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|
-- Cmm representations using Hoopl's Graph CmmNode e x.
{-# LANGUAGE GADTs #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE ExplicitNamespaces #-}
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(..),
isSecConstant,
-- ** 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 GhcPrelude
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 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
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.
updfr_space :: Maybe ByteOff,
-- XXX: this never contains anything useful, but it should.
-- See comment in GHC.Cmm.LayoutStack.
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)
-- | Should a data in this section be considered constant
isSecConstant :: Section -> Bool
isSecConstant (Section t _) = case t of
Text -> True
ReadOnlyData -> True
RelocatableReadOnlyData -> True
ReadOnlyData16 -> True
CString -> True
Data -> False
UninitialisedData -> False
(OtherSection _) -> False
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
-- 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]
-- | 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]
instance Outputable instr => Outputable (ListGraph instr) where
ppr (ListGraph blocks) = vcat (map ppr blocks)
instance Outputable instr => Outputable (GenBasicBlock instr) where
ppr = pprBBlock
pprBBlock :: Outputable stmt => GenBasicBlock stmt -> SDoc
pprBBlock (BasicBlock ident stmts) =
hang (ppr ident <> colon) 4 (vcat (map ppr stmts))
|