/// Attribute base class. class Attr<string S> { // String representation of this attribute in the IR. string AttrString = S; } /// Enum attribute. class EnumAttr<string S> : Attr<S>; /// StringBool attribute. class StrBoolAttr<string S> : Attr<S>; /// Target-independent enum attributes. /// Alignment of parameter (5 bits) stored as log2 of alignment with +1 bias. /// 0 means unaligned (different from align(1)). def Alignment : EnumAttr<"align">; /// The result of the function is guaranteed to point to a number of bytes that /// we can determine if we know the value of the function's arguments. def AllocSize : EnumAttr<"allocsize">; /// inline=always. def AlwaysInline : EnumAttr<"alwaysinline">; /// Function can access memory only using pointers based on its arguments. def ArgMemOnly : EnumAttr<"argmemonly">; /// Callee is recognized as a builtin, despite nobuiltin attribute on its /// declaration. def Builtin : EnumAttr<"builtin">; /// Pass structure by value. def ByVal : EnumAttr<"byval">; /// Marks function as being in a cold path. def Cold : EnumAttr<"cold">; /// Can only be moved to control-equivalent blocks. def Convergent : EnumAttr<"convergent">; /// Pointer is known to be dereferenceable. def Dereferenceable : EnumAttr<"dereferenceable">; /// Pointer is either null or dereferenceable. def DereferenceableOrNull : EnumAttr<"dereferenceable_or_null">; /// Function may only access memory that is inaccessible from IR. def InaccessibleMemOnly : EnumAttr<"inaccessiblememonly">; /// Function may only access memory that is either inaccessible from the IR, /// or pointed to by its pointer arguments. def InaccessibleMemOrArgMemOnly : EnumAttr<"inaccessiblemem_or_argmemonly">; /// Pass structure in an alloca. def InAlloca : EnumAttr<"inalloca">; /// Source said inlining was desirable. def InlineHint : EnumAttr<"inlinehint">; /// Force argument to be passed in register. def InReg : EnumAttr<"inreg">; /// Build jump-instruction tables and replace refs. def JumpTable : EnumAttr<"jumptable">; /// Function must be optimized for size first. def MinSize : EnumAttr<"minsize">; /// Naked function. def Naked : EnumAttr<"naked">; /// Nested function static chain. def Nest : EnumAttr<"nest">; /// Considered to not alias after call. def NoAlias : EnumAttr<"noalias">; /// Callee isn't recognized as a builtin. def NoBuiltin : EnumAttr<"nobuiltin">; /// Function creates no aliases of pointer. def NoCapture : EnumAttr<"nocapture">; /// Call cannot be duplicated. def NoDuplicate : EnumAttr<"noduplicate">; /// Disable implicit floating point insts. def NoImplicitFloat : EnumAttr<"noimplicitfloat">; /// inline=never. def NoInline : EnumAttr<"noinline">; /// Function is called early and/or often, so lazy binding isn't worthwhile. def NonLazyBind : EnumAttr<"nonlazybind">; /// Pointer is known to be not null. def NonNull : EnumAttr<"nonnull">; /// The function does not recurse. def NoRecurse : EnumAttr<"norecurse">; /// Disable redzone. def NoRedZone : EnumAttr<"noredzone">; /// Mark the function as not returning. def NoReturn : EnumAttr<"noreturn">; /// Disable Indirect Branch Tracking. def NoCfCheck : EnumAttr<"nocf_check">; /// Function doesn't unwind stack. def NoUnwind : EnumAttr<"nounwind">; /// Select optimizations for best fuzzing signal. def OptForFuzzing : EnumAttr<"optforfuzzing">; /// opt_size. def OptimizeForSize : EnumAttr<"optsize">; /// Function must not be optimized. def OptimizeNone : EnumAttr<"optnone">; /// Function does not access memory. def ReadNone : EnumAttr<"readnone">; /// Function only reads from memory. def ReadOnly : EnumAttr<"readonly">; /// Return value is always equal to this argument. def Returned : EnumAttr<"returned">; /// Function can return twice. def ReturnsTwice : EnumAttr<"returns_twice">; /// Safe Stack protection. def SafeStack : EnumAttr<"safestack">; /// Sign extended before/after call. def SExt : EnumAttr<"signext">; /// Alignment of stack for function (3 bits) stored as log2 of alignment with /// +1 bias 0 means unaligned (different from alignstack=(1)). def StackAlignment : EnumAttr<"alignstack">; /// Function can be speculated. def Speculatable : EnumAttr<"speculatable">; /// Stack protection. def StackProtect : EnumAttr<"ssp">; /// Stack protection required. def StackProtectReq : EnumAttr<"sspreq">; /// Strong Stack protection. def StackProtectStrong : EnumAttr<"sspstrong">; /// Function was called in a scope requiring strict floating point semantics. def StrictFP : EnumAttr<"strictfp">; /// Hidden pointer to structure to return. def StructRet : EnumAttr<"sret">; /// AddressSanitizer is on. def SanitizeAddress : EnumAttr<"sanitize_address">; /// ThreadSanitizer is on. def SanitizeThread : EnumAttr<"sanitize_thread">; /// MemorySanitizer is on. def SanitizeMemory : EnumAttr<"sanitize_memory">; /// HWAddressSanitizer is on. def SanitizeHWAddress : EnumAttr<"sanitize_hwaddress">; /// Argument is swift error. def SwiftError : EnumAttr<"swifterror">; /// Argument is swift self/context. def SwiftSelf : EnumAttr<"swiftself">; /// Function must be in a unwind table. def UWTable : EnumAttr<"uwtable">; /// Function only writes to memory. def WriteOnly : EnumAttr<"writeonly">; /// Zero extended before/after call. def ZExt : EnumAttr<"zeroext">; /// Target-independent string attributes. def LessPreciseFPMAD : StrBoolAttr<"less-precise-fpmad">; def NoInfsFPMath : StrBoolAttr<"no-infs-fp-math">; def NoNansFPMath : StrBoolAttr<"no-nans-fp-math">; def UnsafeFPMath : StrBoolAttr<"unsafe-fp-math">; def NoJumpTables : StrBoolAttr<"no-jump-tables">; def ProfileSampleAccurate : StrBoolAttr<"profile-sample-accurate">; class CompatRule<string F> { // The name of the function called to check the attribute of the caller and // callee and decide whether inlining should be allowed. The function's // signature must match "bool(const Function&, const Function &)", where the // first parameter is the reference to the caller and the second parameter is // the reference to the callee. It must return false if the attributes of the // caller and callee are incompatible, and true otherwise. string CompatFunc = F; } def : CompatRule<"isEqual<SanitizeAddressAttr>">; def : CompatRule<"isEqual<SanitizeThreadAttr>">; def : CompatRule<"isEqual<SanitizeMemoryAttr>">; def : CompatRule<"isEqual<SanitizeHWAddressAttr>">; def : CompatRule<"isEqual<SafeStackAttr>">; class MergeRule<string F> { // The name of the function called to merge the attributes of the caller and // callee. The function's signature must match // "void(Function&, const Function &)", where the first parameter is the // reference to the caller and the second parameter is the reference to the // callee. string MergeFunc = F; } def : MergeRule<"setAND<LessPreciseFPMADAttr>">; def : MergeRule<"setAND<NoInfsFPMathAttr>">; def : MergeRule<"setAND<NoNansFPMathAttr>">; def : MergeRule<"setAND<UnsafeFPMathAttr>">; def : MergeRule<"setOR<NoImplicitFloatAttr>">; def : MergeRule<"setOR<NoJumpTablesAttr>">; def : MergeRule<"setOR<ProfileSampleAccurateAttr>">; def : MergeRule<"adjustCallerSSPLevel">; def : MergeRule<"adjustCallerStackProbes">; def : MergeRule<"adjustCallerStackProbeSize">;