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|
{-# LANGUAGE CPP #-}
--------------------------------------------------------------------------------
-- | Pretty print LLVM IR Code.
--
module Llvm.PpLlvm (
-- * Top level LLVM objects.
ppLlvmModule,
ppLlvmComments,
ppLlvmComment,
ppLlvmGlobals,
ppLlvmGlobal,
ppLlvmAliases,
ppLlvmAlias,
ppLlvmMetas,
ppLlvmMeta,
ppLlvmFunctionDecls,
ppLlvmFunctionDecl,
ppLlvmFunctions,
ppLlvmFunction,
) where
#include "HsVersions.h"
import GhcPrelude
import Llvm.AbsSyn
import Llvm.MetaData
import Llvm.Types
import Data.List ( intersperse )
import Outputable
import Unique
import FastString ( sLit )
--------------------------------------------------------------------------------
-- * Top Level Print functions
--------------------------------------------------------------------------------
-- | Print out a whole LLVM module.
ppLlvmModule :: LlvmModule -> SDoc
ppLlvmModule (LlvmModule comments aliases meta globals decls funcs)
= ppLlvmComments comments $+$ newLine
$+$ ppLlvmAliases aliases $+$ newLine
$+$ ppLlvmMetas meta $+$ newLine
$+$ ppLlvmGlobals globals $+$ newLine
$+$ ppLlvmFunctionDecls decls $+$ newLine
$+$ ppLlvmFunctions funcs
-- | Print out a multi-line comment, can be inside a function or on its own
ppLlvmComments :: [LMString] -> SDoc
ppLlvmComments comments = vcat $ map ppLlvmComment comments
-- | Print out a comment, can be inside a function or on its own
ppLlvmComment :: LMString -> SDoc
ppLlvmComment com = semi <+> ftext com
-- | Print out a list of global mutable variable definitions
ppLlvmGlobals :: [LMGlobal] -> SDoc
ppLlvmGlobals ls = vcat $ map ppLlvmGlobal ls
-- | Print out a global mutable variable definition
ppLlvmGlobal :: LMGlobal -> SDoc
ppLlvmGlobal (LMGlobal var@(LMGlobalVar _ _ link x a c) dat) =
let sect = case x of
Just x' -> text ", section" <+> doubleQuotes (ftext x')
Nothing -> empty
align = case a of
Just a' -> text ", align" <+> int a'
Nothing -> empty
rhs = case dat of
Just stat -> pprSpecialStatic stat
Nothing -> ppr (pLower $ getVarType var)
-- Position of linkage is different for aliases.
const = case c of
Global -> text "global"
Constant -> text "constant"
Alias -> text "alias"
in ppAssignment var $ ppr link <+> const <+> rhs <> sect <> align
$+$ newLine
ppLlvmGlobal (LMGlobal var val) = sdocWithDynFlags $ \dflags ->
error $ "Non Global var ppr as global! "
++ showSDoc dflags (ppr var) ++ " " ++ showSDoc dflags (ppr val)
-- | Print out a list of LLVM type aliases.
ppLlvmAliases :: [LlvmAlias] -> SDoc
ppLlvmAliases tys = vcat $ map ppLlvmAlias tys
-- | Print out an LLVM type alias.
ppLlvmAlias :: LlvmAlias -> SDoc
ppLlvmAlias (name, ty)
= char '%' <> ftext name <+> equals <+> text "type" <+> ppr ty
-- | Print out a list of LLVM metadata.
ppLlvmMetas :: [MetaDecl] -> SDoc
ppLlvmMetas metas = vcat $ map ppLlvmMeta metas
-- | Print out an LLVM metadata definition.
ppLlvmMeta :: MetaDecl -> SDoc
ppLlvmMeta (MetaUnnamed n m)
= ppr n <+> equals <+> ppr m
ppLlvmMeta (MetaNamed n m)
= exclamation <> ftext n <+> equals <+> exclamation <> braces nodes
where
nodes = hcat $ intersperse comma $ map ppr m
-- | Print out a list of function definitions.
ppLlvmFunctions :: LlvmFunctions -> SDoc
ppLlvmFunctions funcs = vcat $ map ppLlvmFunction funcs
-- | Print out a function definition.
ppLlvmFunction :: LlvmFunction -> SDoc
ppLlvmFunction fun =
let attrDoc = ppSpaceJoin (funcAttrs fun)
secDoc = case funcSect fun of
Just s' -> text "section" <+> (doubleQuotes $ ftext s')
Nothing -> empty
prefixDoc = case funcPrefix fun of
Just v -> text "prefix" <+> ppr v
Nothing -> empty
in text "define" <+> ppLlvmFunctionHeader (funcDecl fun) (funcArgs fun)
<+> attrDoc <+> secDoc <+> prefixDoc
$+$ lbrace
$+$ ppLlvmBlocks (funcBody fun)
$+$ rbrace
$+$ newLine
$+$ newLine
-- | Print out a function definition header.
ppLlvmFunctionHeader :: LlvmFunctionDecl -> [LMString] -> SDoc
ppLlvmFunctionHeader (LlvmFunctionDecl n l c r varg p a) args
= let varg' = case varg of
VarArgs | null p -> sLit "..."
| otherwise -> sLit ", ..."
_otherwise -> sLit ""
align = case a of
Just a' -> text " align " <> ppr a'
Nothing -> empty
args' = map (\((ty,p),n) -> ppr ty <+> ppSpaceJoin p <+> char '%'
<> ftext n)
(zip p args)
in ppr l <+> ppr c <+> ppr r <+> char '@' <> ftext n <> lparen <>
(hsep $ punctuate comma args') <> ptext varg' <> rparen <> align
-- | Print out a list of function declaration.
ppLlvmFunctionDecls :: LlvmFunctionDecls -> SDoc
ppLlvmFunctionDecls decs = vcat $ map ppLlvmFunctionDecl decs
-- | Print out a function declaration.
-- Declarations define the function type but don't define the actual body of
-- the function.
ppLlvmFunctionDecl :: LlvmFunctionDecl -> SDoc
ppLlvmFunctionDecl (LlvmFunctionDecl n l c r varg p a)
= let varg' = case varg of
VarArgs | null p -> sLit "..."
| otherwise -> sLit ", ..."
_otherwise -> sLit ""
align = case a of
Just a' -> text " align" <+> ppr a'
Nothing -> empty
args = hcat $ intersperse (comma <> space) $
map (\(t,a) -> ppr t <+> ppSpaceJoin a) p
in text "declare" <+> ppr l <+> ppr c <+> ppr r <+> char '@' <>
ftext n <> lparen <> args <> ptext varg' <> rparen <> align $+$ newLine
-- | Print out a list of LLVM blocks.
ppLlvmBlocks :: LlvmBlocks -> SDoc
ppLlvmBlocks blocks = vcat $ map ppLlvmBlock blocks
-- | Print out an LLVM block.
-- It must be part of a function definition.
ppLlvmBlock :: LlvmBlock -> SDoc
ppLlvmBlock (LlvmBlock blockId stmts) =
let isLabel (MkLabel _) = True
isLabel _ = False
(block, rest) = break isLabel stmts
ppRest = case rest of
MkLabel id:xs -> ppLlvmBlock (LlvmBlock id xs)
_ -> empty
in ppLlvmBlockLabel blockId
$+$ (vcat $ map ppLlvmStatement block)
$+$ newLine
$+$ ppRest
-- | Print out an LLVM block label.
ppLlvmBlockLabel :: LlvmBlockId -> SDoc
ppLlvmBlockLabel id = pprUniqueAlways id <> colon
-- | Print out an LLVM statement.
ppLlvmStatement :: LlvmStatement -> SDoc
ppLlvmStatement stmt =
let ind = (text " " <>)
in case stmt of
Assignment dst expr -> ind $ ppAssignment dst (ppLlvmExpression expr)
Fence st ord -> ind $ ppFence st ord
Branch target -> ind $ ppBranch target
BranchIf cond ifT ifF -> ind $ ppBranchIf cond ifT ifF
Comment comments -> ind $ ppLlvmComments comments
MkLabel label -> ppLlvmBlockLabel label
Store value ptr -> ind $ ppStore value ptr
Switch scrut def tgs -> ind $ ppSwitch scrut def tgs
Return result -> ind $ ppReturn result
Expr expr -> ind $ ppLlvmExpression expr
Unreachable -> ind $ text "unreachable"
Nop -> empty
MetaStmt meta s -> ppMetaStatement meta s
-- | Print out an LLVM expression.
ppLlvmExpression :: LlvmExpression -> SDoc
ppLlvmExpression expr
= case expr of
Alloca tp amount -> ppAlloca tp amount
LlvmOp op left right -> ppMachOp op left right
Call tp fp args attrs -> ppCall tp fp (map MetaVar args) attrs
CallM tp fp args attrs -> ppCall tp fp args attrs
Cast op from to -> ppCast op from to
Compare op left right -> ppCmpOp op left right
Extract vec idx -> ppExtract vec idx
ExtractV struct idx -> ppExtractV struct idx
Insert vec elt idx -> ppInsert vec elt idx
GetElemPtr inb ptr indexes -> ppGetElementPtr inb ptr indexes
Load ptr -> ppLoad ptr
ALoad ord st ptr -> ppALoad ord st ptr
Malloc tp amount -> ppMalloc tp amount
AtomicRMW aop tgt src ordering -> ppAtomicRMW aop tgt src ordering
CmpXChg addr old new s_ord f_ord -> ppCmpXChg addr old new s_ord f_ord
Phi tp predecessors -> ppPhi tp predecessors
Asm asm c ty v se sk -> ppAsm asm c ty v se sk
MExpr meta expr -> ppMetaExpr meta expr
--------------------------------------------------------------------------------
-- * Individual print functions
--------------------------------------------------------------------------------
-- | Should always be a function pointer. So a global var of function type
-- (since globals are always pointers) or a local var of pointer function type.
ppCall :: LlvmCallType -> LlvmVar -> [MetaExpr] -> [LlvmFuncAttr] -> SDoc
ppCall ct fptr args attrs = case fptr of
--
-- if local var function pointer, unwrap
LMLocalVar _ (LMPointer (LMFunction d)) -> ppCall' d
-- should be function type otherwise
LMGlobalVar _ (LMFunction d) _ _ _ _ -> ppCall' d
-- not pointer or function, so error
_other -> error $ "ppCall called with non LMFunction type!\nMust be "
++ " called with either global var of function type or "
++ "local var of pointer function type."
where
ppCall' (LlvmFunctionDecl _ _ cc ret argTy params _) =
let tc = if ct == TailCall then text "tail " else empty
ppValues = hsep $ punctuate comma $ map ppCallMetaExpr args
ppArgTy = (ppCommaJoin $ map fst params) <>
(case argTy of
VarArgs -> text ", ..."
FixedArgs -> empty)
fnty = space <> lparen <> ppArgTy <> rparen
attrDoc = ppSpaceJoin attrs
in tc <> text "call" <+> ppr cc <+> ppr ret
<> fnty <+> ppName fptr <> lparen <+> ppValues
<+> rparen <+> attrDoc
-- Metadata needs to be marked as having the `metadata` type when used
-- in a call argument
ppCallMetaExpr (MetaVar v) = ppr v
ppCallMetaExpr v = text "metadata" <+> ppr v
ppMachOp :: LlvmMachOp -> LlvmVar -> LlvmVar -> SDoc
ppMachOp op left right =
(ppr op) <+> (ppr (getVarType left)) <+> ppName left
<> comma <+> ppName right
ppCmpOp :: LlvmCmpOp -> LlvmVar -> LlvmVar -> SDoc
ppCmpOp op left right =
let cmpOp
| isInt (getVarType left) && isInt (getVarType right) = text "icmp"
| isFloat (getVarType left) && isFloat (getVarType right) = text "fcmp"
| otherwise = text "icmp" -- Just continue as its much easier to debug
{-
| otherwise = error ("can't compare different types, left = "
++ (show $ getVarType left) ++ ", right = "
++ (show $ getVarType right))
-}
in cmpOp <+> ppr op <+> ppr (getVarType left)
<+> ppName left <> comma <+> ppName right
ppAssignment :: LlvmVar -> SDoc -> SDoc
ppAssignment var expr = ppName var <+> equals <+> expr
ppFence :: Bool -> LlvmSyncOrdering -> SDoc
ppFence st ord =
let singleThread = case st of True -> text "singlethread"
False -> empty
in text "fence" <+> singleThread <+> ppSyncOrdering ord
ppSyncOrdering :: LlvmSyncOrdering -> SDoc
ppSyncOrdering SyncUnord = text "unordered"
ppSyncOrdering SyncMonotonic = text "monotonic"
ppSyncOrdering SyncAcquire = text "acquire"
ppSyncOrdering SyncRelease = text "release"
ppSyncOrdering SyncAcqRel = text "acq_rel"
ppSyncOrdering SyncSeqCst = text "seq_cst"
ppAtomicOp :: LlvmAtomicOp -> SDoc
ppAtomicOp LAO_Xchg = text "xchg"
ppAtomicOp LAO_Add = text "add"
ppAtomicOp LAO_Sub = text "sub"
ppAtomicOp LAO_And = text "and"
ppAtomicOp LAO_Nand = text "nand"
ppAtomicOp LAO_Or = text "or"
ppAtomicOp LAO_Xor = text "xor"
ppAtomicOp LAO_Max = text "max"
ppAtomicOp LAO_Min = text "min"
ppAtomicOp LAO_Umax = text "umax"
ppAtomicOp LAO_Umin = text "umin"
ppAtomicRMW :: LlvmAtomicOp -> LlvmVar -> LlvmVar -> LlvmSyncOrdering -> SDoc
ppAtomicRMW aop tgt src ordering =
text "atomicrmw" <+> ppAtomicOp aop <+> ppr tgt <> comma
<+> ppr src <+> ppSyncOrdering ordering
ppCmpXChg :: LlvmVar -> LlvmVar -> LlvmVar
-> LlvmSyncOrdering -> LlvmSyncOrdering -> SDoc
ppCmpXChg addr old new s_ord f_ord =
text "cmpxchg" <+> ppr addr <> comma <+> ppr old <> comma <+> ppr new
<+> ppSyncOrdering s_ord <+> ppSyncOrdering f_ord
-- XXX: On x86, vector types need to be 16-byte aligned for aligned access, but
-- we have no way of guaranteeing that this is true with GHC (we would need to
-- modify the layout of the stack and closures, change the storage manager,
-- etc.). So, we blindly tell LLVM that *any* vector store or load could be
-- unaligned. In the future we may be able to guarantee that certain vector
-- access patterns are aligned, in which case we will need a more granular way
-- of specifying alignment.
ppLoad :: LlvmVar -> SDoc
ppLoad var = text "load" <+> ppr derefType <> comma <+> ppr var <> align
where
derefType = pLower $ getVarType var
align | isVector . pLower . getVarType $ var = text ", align 1"
| otherwise = empty
ppALoad :: LlvmSyncOrdering -> SingleThreaded -> LlvmVar -> SDoc
ppALoad ord st var = sdocWithDynFlags $ \dflags ->
let alignment = (llvmWidthInBits dflags $ getVarType var) `quot` 8
align = text ", align" <+> ppr alignment
sThreaded | st = text " singlethread"
| otherwise = empty
derefType = pLower $ getVarType var
in text "load atomic" <+> ppr derefType <> comma <+> ppr var <> sThreaded
<+> ppSyncOrdering ord <> align
ppStore :: LlvmVar -> LlvmVar -> SDoc
ppStore val dst
| isVecPtrVar dst = text "store" <+> ppr val <> comma <+> ppr dst <>
comma <+> text "align 1"
| otherwise = text "store" <+> ppr val <> comma <+> ppr dst
where
isVecPtrVar :: LlvmVar -> Bool
isVecPtrVar = isVector . pLower . getVarType
ppCast :: LlvmCastOp -> LlvmVar -> LlvmType -> SDoc
ppCast op from to
= ppr op
<+> ppr (getVarType from) <+> ppName from
<+> text "to"
<+> ppr to
ppMalloc :: LlvmType -> Int -> SDoc
ppMalloc tp amount =
let amount' = LMLitVar $ LMIntLit (toInteger amount) i32
in text "malloc" <+> ppr tp <> comma <+> ppr amount'
ppAlloca :: LlvmType -> Int -> SDoc
ppAlloca tp amount =
let amount' = LMLitVar $ LMIntLit (toInteger amount) i32
in text "alloca" <+> ppr tp <> comma <+> ppr amount'
ppGetElementPtr :: Bool -> LlvmVar -> [LlvmVar] -> SDoc
ppGetElementPtr inb ptr idx =
let indexes = comma <+> ppCommaJoin idx
inbound = if inb then text "inbounds" else empty
derefType = pLower $ getVarType ptr
in text "getelementptr" <+> inbound <+> ppr derefType <> comma <+> ppr ptr
<> indexes
ppReturn :: Maybe LlvmVar -> SDoc
ppReturn (Just var) = text "ret" <+> ppr var
ppReturn Nothing = text "ret" <+> ppr LMVoid
ppBranch :: LlvmVar -> SDoc
ppBranch var = text "br" <+> ppr var
ppBranchIf :: LlvmVar -> LlvmVar -> LlvmVar -> SDoc
ppBranchIf cond trueT falseT
= text "br" <+> ppr cond <> comma <+> ppr trueT <> comma <+> ppr falseT
ppPhi :: LlvmType -> [(LlvmVar,LlvmVar)] -> SDoc
ppPhi tp preds =
let ppPreds (val, label) = brackets $ ppName val <> comma <+> ppName label
in text "phi" <+> ppr tp <+> hsep (punctuate comma $ map ppPreds preds)
ppSwitch :: LlvmVar -> LlvmVar -> [(LlvmVar,LlvmVar)] -> SDoc
ppSwitch scrut dflt targets =
let ppTarget (val, lab) = ppr val <> comma <+> ppr lab
ppTargets xs = brackets $ vcat (map ppTarget xs)
in text "switch" <+> ppr scrut <> comma <+> ppr dflt
<+> ppTargets targets
ppAsm :: LMString -> LMString -> LlvmType -> [LlvmVar] -> Bool -> Bool -> SDoc
ppAsm asm constraints rty vars sideeffect alignstack =
let asm' = doubleQuotes $ ftext asm
cons = doubleQuotes $ ftext constraints
rty' = ppr rty
vars' = lparen <+> ppCommaJoin vars <+> rparen
side = if sideeffect then text "sideeffect" else empty
align = if alignstack then text "alignstack" else empty
in text "call" <+> rty' <+> text "asm" <+> side <+> align <+> asm' <> comma
<+> cons <> vars'
ppExtract :: LlvmVar -> LlvmVar -> SDoc
ppExtract vec idx =
text "extractelement"
<+> ppr (getVarType vec) <+> ppName vec <> comma
<+> ppr idx
ppExtractV :: LlvmVar -> Int -> SDoc
ppExtractV struct idx =
text "extractvalue"
<+> ppr (getVarType struct) <+> ppName struct <> comma
<+> ppr idx
ppInsert :: LlvmVar -> LlvmVar -> LlvmVar -> SDoc
ppInsert vec elt idx =
text "insertelement"
<+> ppr (getVarType vec) <+> ppName vec <> comma
<+> ppr (getVarType elt) <+> ppName elt <> comma
<+> ppr idx
ppMetaStatement :: [MetaAnnot] -> LlvmStatement -> SDoc
ppMetaStatement meta stmt = ppLlvmStatement stmt <> ppMetaAnnots meta
ppMetaExpr :: [MetaAnnot] -> LlvmExpression -> SDoc
ppMetaExpr meta expr = ppLlvmExpression expr <> ppMetaAnnots meta
ppMetaAnnots :: [MetaAnnot] -> SDoc
ppMetaAnnots meta = hcat $ map ppMeta meta
where
ppMeta (MetaAnnot name e)
= comma <+> exclamation <> ftext name <+>
case e of
MetaNode n -> ppr n
MetaStruct ms -> exclamation <> braces (ppCommaJoin ms)
other -> exclamation <> braces (ppr other) -- possible?
--------------------------------------------------------------------------------
-- * Misc functions
--------------------------------------------------------------------------------
-- | Blank line.
newLine :: SDoc
newLine = empty
-- | Exclamation point.
exclamation :: SDoc
exclamation = char '!'
|