{-# LANGUAGE GeneralizedNewtypeDeriving #-} module Llvm.MetaData where import GhcPrelude import Llvm.Types import Outputable -- The LLVM Metadata System. -- -- The LLVM metadata feature is poorly documented but roughly follows the -- following design: -- * Metadata can be constructed in a few different ways (See below). -- * After which it can either be attached to LLVM statements to pass along -- extra information to the optimizer and code generator OR specifically named -- metadata has an affect on the whole module (i.e., linking behaviour). -- -- -- # Constructing metadata -- Metadata comes largely in three forms: -- -- * Metadata expressions -- these are the raw metadata values that encode -- information. They consist of metadata strings, metadata nodes, regular -- LLVM values (both literals and references to global variables) and -- metadata expressions (i.e., recursive data type). Some examples: -- !{ !"hello", !0, i32 0 } -- !{ !1, !{ i32 0 } } -- -- * Metadata nodes -- global metadata variables that attach a metadata -- expression to a number. For example: -- !0 = !{ [] !} -- -- * Named metadata -- global metadata variables that attach a metadata nodes -- to a name. Used ONLY to communicated module level information to LLVM -- through a meaningful name. For example: -- !llvm.module.linkage = !{ !0, !1 } -- -- -- # Using Metadata -- Using metadata depends on the form it is in: -- -- * Attach to instructions -- metadata can be attached to LLVM instructions -- using a specific reference as follows: -- %l = load i32* @glob, !nontemporal !10 -- %m = load i32* @glob, !nontemporal !{ i32 0, !{ i32 0 } } -- Only metadata nodes or expressions can be attached, named metadata cannot. -- Refer to LLVM documentation for which instructions take metadata and its -- meaning. -- -- * As arguments -- llvm functions can take metadata as arguments, for -- example: -- call void @llvm.dbg.value(metadata !{ i32 0 }, i64 0, metadata !1) -- As with instructions, only metadata nodes or expressions can be attached. -- -- * As a named metadata -- Here the metadata is simply declared in global -- scope using a specific name to communicate module level information to LLVM. -- For example: -- !llvm.module.linkage = !{ !0, !1 } -- -- | A reference to an un-named metadata node. newtype MetaId = MetaId Int deriving (Eq, Ord, Enum) instance Outputable MetaId where ppr (MetaId n) = char '!' <> int n -- | LLVM metadata expressions data MetaExpr = MetaStr !LMString | MetaNode !MetaId | MetaVar !LlvmVar | MetaStruct [MetaExpr] deriving (Eq) instance Outputable MetaExpr where ppr (MetaVar (LMLitVar (LMNullLit _))) = text "null" ppr (MetaStr s ) = char '!' <> doubleQuotes (ftext s) ppr (MetaNode n ) = ppr n ppr (MetaVar v ) = ppr v ppr (MetaStruct es) = char '!' <> braces (ppCommaJoin es) -- | Associates some metadata with a specific label for attaching to an -- instruction. data MetaAnnot = MetaAnnot LMString MetaExpr deriving (Eq) -- | Metadata declarations. Metadata can only be declared in global scope. data MetaDecl -- | Named metadata. Only used for communicating module information to -- LLVM. ('!name = !{ [!] }' form). = MetaNamed !LMString [MetaId] -- | Metadata node declaration. -- ('!0 = metadata !{ }' form). | MetaUnnamed !MetaId !MetaExpr