-- Cmm representations using Hoopl's Graph CmmNode e x. {-# LANGUAGE GADTs #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE ExplicitNamespaces #-} {-# LANGUAGE DeriveFunctor #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE FlexibleInstances #-} module GHC.Cmm ( -- * Cmm top-level datatypes CmmProgram, CmmGroup, CmmGroupSRTs, RawCmmGroup, GenCmmGroup, CmmDecl, CmmDeclSRTs, GenCmmDecl(..), CmmGraph, GenCmmGraph(..), CmmBlock, RawCmmDecl, Section(..), SectionType(..), GenCmmStatics(..), type CmmStatics, type RawCmmStatics, CmmStatic(..), SectionProtection(..), sectionProtection, -- ** Blocks containing lists GenBasicBlock(..), blockId, ListGraph(..), pprBBlock, -- * Info Tables CmmTopInfo(..), CmmStackInfo(..), CmmInfoTable(..), topInfoTable, ClosureTypeInfo(..), ProfilingInfo(..), ConstrDescription, -- * Statements, expressions and types module GHC.Cmm.Node, module GHC.Cmm.Expr, ) where import GHC.Prelude import GHC.Types.Id import GHC.Types.CostCentre import GHC.Cmm.CLabel import GHC.Cmm.BlockId import GHC.Cmm.Node import GHC.Runtime.Heap.Layout import GHC.Cmm.Expr import GHC.Cmm.Dataflow.Block import GHC.Cmm.Dataflow.Collections import GHC.Cmm.Dataflow.Graph import GHC.Cmm.Dataflow.Label import GHC.Utils.Outputable import Data.ByteString (ByteString) ----------------------------------------------------------------------------- -- Cmm, GenCmm ----------------------------------------------------------------------------- -- A CmmProgram is a list of CmmGroups -- A CmmGroup is a list of top-level declarations -- When object-splitting is on, each group is compiled into a separate -- .o file. So typically we put closely related stuff in a CmmGroup. -- Section-splitting follows suit and makes one .text subsection for each -- CmmGroup. type CmmProgram = [CmmGroup] type GenCmmGroup d h g = [GenCmmDecl d h g] -- | Cmm group before SRT generation type CmmGroup = GenCmmGroup CmmStatics CmmTopInfo CmmGraph -- | Cmm group with SRTs type CmmGroupSRTs = GenCmmGroup RawCmmStatics CmmTopInfo CmmGraph -- | "Raw" cmm group (TODO (osa): not sure what that means) type RawCmmGroup = GenCmmGroup RawCmmStatics (LabelMap RawCmmStatics) CmmGraph ----------------------------------------------------------------------------- -- CmmDecl, GenCmmDecl ----------------------------------------------------------------------------- -- GenCmmDecl is abstracted over -- d, the type of static data elements in CmmData -- h, the static info preceding the code of a CmmProc -- g, the control-flow graph of a CmmProc -- -- We expect there to be two main instances of this type: -- (a) C--, i.e. populated with various C-- constructs -- (b) Native code, populated with data/instructions -- | A top-level chunk, abstracted over the type of the contents of -- the basic blocks (Cmm or instructions are the likely instantiations). data GenCmmDecl d h g = CmmProc -- A procedure h -- Extra header such as the info table CLabel -- Entry label [GlobalReg] -- Registers live on entry. Note that the set of live -- registers will be correct in generated C-- code, but -- not in hand-written C-- code. However, -- splitAtProcPoints calculates correct liveness -- information for CmmProcs. g -- Control-flow graph for the procedure's code | CmmData -- Static data Section d deriving (Functor) type CmmDecl = GenCmmDecl CmmStatics CmmTopInfo CmmGraph type CmmDeclSRTs = GenCmmDecl RawCmmStatics CmmTopInfo CmmGraph type RawCmmDecl = GenCmmDecl RawCmmStatics (LabelMap RawCmmStatics) CmmGraph ----------------------------------------------------------------------------- -- Graphs ----------------------------------------------------------------------------- type CmmGraph = GenCmmGraph CmmNode data GenCmmGraph n = CmmGraph { g_entry :: BlockId, g_graph :: Graph n C C } type CmmBlock = Block CmmNode C C ----------------------------------------------------------------------------- -- Info Tables ----------------------------------------------------------------------------- -- | CmmTopInfo is attached to each CmmDecl (see defn of CmmGroup), and contains -- the extra info (beyond the executable code) that belongs to that CmmDecl. data CmmTopInfo = TopInfo { info_tbls :: LabelMap CmmInfoTable , stack_info :: CmmStackInfo } topInfoTable :: GenCmmDecl a CmmTopInfo (GenCmmGraph n) -> Maybe CmmInfoTable topInfoTable (CmmProc infos _ _ g) = mapLookup (g_entry g) (info_tbls infos) topInfoTable _ = Nothing data CmmStackInfo = StackInfo { arg_space :: ByteOff, -- number of bytes of arguments on the stack on entry to the -- the proc. This is filled in by GHC.StgToCmm.codeGen, and -- used by the stack allocator later. do_layout :: Bool -- Do automatic stack layout for this proc. This is -- True for all code generated by the code generator, -- but is occasionally False for hand-written Cmm where -- we want to do the stack manipulation manually. } -- | Info table as a haskell data type data CmmInfoTable = CmmInfoTable { cit_lbl :: CLabel, -- Info table label cit_rep :: SMRep, cit_prof :: ProfilingInfo, cit_srt :: Maybe CLabel, -- empty, or a closure address cit_clo :: Maybe (Id, CostCentreStack) -- Just (id,ccs) <=> build a static closure later -- Nothing <=> don't build a static closure -- -- Static closures for FUNs and THUNKs are *not* generated by -- the code generator, because we might want to add SRT -- entries to them later (for FUNs at least; THUNKs are -- treated the same for consistency). See Note [SRTs] in -- GHC.Cmm.Info.Build, in particular the [FUN] optimisation. -- -- This is strictly speaking not a part of the info table that -- will be finally generated, but it's the only convenient -- place to convey this information from the code generator to -- where we build the static closures in -- GHC.Cmm.Info.Build.doSRTs. } data ProfilingInfo = NoProfilingInfo | ProfilingInfo ByteString ByteString -- closure_type, closure_desc ----------------------------------------------------------------------------- -- Static Data ----------------------------------------------------------------------------- data SectionType = Text | Data | ReadOnlyData | RelocatableReadOnlyData | UninitialisedData | ReadOnlyData16 -- .rodata.cst16 on x86_64, 16-byte aligned | CString | OtherSection String deriving (Show) data SectionProtection = ReadWriteSection | ReadOnlySection | WriteProtectedSection -- See Note [Relocatable Read-Only Data] deriving (Eq) -- | Should a data in this section be considered constant at runtime sectionProtection :: Section -> SectionProtection sectionProtection (Section t _) = case t of Text -> ReadOnlySection ReadOnlyData -> ReadOnlySection RelocatableReadOnlyData -> WriteProtectedSection ReadOnlyData16 -> ReadOnlySection CString -> ReadOnlySection Data -> ReadWriteSection UninitialisedData -> ReadWriteSection (OtherSection _) -> ReadWriteSection {- Note [Relocatable Read-Only Data] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Relocatable data are only read-only after relocation at the start of the program. They should be writable from the source code until then. Failure to do so would end up in segfaults at execution when using linkers that do not enforce writability of those sections, such as the gold linker. -} data Section = Section SectionType CLabel data CmmStatic = CmmStaticLit CmmLit -- ^ a literal value, size given by cmmLitRep of the literal. | CmmUninitialised Int -- ^ uninitialised data, N bytes long | CmmString ByteString -- ^ string of 8-bit values only, not zero terminated. | CmmFileEmbed FilePath -- ^ an embedded binary file instance Outputable CmmStatic where ppr (CmmStaticLit lit) = text "CmmStaticLit" <+> ppr lit ppr (CmmUninitialised n) = text "CmmUninitialised" <+> ppr n ppr (CmmString _) = text "CmmString" ppr (CmmFileEmbed fp) = text "CmmFileEmbed" <+> text fp -- Static data before SRT generation data GenCmmStatics (rawOnly :: Bool) where CmmStatics :: CLabel -- Label of statics -> CmmInfoTable -> CostCentreStack -> [CmmLit] -- Payload -> GenCmmStatics 'False -- | Static data, after SRTs are generated CmmStaticsRaw :: CLabel -- Label of statics -> [CmmStatic] -- The static data itself -> GenCmmStatics a type CmmStatics = GenCmmStatics 'False type RawCmmStatics = GenCmmStatics 'True -- ----------------------------------------------------------------------------- -- Basic blocks consisting of lists -- These are used by the LLVM and NCG backends, when populating Cmm -- with lists of instructions. data GenBasicBlock i = BasicBlock BlockId [i] deriving (Functor) -- | The branch block id is that of the first block in -- the branch, which is that branch's entry point blockId :: GenBasicBlock i -> BlockId blockId (BasicBlock blk_id _ ) = blk_id newtype ListGraph i = ListGraph [GenBasicBlock i] deriving (Functor) instance Outputable instr => Outputable (ListGraph instr) where ppr (ListGraph blocks) = vcat (map ppr blocks) instance OutputableP env instr => OutputableP env (ListGraph instr) where pdoc env g = ppr (fmap (pdoc env) g) instance Outputable instr => Outputable (GenBasicBlock instr) where ppr = pprBBlock instance OutputableP env instr => OutputableP env (GenBasicBlock instr) where pdoc env block = ppr (fmap (pdoc env) block) pprBBlock :: Outputable stmt => GenBasicBlock stmt -> SDoc pprBBlock (BasicBlock ident stmts) = hang (ppr ident <> colon) 4 (vcat (map ppr stmts))