memcpy, "Nv*Nv*NvC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(memcmp, "iNvC*NvC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(memmove, "Nv*Nv*NvC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strcpy, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strncpy, "Nc*Nc*NcC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strcmp, "icC*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strncmp, "iNcC*NcC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strcat, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strncat, "c*c*NcC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strxfrm, "zc*cC*z", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(memchr, "Nv*NvC*iz", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strchr, "c*cC*i", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strcspn, "zcC*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strpbrk, "c*cC*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strrchr, "c*cC*i", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strspn, "zcC*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strstr, "c*cC*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strtok, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(memset, "Nv*Nv*iz", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strerror, "c*i", "f", "string.h", ALL_LANGUAGES) -LIBBUILTIN(strlen, "zcC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(memcpy, "v*v*vC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(memcmp, "ivC*vC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(memmove, "v*v*vC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strcpy, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strncpy, "c*c*cC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strcmp, "icC*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strncmp, "icC*cC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strcat, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strncat, "c*c*cC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strxfrm, "zc*cC*z", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(memchr, "v*vC*iz", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strchr, "c*cC*i", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strcspn, "zcC*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strpbrk, "c*cC*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strrchr, "c*cC*i", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strspn, "zcC*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strstr, "c*cC*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strtok, "c*c*cC*", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(memset, "v*v*iz", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strerror, "c*i", "f", "string.h", ALL_LANGUAGES) +LIBBUILTIN(strlen, "zcC*", "f", "string.h", ALL_LANGUAGES) // C99 stdio.h LIBBUILTIN(printf, "icC*.", "fp:0:", "stdio.h", ALL_LANGUAGES) LIBBUILTIN(fprintf, "iP*cC*.", "fp:1:", "stdio.h", ALL_LANGUAGES) @@ -846,12 +840,12 @@ LIBBUILTIN(toupper, "ii", "fnU", "ctype.h", ALL_LANGUAGES) // C99 wchar.h // FIXME: This list is incomplete. We should cover at least the functions that // take format strings. -LIBBUILTIN(wcschr, "w*wC*w", "f", "wchar.h", ALL_LANGUAGES) -LIBBUILTIN(wcscmp, "iwC*wC*", "f", "wchar.h", ALL_LANGUAGES) -LIBBUILTIN(wcslen, "zwC*", "f", "wchar.h", ALL_LANGUAGES) -LIBBUILTIN(wcsncmp, "iNwC*NwC*z", "f", "wchar.h", ALL_LANGUAGES) -LIBBUILTIN(wmemchr, "Nw*NwC*wz", "f", "wchar.h", ALL_LANGUAGES) -LIBBUILTIN(wmemcmp, "iNwC*NwC*z", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wcschr, "w*wC*w", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wcscmp, "iwC*wC*", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wcslen, "zwC*", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wcsncmp, "iwC*wC*z", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wmemchr, "w*wC*wz", "f", "wchar.h", ALL_LANGUAGES) +LIBBUILTIN(wmemcmp, "iwC*wC*z", "f", "wchar.h", ALL_LANGUAGES) // C99 // In some systems setjmp is a macro that expands to _setjmp. We undefine diff --git a/clang/lib/AST/ASTContext.cpp b/clang/lib/AST/ASTContext.cpp index 1c1f78a..071537a 100644 --- a/clang/lib/AST/ASTContext.cpp +++ b/clang/lib/AST/ASTContext.cpp @@ -8499,14 +8499,13 @@ void ASTMutationListener::DeducedReturnType(const FunctionDecl *FD, /// to be an Integer Constant Expression. static QualType DecodeTypeFromStr(const char *&Str, const ASTContext &Context, ASTContext::GetBuiltinTypeError &Error, - bool &RequiresICE, bool &OverrideNonnull, + bool &RequiresICE, bool AllowTypeModifiers) { // Modifiers. int HowLong = 0; bool Signed = false, Unsigned = false; RequiresICE = false; - OverrideNonnull = false; - + // Read the prefixed modifiers first. bool Done = false; while (!Done) { @@ -8515,9 +8514,6 @@ static QualType DecodeTypeFromStr(const char *&Str, const ASTContext &Context, case 'I': RequiresICE = true; break; - case 'N': - OverrideNonnull = true; - break; case 'S': assert(!Unsigned && "Can't use both 'S' and 'U' modifiers!"); assert(!Signed && "Can't use 'S' modifier multiple times!"); @@ -8652,8 +8648,8 @@ static QualType DecodeTypeFromStr(const char *&Str, const ASTContext &Context, assert(End != Str && "Missing vector size"); Str = End; - QualType ElementType = DecodeTypeFromStr(Str, Context, Error, RequiresICE, - OverrideNonnull, false); + QualType ElementType = DecodeTypeFromStr(Str, Context, Error, + RequiresICE, false); assert(!RequiresICE && "Can't require vector ICE"); // TODO: No way to make AltiVec vectors in builtins yet. @@ -8668,15 +8664,15 @@ static QualType DecodeTypeFromStr(const char *&Str, const ASTContext &Context, assert(End != Str && "Missing vector size"); Str = End; - + QualType ElementType = DecodeTypeFromStr(Str, Context, Error, RequiresICE, - OverrideNonnull, false); + false); Type = Context.getExtVectorType(ElementType, NumElements); break; } case 'X': { QualType ElementType = DecodeTypeFromStr(Str, Context, Error, RequiresICE, - OverrideNonnull, false); + false); assert(!RequiresICE && "Can't require complex ICE"); Type = Context.getComplexType(ElementType); break; @@ -8758,37 +8754,27 @@ static QualType DecodeTypeFromStr(const char *&Str, const ASTContext &Context, } /// GetBuiltinType - Return the type for the specified builtin. -QualType ASTContext::GetBuiltinType(unsigned Id, GetBuiltinTypeError &Error, - unsigned *IntegerConstantArgs, - bool *OverrideNonnullReturn, - unsigned *OverrideNonnullArgs) const { +QualType ASTContext::GetBuiltinType(unsigned Id, + GetBuiltinTypeError &Error, + unsigned *IntegerConstantArgs) const { const char *TypeStr = BuiltinInfo.getTypeString(Id); SmallVector ArgTypes; bool RequiresICE = false; - bool OverrideNonnull = false; Error = GE_None; - QualType ResType = DecodeTypeFromStr(TypeStr, *this, Error, RequiresICE, - OverrideNonnull, true); + QualType ResType = DecodeTypeFromStr(TypeStr, *this, Error, + RequiresICE, true); if (Error != GE_None) return QualType(); - - if (OverrideNonnullReturn) - *OverrideNonnullReturn = OverrideNonnull; + assert(!RequiresICE && "Result of intrinsic cannot be required to be an ICE"); - + while (TypeStr[0] && TypeStr[0] != '.') { - QualType Ty = DecodeTypeFromStr(TypeStr, *this, Error, RequiresICE, - OverrideNonnull, true); + QualType Ty = DecodeTypeFromStr(TypeStr, *this, Error, RequiresICE, true); if (Error != GE_None) return QualType(); - // If this argument should have any nonnull annotations overriden, fill in - // the bitmask. - if (OverrideNonnull && OverrideNonnullArgs) - *OverrideNonnullArgs |= 1 << ArgTypes.size(); - // If this argument is required to be an IntegerConstantExpression and the // caller cares, fill in the bitmask we return. if (RequiresICE && IntegerConstantArgs) diff --git a/clang/lib/CodeGen/CGCall.cpp b/clang/lib/CodeGen/CGCall.cpp index 7e8d516..55191b2 100644 --- a/clang/lib/CodeGen/CGCall.cpp +++ b/clang/lib/CodeGen/CGCall.cpp @@ -1759,34 +1759,6 @@ void CodeGenModule::AddDefaultFnAttrs(llvm::Function &F) { F.addAttributes(llvm::AttributeList::FunctionIndex, AS); } -/// Returns the attribute (either parameter attribute, or function -/// attribute), which declares argument ArgNo to be non-null. -static const NonNullAttr *getNonNullAttr(const Decl *FD, const ParmVarDecl *PVD, - QualType ArgType, unsigned ArgNo) { - // FIXME: __attribute__((nonnull)) can also be applied to: - // - references to pointers, where the pointee is known to be - // nonnull (apparently a Clang extension) - // - transparent unions containing pointers - // In the former case, LLVM IR cannot represent the constraint. In - // the latter case, we have no guarantee that the transparent union - // is in fact passed as a pointer. - if (!ArgType->isAnyPointerType() && !ArgType->isBlockPointerType()) - return nullptr; - // First, check attribute on parameter itself. - if (PVD) { - if (auto ParmNNAttr = PVD->getAttr()) - return ParmNNAttr; - } - // Check function attributes. - if (!FD) - return nullptr; - for (const auto *NNAttr : FD->specific_attrs()) { - if (NNAttr->isNonNull(ArgNo)) - return NNAttr; - } - return nullptr; -} - void CodeGenModule::ConstructAttributeList( StringRef Name, const CGFunctionInfo &FI, CGCalleeInfo CalleeInfo, AttributeListType &PAL, unsigned &CallingConv, bool AttrOnCallSite) { @@ -1803,22 +1775,6 @@ void CodeGenModule::ConstructAttributeList( CalleeInfo.getCalleeFunctionProtoType()); const Decl *TargetDecl = CalleeInfo.getCalleeDecl(); - const FunctionDecl *FD = dyn_cast_or_null(TargetDecl); - - // Check if this is a builtin function that might override some attributes. - unsigned BuiltinID = FD ? FD->getBuiltinID() : 0; - bool OverrideNonnullReturn = false; - unsigned OverrideNonnullArgs = 0; - if (BuiltinID) { - ASTContext::GetBuiltinTypeError Error; - getContext().GetBuiltinType(BuiltinID, Error, nullptr, - &OverrideNonnullReturn, &OverrideNonnullArgs); - // Note that we can't check the 'Error' here as there may be errors that - // have been diagnosed and reported to the programmer as warnings but - // repaired in the AST such as for implicit declarations of builtin - // functions. None of those impact our usage of this to analyze attributes - // for the builtins. - } bool HasOptnone = false; // FIXME: handle sseregparm someday... @@ -1834,13 +1790,13 @@ void CodeGenModule::ConstructAttributeList( if (TargetDecl->hasAttr()) FuncAttrs.addAttribute(llvm::Attribute::Convergent); - if (FD) { + if (const FunctionDecl *Fn = dyn_cast(TargetDecl)) { AddAttributesFromFunctionProtoType( - getContext(), FuncAttrs, FD->getType()->getAs()); + getContext(), FuncAttrs, Fn->getType()->getAs()); // Don't use [[noreturn]] or _Noreturn for a call to a virtual function. // These attributes are not inherited by overloads. - const CXXMethodDecl *MD = dyn_cast(FD); - if (FD->isNoReturn() && !(AttrOnCallSite && MD && MD->isVirtual())) + const CXXMethodDecl *MD = dyn_cast(Fn); + if (Fn->isNoReturn() && !(AttrOnCallSite && MD && MD->isVirtual())) FuncAttrs.addAttribute(llvm::Attribute::NoReturn); } @@ -1857,7 +1813,7 @@ void CodeGenModule::ConstructAttributeList( } if (TargetDecl->hasAttr()) RetAttrs.addAttribute(llvm::Attribute::NoAlias); - if (TargetDecl->hasAttr() && !OverrideNonnullReturn) + if (TargetDecl->hasAttr()) RetAttrs.addAttribute(llvm::Attribute::NonNull); HasOptnone = TargetDecl->hasAttr(); @@ -1889,6 +1845,7 @@ void CodeGenModule::ConstructAttributeList( // we have a decl for the function and it has a target attribute then // parse that and add it to the feature set. StringRef TargetCPU = getTarget().getTargetOpts().CPU; + const FunctionDecl *FD = dyn_cast_or_null(TargetDecl); if (FD && FD->hasAttr()) { llvm::StringMap FeatureMap; getFunctionFeatureMap(FeatureMap, FD); @@ -2080,13 +2037,6 @@ void CodeGenModule::ConstructAttributeList( continue; } - if (FD && ArgNo < FD->param_size() && ParamType->isPointerType()) { - auto *PVD = FD->getParamDecl(ArgNo); - if (getNonNullAttr(FD, PVD, ParamType, PVD->getFunctionScopeIndex()) && - (!BuiltinID || (OverrideNonnullArgs & (1 << ArgNo)) == 0)) - Attrs.addAttribute(llvm::Attribute::NonNull); - } - if (const auto *RefTy = ParamType->getAs()) { QualType PTy = RefTy->getPointeeType(); if (!PTy->isIncompleteType() && PTy->isConstantSizeType()) @@ -2166,6 +2116,34 @@ static llvm::Value *emitArgumentDemotion(CodeGenFunction &CGF, return CGF.Builder.CreateFPCast(value, varType, "arg.unpromote"); } +/// Returns the attribute (either parameter attribute, or function +/// attribute), which declares argument ArgNo to be non-null. +static const NonNullAttr *getNonNullAttr(const Decl *FD, const ParmVarDecl *PVD, + QualType ArgType, unsigned ArgNo) { + // FIXME: __attribute__((nonnull)) can also be applied to: + // - references to pointers, where the pointee is known to be + // nonnull (apparently a Clang extension) + // - transparent unions containing pointers + // In the former case, LLVM IR cannot represent the constraint. In + // the latter case, we have no guarantee that the transparent union + // is in fact passed as a pointer. + if (!ArgType->isAnyPointerType() && !ArgType->isBlockPointerType()) + return nullptr; + // First, check attribute on parameter itself. + if (PVD) { + if (auto ParmNNAttr = PVD->getAttr()) + return ParmNNAttr; + } + // Check function attributes. + if (!FD) + return nullptr; + for (const auto *NNAttr : FD->specific_attrs()) { + if (NNAttr->isNonNull(ArgNo)) + return NNAttr; + } + return nullptr; +} + namespace { struct CopyBackSwiftError final : EHScopeStack::Cleanup { Address Temp; diff --git a/clang/test/CodeGen/function-attributes.c b/clang/test/CodeGen/function-attributes.c index 49f47bf..2139f6f 100644 --- a/clang/test/CodeGen/function-attributes.c +++ b/clang/test/CodeGen/function-attributes.c @@ -108,20 +108,6 @@ void f20(void) { _setjmp(0); } -// Bogus declarations that will end up with bad types when detecting builtins, -// but that we will still process when considering whether to add attributes. -struct __jmp_buf_tag; -extern int __sigsetjmp(struct __jmp_buf_tag *__env, int __savemask); - -// CHECK-LABEL: define void @f21() -// CHECK: { -// CHECK: call i32 @__sigsetjmp(%{{.*}}* null, i32 0) -// CHECK: [[RT_CALL]] -// CHECK: ret void -void f21(void) { - __sigsetjmp(0, 0); -} - // CHECK: attributes [[NUW]] = { nounwind optsize{{.*}} } // CHECK: attributes [[AI]] = { alwaysinline nounwind optsize{{.*}} } // CHECK: attributes [[NUW_OS_RN]] = { nounwind optsize readnone{{.*}} } diff --git a/clang/test/CodeGen/nonnull.c b/clang/test/CodeGen/nonnull.c index 63d8b90..7c33e63 100644 --- a/clang/test/CodeGen/nonnull.c +++ b/clang/test/CodeGen/nonnull.c @@ -49,87 +49,3 @@ __attribute__((nonnull(2))) {} // CHECK: define void @bar8(i32* nonnull %a, i32* nonnull %b) void bar8(int *a, int *b) __attribute__((nonnull)) __attribute__((nonnull(1))) {} - -// CHECK: declare void @foo_decl(i32* nonnull) -void foo_decl(int *__attribute__((nonnull))); - -// CHECK: declare void @bar_decl(i32* nonnull) -void bar_decl(int *) __attribute__((nonnull(1))); - -// CHECK: declare void @bar2_decl(i32*, i32* nonnull) -void bar2_decl(int *, int *) __attribute__((nonnull(2))); - -// CHECK: declare nonnull i32* @bar3_decl() -int *bar3_decl(void) __attribute__((returns_nonnull)); - -// CHECK: declare i32 @bar4_decl(i32, i32* nonnull) -int bar4_decl(int, int *) __attribute__((nonnull)); - -// CHECK: declare i32 @bar5_decl(i32, i32* nonnull) -int bar5_decl(int, int *) __attribute__((nonnull(1, 2))); - -// CHECK: declare i32 @bar6_decl(i64) -int bar6_decl(TransparentUnion) __attribute__((nonnull(1))); - -// CHECK: declare void @bar7_decl(i32* nonnull, i32* nonnull) -void bar7_decl(int *, int *) - __attribute__((nonnull(1))) __attribute__((nonnull(2))); - -// CHECK: declare void @bar8_decl(i32* nonnull, i32* nonnull) -void bar8_decl(int *, int *) - __attribute__((nonnull)) __attribute__((nonnull(1))); - -// Clang specially disables nonnull attributes on some library builtin -// functions to work around the fact that the standard and some vendors mark -// them as nonnull even though they are frequently called in practice with null -// arguments if a corresponding size argument is zero. - -// CHECK: declare i8* @memcpy(i8*, i8*, i64) -void *memcpy(void *, const void *, unsigned long) - __attribute__((nonnull(1, 2))) __attribute__((returns_nonnull)); - -// CHECK: declare i32 @memcmp(i8*, i8*, i64) -int memcmp(const void *, const void *, unsigned long) __attribute__((nonnull(1, 2))); - -// CHECK: declare i8* @memmove(i8*, i8*, i64) -void *memmove(void *, const void *, unsigned long) - __attribute__((nonnull(1, 2))) __attribute__((returns_nonnull)); - -// CHECK: declare i8* @strncpy(i8*, i8*, i64) -char *strncpy(char *, const char *, unsigned long) - __attribute__((nonnull(1, 2))) __attribute__((returns_nonnull)); - -// CHECK: declare i32 @strncmp(i8*, i8*, i64) -int strncmp(const char *, const char *, unsigned long) __attribute__((nonnull(1, 2))); - -// CHECK: declare nonnull i8* @strncat(i8* nonnull, i8*, i64) -char *strncat(char *, const char *, unsigned long) - __attribute__((nonnull(1, 2))) __attribute__((returns_nonnull)); - -// CHECK: declare i8* @memchr(i8*, i32, i64) -void *memchr(const void *__attribute__((nonnull)), int, unsigned long) - __attribute__((returns_nonnull)); - -// CHECK: declare i8* @memset(i8*, i32, i64) -void *memset(void *__attribute__((nonnull)), int, unsigned long) - __attribute__((returns_nonnull)); - -void use_declarations(int *p, void *volatile *sink) { - foo_decl(p); - bar_decl(p); - bar2_decl(p, p); - (void)bar3_decl(); - bar4_decl(42, p); - bar5_decl(42, p); - bar6_decl(p); - bar7_decl(p, p); - bar8_decl(p, p); - *sink = (void *)&memcpy; - *sink = (void *)&memcmp; - *sink = (void *)&memmove; - *sink = (void *)&strncpy; - *sink = (void *)&strncmp; - *sink = (void *)&strncat; - *sink = (void *)&memchr; - *sink = (void *)&memset; -}