{-# LANGUAGE BangPatterns, CPP, ScopedTypeVariables #-}
{-# LANGUAGE ConstraintKinds #-}
{-# OPTIONS_GHC -Wno-incomplete-uni-patterns #-}
module GHC.CmmToAsm.Reg.Linear (
regAlloc,
module GHC.CmmToAsm.Reg.Linear.Base,
module GHC.CmmToAsm.Reg.Linear.Stats
) where
#include "HsVersions.h"
import GHC.Prelude
import GHC.CmmToAsm.Reg.Linear.State
import GHC.CmmToAsm.Reg.Linear.Base
import GHC.CmmToAsm.Reg.Linear.StackMap
import GHC.CmmToAsm.Reg.Linear.FreeRegs
import GHC.CmmToAsm.Reg.Linear.Stats
import GHC.CmmToAsm.Reg.Linear.JoinToTargets
import qualified GHC.CmmToAsm.Reg.Linear.PPC as PPC
import qualified GHC.CmmToAsm.Reg.Linear.SPARC as SPARC
import qualified GHC.CmmToAsm.Reg.Linear.X86 as X86
import qualified GHC.CmmToAsm.Reg.Linear.X86_64 as X86_64
import GHC.CmmToAsm.Reg.Target
import GHC.CmmToAsm.Reg.Liveness
import GHC.CmmToAsm.Reg.Utils
import GHC.CmmToAsm.Instr
import GHC.CmmToAsm.Config
import GHC.Platform.Reg
import GHC.Cmm.BlockId
import GHC.Cmm.Dataflow.Collections
import GHC.Cmm hiding (RegSet)
import GHC.Data.Graph.Directed
import GHC.Types.Unique
import GHC.Types.Unique.Set
import GHC.Types.Unique.FM
import GHC.Types.Unique.Supply
import GHC.Utils.Outputable
import GHC.Platform
import Data.Maybe
import Data.List
import Control.Monad
regAlloc
:: (Outputable instr, Instruction instr)
=> NCGConfig
-> LiveCmmDecl statics instr
-> UniqSM ( NatCmmDecl statics instr
, Maybe Int
, Maybe RegAllocStats
)
regAlloc :: forall instr statics.
(Outputable instr, Instruction instr) =>
NCGConfig
-> LiveCmmDecl statics instr
-> UniqSM
(NatCmmDecl statics instr, Maybe Int, Maybe RegAllocStats)
regAlloc NCGConfig
_ (CmmData Section
sec statics
d)
= (GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
-> UniqSM
(GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
forall (m :: * -> *) a. Monad m => a -> m a
return
( Section
-> statics
-> GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr)
forall d h g. Section -> d -> GenCmmDecl d h g
CmmData Section
sec statics
d
, Maybe Int
forall a. Maybe a
Nothing
, Maybe RegAllocStats
forall a. Maybe a
Nothing )
regAlloc NCGConfig
_ (CmmProc (LiveInfo LabelMap RawCmmStatics
info [BlockId]
_ BlockMap RegSet
_ BlockMap IntSet
_) CLabel
lbl [GlobalReg]
live [])
= (GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
-> UniqSM
(GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
forall (m :: * -> *) a. Monad m => a -> m a
return ( LabelMap RawCmmStatics
-> CLabel
-> [GlobalReg]
-> ListGraph instr
-> GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr)
forall d h g. h -> CLabel -> [GlobalReg] -> g -> GenCmmDecl d h g
CmmProc LabelMap RawCmmStatics
info CLabel
lbl [GlobalReg]
live ([GenBasicBlock instr] -> ListGraph instr
forall i. [GenBasicBlock i] -> ListGraph i
ListGraph [])
, Maybe Int
forall a. Maybe a
Nothing
, Maybe RegAllocStats
forall a. Maybe a
Nothing )
regAlloc NCGConfig
config (CmmProc LiveInfo
static CLabel
lbl [GlobalReg]
live [SCC (LiveBasicBlock instr)]
sccs)
| LiveInfo LabelMap RawCmmStatics
info entry_ids :: [BlockId]
entry_ids@(BlockId
first_id:[BlockId]
_) BlockMap RegSet
block_live BlockMap IntSet
_ <- LiveInfo
static
= do
([GenBasicBlock instr]
final_blocks, RegAllocStats
stats, Int
stack_use)
<- NCGConfig
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([GenBasicBlock instr], RegAllocStats, Int)
forall instr.
(Outputable instr, Instruction instr) =>
NCGConfig
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc NCGConfig
config [BlockId]
entry_ids BlockMap RegSet
block_live [SCC (LiveBasicBlock instr)]
sccs
let ((GenBasicBlock instr
first':[GenBasicBlock instr]
_), [GenBasicBlock instr]
rest')
= (GenBasicBlock instr -> Bool)
-> [GenBasicBlock instr]
-> ([GenBasicBlock instr], [GenBasicBlock instr])
forall a. (a -> Bool) -> [a] -> ([a], [a])
partition ((BlockId -> BlockId -> Bool
forall a. Eq a => a -> a -> Bool
== BlockId
first_id) (BlockId -> Bool)
-> (GenBasicBlock instr -> BlockId) -> GenBasicBlock instr -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. GenBasicBlock instr -> BlockId
forall i. GenBasicBlock i -> BlockId
blockId) [GenBasicBlock instr]
final_blocks
let max_spill_slots :: Int
max_spill_slots = NCGConfig -> Int
maxSpillSlots NCGConfig
config
extra_stack :: Maybe Int
extra_stack
| Int
stack_use Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
max_spill_slots
= Int -> Maybe Int
forall a. a -> Maybe a
Just (Int
stack_use Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
max_spill_slots)
| Bool
otherwise
= Maybe Int
forall a. Maybe a
Nothing
(GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
-> UniqSM
(GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
forall (m :: * -> *) a. Monad m => a -> m a
return ( LabelMap RawCmmStatics
-> CLabel
-> [GlobalReg]
-> ListGraph instr
-> GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr)
forall d h g. h -> CLabel -> [GlobalReg] -> g -> GenCmmDecl d h g
CmmProc LabelMap RawCmmStatics
info CLabel
lbl [GlobalReg]
live ([GenBasicBlock instr] -> ListGraph instr
forall i. [GenBasicBlock i] -> ListGraph i
ListGraph (GenBasicBlock instr
first' GenBasicBlock instr
-> [GenBasicBlock instr] -> [GenBasicBlock instr]
forall a. a -> [a] -> [a]
: [GenBasicBlock instr]
rest'))
, Maybe Int
extra_stack
, RegAllocStats -> Maybe RegAllocStats
forall a. a -> Maybe a
Just RegAllocStats
stats)
regAlloc NCGConfig
_ (CmmProc LiveInfo
_ CLabel
_ [GlobalReg]
_ [SCC (LiveBasicBlock instr)]
_)
= String
-> UniqSM
(GenCmmDecl statics (LabelMap RawCmmStatics) (ListGraph instr),
Maybe Int, Maybe RegAllocStats)
forall a. String -> a
panic String
"RegAllocLinear.regAlloc: no match"
linearRegAlloc
:: (Outputable instr, Instruction instr)
=> NCGConfig
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc :: forall instr.
(Outputable instr, Instruction instr) =>
NCGConfig
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc NCGConfig
config [BlockId]
entry_ids BlockMap RegSet
block_live [SCC (LiveBasicBlock instr)]
sccs
= case Platform -> Arch
platformArch Platform
platform of
Arch
ArchX86 -> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall {freeRegs}.
(FR freeRegs, Outputable freeRegs) =>
freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go (FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int))
-> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a b. (a -> b) -> a -> b
$ (Platform -> FreeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform :: X86.FreeRegs)
Arch
ArchX86_64 -> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall {freeRegs}.
(FR freeRegs, Outputable freeRegs) =>
freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go (FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int))
-> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a b. (a -> b) -> a -> b
$ (Platform -> FreeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform :: X86_64.FreeRegs)
Arch
ArchS390X -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchS390X"
Arch
ArchSPARC -> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall {freeRegs}.
(FR freeRegs, Outputable freeRegs) =>
freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go (FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int))
-> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a b. (a -> b) -> a -> b
$ (Platform -> FreeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform :: SPARC.FreeRegs)
Arch
ArchSPARC64 -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchSPARC64"
Arch
ArchPPC -> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall {freeRegs}.
(FR freeRegs, Outputable freeRegs) =>
freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go (FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int))
-> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a b. (a -> b) -> a -> b
$ (Platform -> FreeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform :: PPC.FreeRegs)
ArchARM ArmISA
_ [ArmISAExt]
_ ArmABI
_ -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchARM"
Arch
ArchAArch64 -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchAArch64"
ArchPPC_64 PPC_64ABI
_ -> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall {freeRegs}.
(FR freeRegs, Outputable freeRegs) =>
freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go (FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int))
-> FreeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a b. (a -> b) -> a -> b
$ (Platform -> FreeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform :: PPC.FreeRegs)
Arch
ArchAlpha -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchAlpha"
Arch
ArchMipseb -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchMipseb"
Arch
ArchMipsel -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchMipsel"
Arch
ArchJavaScript -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchJavaScript"
Arch
ArchUnknown -> String -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall a. String -> a
panic String
"linearRegAlloc ArchUnknown"
where
go :: freeRegs -> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
go freeRegs
f = NCGConfig
-> freeRegs
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
NCGConfig
-> freeRegs
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc' NCGConfig
config freeRegs
f [BlockId]
entry_ids BlockMap RegSet
block_live [SCC (LiveBasicBlock instr)]
sccs
platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
type OutputableRegConstraint freeRegs instr =
(FR freeRegs, Outputable freeRegs, Outputable instr, Instruction instr)
linearRegAlloc'
:: OutputableRegConstraint freeRegs instr
=> NCGConfig
-> freeRegs
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc' :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
NCGConfig
-> freeRegs
-> [BlockId]
-> BlockMap RegSet
-> [SCC (LiveBasicBlock instr)]
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
linearRegAlloc' NCGConfig
config freeRegs
initFreeRegs [BlockId]
entry_ids BlockMap RegSet
block_live [SCC (LiveBasicBlock instr)]
sccs
= do UniqSupply
us <- UniqSM UniqSupply
forall (m :: * -> *). MonadUnique m => m UniqSupply
getUniqueSupplyM
let !(BlockAssignment freeRegs
_, !StackMap
stack, !RegAllocStats
stats, ![NatBasicBlock instr]
blocks) =
NCGConfig
-> BlockAssignment freeRegs
-> freeRegs
-> RegMap Loc
-> StackMap
-> UniqSupply
-> RegM freeRegs [NatBasicBlock instr]
-> (BlockAssignment freeRegs, StackMap, RegAllocStats,
[NatBasicBlock instr])
forall freeRegs a.
NCGConfig
-> BlockAssignment freeRegs
-> freeRegs
-> RegMap Loc
-> StackMap
-> UniqSupply
-> RegM freeRegs a
-> (BlockAssignment freeRegs, StackMap, RegAllocStats, a)
runR NCGConfig
config BlockAssignment freeRegs
forall freeRegs. BlockAssignment freeRegs
emptyBlockAssignment freeRegs
initFreeRegs RegMap Loc
forall a. RegMap a
emptyRegMap StackMap
emptyStackMap UniqSupply
us
(RegM freeRegs [NatBasicBlock instr]
-> (BlockAssignment freeRegs, StackMap, RegAllocStats,
[NatBasicBlock instr]))
-> RegM freeRegs [NatBasicBlock instr]
-> (BlockAssignment freeRegs, StackMap, RegAllocStats,
[NatBasicBlock instr])
forall a b. (a -> b) -> a -> b
$ [BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
linearRA_SCCs [BlockId]
entry_ids BlockMap RegSet
block_live [] [SCC (LiveBasicBlock instr)]
sccs
([NatBasicBlock instr], RegAllocStats, Int)
-> UniqSM ([NatBasicBlock instr], RegAllocStats, Int)
forall (m :: * -> *) a. Monad m => a -> m a
return ([NatBasicBlock instr]
blocks, RegAllocStats
stats, StackMap -> Int
getStackUse StackMap
stack)
linearRA_SCCs :: OutputableRegConstraint freeRegs instr
=> [BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
linearRA_SCCs :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
linearRA_SCCs [BlockId]
_ BlockMap RegSet
_ [NatBasicBlock instr]
blocksAcc []
= [NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr]
forall (m :: * -> *) a. Monad m => a -> m a
return ([NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr])
-> [NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr]
forall a b. (a -> b) -> a -> b
$ [NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a]
reverse [NatBasicBlock instr]
blocksAcc
linearRA_SCCs [BlockId]
entry_ids BlockMap RegSet
block_live [NatBasicBlock instr]
blocksAcc (AcyclicSCC LiveBasicBlock instr
block : [SCC (LiveBasicBlock instr)]
sccs)
= do [NatBasicBlock instr]
blocks' <- BlockMap RegSet
-> LiveBasicBlock instr -> RegM freeRegs [NatBasicBlock instr]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> LiveBasicBlock instr -> RegM freeRegs [NatBasicBlock instr]
processBlock BlockMap RegSet
block_live LiveBasicBlock instr
block
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
linearRA_SCCs [BlockId]
entry_ids BlockMap RegSet
block_live
(([NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a]
reverse [NatBasicBlock instr]
blocks') [NatBasicBlock instr]
-> [NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a] -> [a]
++ [NatBasicBlock instr]
blocksAcc)
[SCC (LiveBasicBlock instr)]
sccs
linearRA_SCCs [BlockId]
entry_ids BlockMap RegSet
block_live [NatBasicBlock instr]
blocksAcc (CyclicSCC [LiveBasicBlock instr]
blocks : [SCC (LiveBasicBlock instr)]
sccs)
= do
[[NatBasicBlock instr]]
blockss' <- [BlockId]
-> BlockMap RegSet
-> [LiveBasicBlock instr]
-> [LiveBasicBlock instr]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process [BlockId]
entry_ids BlockMap RegSet
block_live [LiveBasicBlock instr]
blocks [] ([NatBasicBlock instr] -> [[NatBasicBlock instr]]
forall (m :: * -> *) a. Monad m => a -> m a
return []) Bool
False
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [NatBasicBlock instr]
-> [SCC (LiveBasicBlock instr)]
-> RegM freeRegs [NatBasicBlock instr]
linearRA_SCCs [BlockId]
entry_ids BlockMap RegSet
block_live
([NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a]
reverse ([[NatBasicBlock instr]] -> [NatBasicBlock instr]
forall (t :: * -> *) a. Foldable t => t [a] -> [a]
concat [[NatBasicBlock instr]]
blockss') [NatBasicBlock instr]
-> [NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a] -> [a]
++ [NatBasicBlock instr]
blocksAcc)
[SCC (LiveBasicBlock instr)]
sccs
process :: OutputableRegConstraint freeRegs instr
=> [BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process [BlockId]
_ BlockMap RegSet
_ [] [] [[NatBasicBlock instr]]
accum Bool
_
= [[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]]
forall (m :: * -> *) a. Monad m => a -> m a
return ([[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]])
-> [[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]]
forall a b. (a -> b) -> a -> b
$ [[NatBasicBlock instr]] -> [[NatBasicBlock instr]]
forall a. [a] -> [a]
reverse [[NatBasicBlock instr]]
accum
process [BlockId]
entry_ids BlockMap RegSet
block_live [] [GenBasicBlock (LiveInstr instr)]
next_round [[NatBasicBlock instr]]
accum Bool
madeProgress
| Bool -> Bool
not Bool
madeProgress
= [[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]]
forall (m :: * -> *) a. Monad m => a -> m a
return ([[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]])
-> [[NatBasicBlock instr]] -> RegM freeRegs [[NatBasicBlock instr]]
forall a b. (a -> b) -> a -> b
$ [[NatBasicBlock instr]] -> [[NatBasicBlock instr]]
forall a. [a] -> [a]
reverse [[NatBasicBlock instr]]
accum
| Bool
otherwise
= [BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process [BlockId]
entry_ids BlockMap RegSet
block_live
[GenBasicBlock (LiveInstr instr)]
next_round [] [[NatBasicBlock instr]]
accum Bool
False
process [BlockId]
entry_ids BlockMap RegSet
block_live (b :: GenBasicBlock (LiveInstr instr)
b@(BasicBlock BlockId
id [LiveInstr instr]
_) : [GenBasicBlock (LiveInstr instr)]
blocks)
[GenBasicBlock (LiveInstr instr)]
next_round [[NatBasicBlock instr]]
accum Bool
madeProgress
= do
BlockAssignment freeRegs
block_assig <- RegM freeRegs (BlockAssignment freeRegs)
forall freeRegs. RegM freeRegs (BlockAssignment freeRegs)
getBlockAssigR
if Maybe (freeRegs, RegMap Loc) -> Bool
forall a. Maybe a -> Bool
isJust (BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
forall freeRegs.
BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
lookupBlockAssignment BlockId
id BlockAssignment freeRegs
block_assig)
Bool -> Bool -> Bool
|| BlockId
id BlockId -> [BlockId] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [BlockId]
entry_ids
then do
[NatBasicBlock instr]
b' <- BlockMap RegSet
-> GenBasicBlock (LiveInstr instr)
-> RegM freeRegs [NatBasicBlock instr]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> LiveBasicBlock instr -> RegM freeRegs [NatBasicBlock instr]
processBlock BlockMap RegSet
block_live GenBasicBlock (LiveInstr instr)
b
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process [BlockId]
entry_ids BlockMap RegSet
block_live [GenBasicBlock (LiveInstr instr)]
blocks
[GenBasicBlock (LiveInstr instr)]
next_round ([NatBasicBlock instr]
b' [NatBasicBlock instr]
-> [[NatBasicBlock instr]] -> [[NatBasicBlock instr]]
forall a. a -> [a] -> [a]
: [[NatBasicBlock instr]]
accum) Bool
True
else [BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
[BlockId]
-> BlockMap RegSet
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
-> [[NatBasicBlock instr]]
-> Bool
-> RegM freeRegs [[NatBasicBlock instr]]
process [BlockId]
entry_ids BlockMap RegSet
block_live [GenBasicBlock (LiveInstr instr)]
blocks
(GenBasicBlock (LiveInstr instr)
b GenBasicBlock (LiveInstr instr)
-> [GenBasicBlock (LiveInstr instr)]
-> [GenBasicBlock (LiveInstr instr)]
forall a. a -> [a] -> [a]
: [GenBasicBlock (LiveInstr instr)]
next_round) [[NatBasicBlock instr]]
accum Bool
madeProgress
processBlock
:: OutputableRegConstraint freeRegs instr
=> BlockMap RegSet
-> LiveBasicBlock instr
-> RegM freeRegs [NatBasicBlock instr]
processBlock :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> LiveBasicBlock instr -> RegM freeRegs [NatBasicBlock instr]
processBlock BlockMap RegSet
block_live (BasicBlock BlockId
id [LiveInstr instr]
instrs)
= do
BlockId -> BlockMap RegSet -> RegM freeRegs ()
forall freeRegs.
FR freeRegs =>
BlockId -> BlockMap RegSet -> RegM freeRegs ()
initBlock BlockId
id BlockMap RegSet
block_live
([instr]
instrs', [NatBasicBlock instr]
fixups)
<- BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
linearRA BlockMap RegSet
block_live [] [] BlockId
id [LiveInstr instr]
instrs
[NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr]
forall (m :: * -> *) a. Monad m => a -> m a
return ([NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr])
-> [NatBasicBlock instr] -> RegM freeRegs [NatBasicBlock instr]
forall a b. (a -> b) -> a -> b
$ BlockId -> [instr] -> NatBasicBlock instr
forall i. BlockId -> [i] -> GenBasicBlock i
BasicBlock BlockId
id [instr]
instrs' NatBasicBlock instr
-> [NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. a -> [a] -> [a]
: [NatBasicBlock instr]
fixups
initBlock :: FR freeRegs
=> BlockId -> BlockMap RegSet -> RegM freeRegs ()
initBlock :: forall freeRegs.
FR freeRegs =>
BlockId -> BlockMap RegSet -> RegM freeRegs ()
initBlock BlockId
id BlockMap RegSet
block_live
= do Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
BlockAssignment freeRegs
block_assig <- RegM freeRegs (BlockAssignment freeRegs)
forall freeRegs. RegM freeRegs (BlockAssignment freeRegs)
getBlockAssigR
case BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
forall freeRegs.
BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
lookupBlockAssignment BlockId
id BlockAssignment freeRegs
block_assig of
Maybe (freeRegs, RegMap Loc)
Nothing
-> do
case KeyOf LabelMap -> BlockMap RegSet -> Maybe RegSet
forall (map :: * -> *) a.
IsMap map =>
KeyOf map -> map a -> Maybe a
mapLookup KeyOf LabelMap
BlockId
id BlockMap RegSet
block_live of
Maybe RegSet
Nothing ->
freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR (Platform -> freeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform)
Just RegSet
live ->
freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR (freeRegs -> RegM freeRegs ()) -> freeRegs -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ (freeRegs -> RealReg -> freeRegs)
-> freeRegs -> [RealReg] -> freeRegs
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl' ((RealReg -> freeRegs -> freeRegs)
-> freeRegs -> RealReg -> freeRegs
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((RealReg -> freeRegs -> freeRegs)
-> freeRegs -> RealReg -> freeRegs)
-> (RealReg -> freeRegs -> freeRegs)
-> freeRegs
-> RealReg
-> freeRegs
forall a b. (a -> b) -> a -> b
$ Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frAllocateReg Platform
platform) (Platform -> freeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform)
[ RealReg
r | RegReal RealReg
r <- RegSet -> [Reg]
forall elt. UniqSet elt -> [elt]
nonDetEltsUniqSet RegSet
live ]
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR RegMap Loc
forall a. RegMap a
emptyRegMap
Just (freeRegs
freeregs, RegMap Loc
assig)
-> do freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR freeRegs
freeregs
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR RegMap Loc
assig
linearRA
:: OutputableRegConstraint freeRegs instr
=> BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs
( [instr]
, [NatBasicBlock instr])
linearRA :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
linearRA BlockMap RegSet
_ [instr]
accInstr [NatBasicBlock instr]
accFixup BlockId
_ []
= ([instr], [NatBasicBlock instr])
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall (m :: * -> *) a. Monad m => a -> m a
return
( [instr] -> [instr]
forall a. [a] -> [a]
reverse [instr]
accInstr
, [NatBasicBlock instr]
accFixup)
linearRA BlockMap RegSet
block_live [instr]
accInstr [NatBasicBlock instr]
accFixups BlockId
id (LiveInstr instr
instr:[LiveInstr instr]
instrs)
= do
([instr]
accInstr', [NatBasicBlock instr]
new_fixups) <- BlockMap RegSet
-> [instr]
-> BlockId
-> LiveInstr instr
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> BlockId
-> LiveInstr instr
-> RegM freeRegs ([instr], [NatBasicBlock instr])
raInsn BlockMap RegSet
block_live [instr]
accInstr BlockId
id LiveInstr instr
instr
BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> [NatBasicBlock instr]
-> BlockId
-> [LiveInstr instr]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
linearRA BlockMap RegSet
block_live [instr]
accInstr' ([NatBasicBlock instr]
new_fixups [NatBasicBlock instr]
-> [NatBasicBlock instr] -> [NatBasicBlock instr]
forall a. [a] -> [a] -> [a]
++ [NatBasicBlock instr]
accFixups) BlockId
id [LiveInstr instr]
instrs
raInsn
:: OutputableRegConstraint freeRegs instr
=> BlockMap RegSet
-> [instr]
-> BlockId
-> LiveInstr instr
-> RegM freeRegs
( [instr]
, [NatBasicBlock instr])
raInsn :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> BlockId
-> LiveInstr instr
-> RegM freeRegs ([instr], [NatBasicBlock instr])
raInsn BlockMap RegSet
_ [instr]
new_instrs BlockId
_ (LiveInstr InstrSR instr
ii Maybe Liveness
Nothing)
| Just Int
n <- InstrSR instr -> Maybe Int
forall instr. Instruction instr => instr -> Maybe Int
takeDeltaInstr InstrSR instr
ii
= do Int -> RegM freeRegs ()
forall freeRegs. Int -> RegM freeRegs ()
setDeltaR Int
n
([instr], [NatBasicBlock instr])
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr]
new_instrs, [])
raInsn BlockMap RegSet
_ [instr]
new_instrs BlockId
_ (LiveInstr ii :: InstrSR instr
ii@(Instr instr
i) Maybe Liveness
Nothing)
| InstrSR instr -> Bool
forall instr. Instruction instr => instr -> Bool
isMetaInstr InstrSR instr
ii
= ([instr], [NatBasicBlock instr])
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall (m :: * -> *) a. Monad m => a -> m a
return (instr
i instr -> [instr] -> [instr]
forall a. a -> [a] -> [a]
: [instr]
new_instrs, [])
raInsn BlockMap RegSet
block_live [instr]
new_instrs BlockId
id (LiveInstr (Instr instr
instr) (Just Liveness
live))
= do
RegMap Loc
assig <- forall freeRegs. RegM freeRegs (RegMap Loc)
getAssigR :: RegM freeRegs (UniqFM Reg Loc)
case instr -> Maybe (Reg, Reg)
forall instr. Instruction instr => instr -> Maybe (Reg, Reg)
takeRegRegMoveInstr instr
instr of
Just (Reg
src,Reg
dst) | Reg
src Reg -> RegSet -> Bool
forall a. Uniquable a => a -> UniqSet a -> Bool
`elementOfUniqSet` (Liveness -> RegSet
liveDieRead Liveness
live),
Reg -> Bool
isVirtualReg Reg
dst,
Bool -> Bool
not (Reg
dst Reg -> RegMap Loc -> Bool
forall key elt. Uniquable key => key -> UniqFM key elt -> Bool
`elemUFM` RegMap Loc
assig),
Reg -> Bool
isRealReg Reg
src Bool -> Bool -> Bool
|| Reg -> RegMap Loc -> Bool
isInReg Reg
src RegMap Loc
assig -> do
case Reg
src of
(RegReal RealReg
rr) -> RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> Reg -> Loc -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM RegMap Loc
assig Reg
dst (RealReg -> Loc
InReg RealReg
rr))
Reg
_virt -> case RegMap Loc -> Reg -> Maybe Loc
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM RegMap Loc
assig Reg
src of
Maybe Loc
Nothing -> String -> RegM freeRegs ()
forall a. String -> a
panic String
"raInsn"
Just Loc
loc ->
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> Reg -> Loc -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM (RegMap Loc -> Reg -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> UniqFM key elt
delFromUFM RegMap Loc
assig Reg
src) Reg
dst Loc
loc)
([instr], [NatBasicBlock instr])
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr]
new_instrs, [])
Maybe (Reg, Reg)
_ -> BlockMap RegSet
-> [instr]
-> BlockId
-> instr
-> [Reg]
-> [Reg]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> BlockId
-> instr
-> [Reg]
-> [Reg]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
genRaInsn BlockMap RegSet
block_live [instr]
new_instrs BlockId
id instr
instr
(RegSet -> [Reg]
forall elt. UniqSet elt -> [elt]
nonDetEltsUniqSet (RegSet -> [Reg]) -> RegSet -> [Reg]
forall a b. (a -> b) -> a -> b
$ Liveness -> RegSet
liveDieRead Liveness
live)
(RegSet -> [Reg]
forall elt. UniqSet elt -> [elt]
nonDetEltsUniqSet (RegSet -> [Reg]) -> RegSet -> [Reg]
forall a b. (a -> b) -> a -> b
$ Liveness -> RegSet
liveDieWrite Liveness
live)
raInsn BlockMap RegSet
_ [instr]
_ BlockId
_ LiveInstr instr
instr
= String -> SDoc -> RegM freeRegs ([instr], [NatBasicBlock instr])
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"raInsn" (String -> SDoc
text String
"no match for:" SDoc -> SDoc -> SDoc
<> LiveInstr instr -> SDoc
forall a. Outputable a => a -> SDoc
ppr LiveInstr instr
instr)
isInReg :: Reg -> RegMap Loc -> Bool
isInReg :: Reg -> RegMap Loc -> Bool
isInReg Reg
src RegMap Loc
assig | Just (InReg RealReg
_) <- RegMap Loc -> Reg -> Maybe Loc
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM RegMap Loc
assig Reg
src = Bool
True
| Bool
otherwise = Bool
False
genRaInsn :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr
=> BlockMap RegSet
-> [instr]
-> BlockId
-> instr
-> [Reg]
-> [Reg]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
genRaInsn :: forall freeRegs instr.
OutputableRegConstraint freeRegs instr =>
BlockMap RegSet
-> [instr]
-> BlockId
-> instr
-> [Reg]
-> [Reg]
-> RegM freeRegs ([instr], [NatBasicBlock instr])
genRaInsn BlockMap RegSet
block_live [instr]
new_instrs BlockId
block_id instr
instr [Reg]
r_dying [Reg]
w_dying = do
Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
case Platform -> instr -> RegUsage
forall instr. Instruction instr => Platform -> instr -> RegUsage
regUsageOfInstr Platform
platform instr
instr of { RU [Reg]
read [Reg]
written ->
do
let real_written :: [RealReg]
real_written = [ RealReg
rr | (RegReal RealReg
rr) <- [Reg]
written ] :: [RealReg]
let virt_written :: [VirtualReg]
virt_written = [ VirtualReg
vr | (RegVirtual VirtualReg
vr) <- [Reg]
written ]
let virt_read :: [VirtualReg]
virt_read = [VirtualReg] -> [VirtualReg]
forall a. Eq a => [a] -> [a]
nub [ VirtualReg
vr | (RegVirtual VirtualReg
vr) <- [Reg]
read ] :: [VirtualReg]
([instr]
r_spills, [RealReg]
r_allocd) <-
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
True [VirtualReg]
virt_read [] [] [VirtualReg]
virt_read
[instr]
clobber_saves <- [RealReg] -> [Reg] -> RegM freeRegs [instr]
forall instr freeRegs.
(Instruction instr, FR freeRegs) =>
[RealReg] -> [Reg] -> RegM freeRegs [instr]
saveClobberedTemps [RealReg]
real_written [Reg]
r_dying
([NatBasicBlock instr]
fixup_blocks, instr
adjusted_instr)
<- BlockMap RegSet
-> BlockId -> instr -> RegM freeRegs ([NatBasicBlock instr], instr)
forall freeRegs instr.
(FR freeRegs, Instruction instr, Outputable instr) =>
BlockMap RegSet
-> BlockId -> instr -> RegM freeRegs ([NatBasicBlock instr], instr)
joinToTargets BlockMap RegSet
block_live BlockId
block_id instr
instr
[Reg] -> RegM freeRegs ()
forall freeRegs. FR freeRegs => [Reg] -> RegM freeRegs ()
releaseRegs [Reg]
r_dying
[RealReg] -> RegM freeRegs ()
forall freeRegs. FR freeRegs => [RealReg] -> RegM freeRegs ()
clobberRegs [RealReg]
real_written
([instr]
w_spills, [RealReg]
w_allocd) <-
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
False [VirtualReg]
virt_written [] [] [VirtualReg]
virt_written
[Reg] -> RegM freeRegs ()
forall freeRegs. FR freeRegs => [Reg] -> RegM freeRegs ()
releaseRegs [Reg]
w_dying
let
patch_map :: UniqFM Reg Reg
patch_map :: UniqFM Reg Reg
patch_map
= UniqFM VirtualReg Reg -> UniqFM Reg Reg
forall elt. UniqFM VirtualReg elt -> UniqFM Reg elt
toRegMap (UniqFM VirtualReg Reg -> UniqFM Reg Reg)
-> UniqFM VirtualReg Reg -> UniqFM Reg Reg
forall a b. (a -> b) -> a -> b
$
[(VirtualReg, Reg)] -> UniqFM VirtualReg Reg
forall key elt. Uniquable key => [(key, elt)] -> UniqFM key elt
listToUFM
[ (VirtualReg
t, RealReg -> Reg
RegReal RealReg
r)
| (VirtualReg
t, RealReg
r) <- [VirtualReg] -> [RealReg] -> [(VirtualReg, RealReg)]
forall a b. [a] -> [b] -> [(a, b)]
zip [VirtualReg]
virt_read [RealReg]
r_allocd
[(VirtualReg, RealReg)]
-> [(VirtualReg, RealReg)] -> [(VirtualReg, RealReg)]
forall a. [a] -> [a] -> [a]
++ [VirtualReg] -> [RealReg] -> [(VirtualReg, RealReg)]
forall a b. [a] -> [b] -> [(a, b)]
zip [VirtualReg]
virt_written [RealReg]
w_allocd ]
patched_instr :: instr
patched_instr :: instr
patched_instr
= instr -> (Reg -> Reg) -> instr
forall instr. Instruction instr => instr -> (Reg -> Reg) -> instr
patchRegsOfInstr instr
adjusted_instr Reg -> Reg
patchLookup
patchLookup :: Reg -> Reg
patchLookup :: Reg -> Reg
patchLookup Reg
x
= case UniqFM Reg Reg -> Reg -> Maybe Reg
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM UniqFM Reg Reg
patch_map Reg
x of
Maybe Reg
Nothing -> Reg
x
Just Reg
y -> Reg
y
let squashed_instr :: [instr]
squashed_instr = case instr -> Maybe (Reg, Reg)
forall instr. Instruction instr => instr -> Maybe (Reg, Reg)
takeRegRegMoveInstr instr
patched_instr of
Just (Reg
src, Reg
dst)
| Reg
src Reg -> Reg -> Bool
forall a. Eq a => a -> a -> Bool
== Reg
dst -> []
Maybe (Reg, Reg)
_ -> [instr
patched_instr]
let code :: [instr]
code = [instr]
squashed_instr [instr] -> [instr] -> [instr]
forall a. [a] -> [a] -> [a]
++ [instr]
w_spills [instr] -> [instr] -> [instr]
forall a. [a] -> [a] -> [a]
++ [instr] -> [instr]
forall a. [a] -> [a]
reverse [instr]
r_spills
[instr] -> [instr] -> [instr]
forall a. [a] -> [a] -> [a]
++ [instr]
clobber_saves [instr] -> [instr] -> [instr]
forall a. [a] -> [a] -> [a]
++ [instr]
new_instrs
([instr], [NatBasicBlock instr])
-> RegM freeRegs ([instr], [NatBasicBlock instr])
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr]
code, [NatBasicBlock instr]
fixup_blocks)
}
releaseRegs :: FR freeRegs => [Reg] -> RegM freeRegs ()
releaseRegs :: forall freeRegs. FR freeRegs => [Reg] -> RegM freeRegs ()
releaseRegs [Reg]
regs = do
Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
RegMap Loc
assig <- RegM freeRegs (RegMap Loc)
forall freeRegs. RegM freeRegs (RegMap Loc)
getAssigR
freeRegs
free <- RegM freeRegs freeRegs
forall freeRegs. RegM freeRegs freeRegs
getFreeRegsR
let loop :: RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop RegMap Loc
assig !freeRegs
free [] = do RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR RegMap Loc
assig; freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR freeRegs
free; () -> RegM freeRegs ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()
loop RegMap Loc
assig !freeRegs
free (RegReal RealReg
rr : [Reg]
rs) = RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop RegMap Loc
assig (Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frReleaseReg Platform
platform RealReg
rr freeRegs
free) [Reg]
rs
loop RegMap Loc
assig !freeRegs
free (Reg
r:[Reg]
rs) =
case RegMap Loc -> Reg -> Maybe Loc
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM RegMap Loc
assig Reg
r of
Just (InBoth RealReg
real Int
_) -> RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop (RegMap Loc -> Reg -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> UniqFM key elt
delFromUFM RegMap Loc
assig Reg
r)
(Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frReleaseReg Platform
platform RealReg
real freeRegs
free) [Reg]
rs
Just (InReg RealReg
real) -> RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop (RegMap Loc -> Reg -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> UniqFM key elt
delFromUFM RegMap Loc
assig Reg
r)
(Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frReleaseReg Platform
platform RealReg
real freeRegs
free) [Reg]
rs
Maybe Loc
_ -> RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop (RegMap Loc -> Reg -> RegMap Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> UniqFM key elt
delFromUFM RegMap Loc
assig Reg
r) freeRegs
free [Reg]
rs
RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
forall {freeRegs}.
FR freeRegs =>
RegMap Loc -> freeRegs -> [Reg] -> RegM freeRegs ()
loop RegMap Loc
assig freeRegs
free [Reg]
regs
saveClobberedTemps
:: forall instr freeRegs.
(Instruction instr, FR freeRegs)
=> [RealReg]
-> [Reg]
-> RegM freeRegs [instr]
saveClobberedTemps :: forall instr freeRegs.
(Instruction instr, FR freeRegs) =>
[RealReg] -> [Reg] -> RegM freeRegs [instr]
saveClobberedTemps [] [Reg]
_
= [instr] -> RegM freeRegs [instr]
forall (m :: * -> *) a. Monad m => a -> m a
return []
saveClobberedTemps [RealReg]
clobbered [Reg]
dying
= do
RegMap Loc
assig <- RegM freeRegs (RegMap Loc)
forall freeRegs. RegM freeRegs (RegMap Loc)
getAssigR :: RegM freeRegs (UniqFM Reg Loc)
let to_spill :: [(Unique, RealReg)]
to_spill :: [(Unique, RealReg)]
to_spill
= [ (Unique
temp,RealReg
reg)
| (Unique
temp, InReg RealReg
reg) <- RegMap Loc -> [(Unique, Loc)]
forall key elt. UniqFM key elt -> [(Unique, elt)]
nonDetUFMToList RegMap Loc
assig
, (RealReg -> Bool) -> [RealReg] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any (RealReg -> RealReg -> Bool
realRegsAlias RealReg
reg) [RealReg]
clobbered
, Unique
temp Unique -> [Unique] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`notElem` (Reg -> Unique) -> [Reg] -> [Unique]
forall a b. (a -> b) -> [a] -> [b]
map Reg -> Unique
forall a. Uniquable a => a -> Unique
getUnique [Reg]
dying ]
([instr]
instrs,RegMap Loc
assig') <- RegMap Loc
-> [instr]
-> [(Unique, RealReg)]
-> RegM freeRegs ([instr], RegMap Loc)
clobber RegMap Loc
assig [] [(Unique, RealReg)]
to_spill
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR RegMap Loc
assig'
[instr] -> RegM freeRegs [instr]
forall (m :: * -> *) a. Monad m => a -> m a
return [instr]
instrs
where
clobber :: RegMap Loc -> [instr] -> [(Unique,RealReg)] -> RegM freeRegs ([instr], RegMap Loc)
clobber :: RegMap Loc
-> [instr]
-> [(Unique, RealReg)]
-> RegM freeRegs ([instr], RegMap Loc)
clobber RegMap Loc
assig [instr]
instrs []
= ([instr], RegMap Loc) -> RegM freeRegs ([instr], RegMap Loc)
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr]
instrs, RegMap Loc
assig)
clobber RegMap Loc
assig [instr]
instrs ((Unique
temp, RealReg
reg) : [(Unique, RealReg)]
rest)
= do Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
freeRegs
freeRegs <- RegM freeRegs freeRegs
forall freeRegs. RegM freeRegs freeRegs
getFreeRegsR
let regclass :: RegClass
regclass = Platform -> RealReg -> RegClass
targetClassOfRealReg Platform
platform RealReg
reg
freeRegs_thisClass :: [RealReg]
freeRegs_thisClass = Platform -> RegClass -> freeRegs -> [RealReg]
forall freeRegs.
FR freeRegs =>
Platform -> RegClass -> freeRegs -> [RealReg]
frGetFreeRegs Platform
platform RegClass
regclass freeRegs
freeRegs
case (RealReg -> Bool) -> [RealReg] -> [RealReg]
forall a. (a -> Bool) -> [a] -> [a]
filter (RealReg -> [RealReg] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`notElem` [RealReg]
clobbered) [RealReg]
freeRegs_thisClass of
(RealReg
my_reg : [RealReg]
_) -> do
freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR (Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frAllocateReg Platform
platform RealReg
my_reg freeRegs
freeRegs)
let new_assign :: RegMap Loc
new_assign = RegMap Loc -> Unique -> Loc -> RegMap Loc
forall key elt. UniqFM key elt -> Unique -> elt -> UniqFM key elt
addToUFM_Directly RegMap Loc
assig Unique
temp (RealReg -> Loc
InReg RealReg
my_reg)
let instr :: instr
instr = Platform -> Reg -> Reg -> instr
forall instr. Instruction instr => Platform -> Reg -> Reg -> instr
mkRegRegMoveInstr Platform
platform
(RealReg -> Reg
RegReal RealReg
reg) (RealReg -> Reg
RegReal RealReg
my_reg)
RegMap Loc
-> [instr]
-> [(Unique, RealReg)]
-> RegM freeRegs ([instr], RegMap Loc)
clobber RegMap Loc
new_assign (instr
instr instr -> [instr] -> [instr]
forall a. a -> [a] -> [a]
: [instr]
instrs) [(Unique, RealReg)]
rest
[] -> do
(instr
spill, Int
slot) <- Reg -> Unique -> RegM freeRegs (instr, Int)
forall instr freeRegs.
Instruction instr =>
Reg -> Unique -> RegM freeRegs (instr, Int)
spillR (RealReg -> Reg
RegReal RealReg
reg) Unique
temp
SpillReason -> RegM freeRegs ()
forall freeRegs. SpillReason -> RegM freeRegs ()
recordSpill (Unique -> SpillReason
SpillClobber Unique
temp)
let new_assign :: RegMap Loc
new_assign = RegMap Loc -> Unique -> Loc -> RegMap Loc
forall key elt. UniqFM key elt -> Unique -> elt -> UniqFM key elt
addToUFM_Directly RegMap Loc
assig Unique
temp (RealReg -> Int -> Loc
InBoth RealReg
reg Int
slot)
RegMap Loc
-> [instr]
-> [(Unique, RealReg)]
-> RegM freeRegs ([instr], RegMap Loc)
clobber RegMap Loc
new_assign (instr
spill instr -> [instr] -> [instr]
forall a. a -> [a] -> [a]
: [instr]
instrs) [(Unique, RealReg)]
rest
clobberRegs :: FR freeRegs => [RealReg] -> RegM freeRegs ()
clobberRegs :: forall freeRegs. FR freeRegs => [RealReg] -> RegM freeRegs ()
clobberRegs []
= () -> RegM freeRegs ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()
clobberRegs [RealReg]
clobbered
= do Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
freeRegs
freeregs <- RegM freeRegs freeRegs
forall freeRegs. RegM freeRegs freeRegs
getFreeRegsR
freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR (freeRegs -> RegM freeRegs ()) -> freeRegs -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$! (freeRegs -> RealReg -> freeRegs)
-> freeRegs -> [RealReg] -> freeRegs
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl' ((RealReg -> freeRegs -> freeRegs)
-> freeRegs -> RealReg -> freeRegs
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((RealReg -> freeRegs -> freeRegs)
-> freeRegs -> RealReg -> freeRegs)
-> (RealReg -> freeRegs -> freeRegs)
-> freeRegs
-> RealReg
-> freeRegs
forall a b. (a -> b) -> a -> b
$ Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frAllocateReg Platform
platform) freeRegs
freeregs [RealReg]
clobbered
RegMap Loc
assig <- RegM freeRegs (RegMap Loc)
forall freeRegs. RegM freeRegs (RegMap Loc)
getAssigR
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> RegM freeRegs ()) -> RegMap Loc -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$! RegMap Loc -> [(Unique, Loc)] -> RegMap Loc
clobber RegMap Loc
assig (RegMap Loc -> [(Unique, Loc)]
forall key elt. UniqFM key elt -> [(Unique, elt)]
nonDetUFMToList RegMap Loc
assig)
where
clobber :: RegMap Loc -> [(Unique,Loc)] -> RegMap Loc
clobber :: RegMap Loc -> [(Unique, Loc)] -> RegMap Loc
clobber RegMap Loc
assig []
= RegMap Loc
assig
clobber RegMap Loc
assig ((Unique
temp, InBoth RealReg
reg Int
slot) : [(Unique, Loc)]
rest)
| (RealReg -> Bool) -> [RealReg] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any (RealReg -> RealReg -> Bool
realRegsAlias RealReg
reg) [RealReg]
clobbered
= RegMap Loc -> [(Unique, Loc)] -> RegMap Loc
clobber (RegMap Loc -> Unique -> Loc -> RegMap Loc
forall key elt. UniqFM key elt -> Unique -> elt -> UniqFM key elt
addToUFM_Directly RegMap Loc
assig Unique
temp (Int -> Loc
InMem Int
slot)) [(Unique, Loc)]
rest
clobber RegMap Loc
assig ((Unique, Loc)
_:[(Unique, Loc)]
rest)
= RegMap Loc -> [(Unique, Loc)] -> RegMap Loc
clobber RegMap Loc
assig [(Unique, Loc)]
rest
data SpillLoc = ReadMem StackSlot
| WriteNew
| WriteMem
allocateRegsAndSpill
:: forall freeRegs instr. (FR freeRegs, Outputable instr, Instruction instr)
=> Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ( [instr] , [RealReg])
allocateRegsAndSpill :: forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
_ [VirtualReg]
_ [instr]
spills [RealReg]
alloc []
= ([instr], [RealReg]) -> RegM freeRegs ([instr], [RealReg])
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr]
spills, [RealReg] -> [RealReg]
forall a. [a] -> [a]
reverse [RealReg]
alloc)
allocateRegsAndSpill Bool
reading [VirtualReg]
keep [instr]
spills [RealReg]
alloc (VirtualReg
r:[VirtualReg]
rs)
= do UniqFM VirtualReg Loc
assig <- RegMap Loc -> UniqFM VirtualReg Loc
forall elt. UniqFM Reg elt -> UniqFM VirtualReg elt
toVRegMap (RegMap Loc -> UniqFM VirtualReg Loc)
-> RegM freeRegs (RegMap Loc)
-> RegM freeRegs (UniqFM VirtualReg Loc)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> RegM freeRegs (RegMap Loc)
forall freeRegs. RegM freeRegs (RegMap Loc)
getAssigR
let doSpill :: SpillLoc -> RegM freeRegs ([instr], [RealReg])
doSpill = Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> VirtualReg
-> [VirtualReg]
-> UniqFM VirtualReg Loc
-> SpillLoc
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Instruction instr, Outputable instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> VirtualReg
-> [VirtualReg]
-> UniqFM VirtualReg Loc
-> SpillLoc
-> RegM freeRegs ([instr], [RealReg])
allocRegsAndSpill_spill Bool
reading [VirtualReg]
keep [instr]
spills [RealReg]
alloc VirtualReg
r [VirtualReg]
rs UniqFM VirtualReg Loc
assig
case UniqFM VirtualReg Loc -> VirtualReg -> Maybe Loc
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM UniqFM VirtualReg Loc
assig VirtualReg
r of
Just (InReg RealReg
my_reg) ->
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
reading [VirtualReg]
keep [instr]
spills (RealReg
my_regRealReg -> [RealReg] -> [RealReg]
forall a. a -> [a] -> [a]
:[RealReg]
alloc) [VirtualReg]
rs
Just (InBoth RealReg
my_reg Int
_)
-> do Bool -> RegM freeRegs () -> RegM freeRegs ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool -> Bool
not Bool
reading) (RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> RegM freeRegs ()) -> RegMap Loc -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ UniqFM VirtualReg Loc -> RegMap Loc
forall elt. UniqFM VirtualReg elt -> UniqFM Reg elt
toRegMap (UniqFM VirtualReg Loc -> VirtualReg -> Loc -> UniqFM VirtualReg Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM UniqFM VirtualReg Loc
assig VirtualReg
r (RealReg -> Loc
InReg RealReg
my_reg)))
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
reading [VirtualReg]
keep [instr]
spills (RealReg
my_regRealReg -> [RealReg] -> [RealReg]
forall a. a -> [a] -> [a]
:[RealReg]
alloc) [VirtualReg]
rs
Just (InMem Int
slot) | Bool
reading -> SpillLoc -> RegM freeRegs ([instr], [RealReg])
doSpill (Int -> SpillLoc
ReadMem Int
slot)
| Bool
otherwise -> SpillLoc -> RegM freeRegs ([instr], [RealReg])
doSpill SpillLoc
WriteMem
Maybe Loc
Nothing | Bool
reading ->
String -> SDoc -> RegM freeRegs ([instr], [RealReg])
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"allocateRegsAndSpill: Cannot read from uninitialized register" (VirtualReg -> SDoc
forall a. Outputable a => a -> SDoc
ppr VirtualReg
r)
| Bool
otherwise -> SpillLoc -> RegM freeRegs ([instr], [RealReg])
doSpill SpillLoc
WriteNew
findPrefRealReg :: VirtualReg -> RegM freeRegs (Maybe RealReg)
findPrefRealReg :: forall freeRegs. VirtualReg -> RegM freeRegs (Maybe RealReg)
findPrefRealReg VirtualReg
vreg = do
BlockAssignment freeRegs
bassig <- forall freeRegs. RegM freeRegs (BlockAssignment freeRegs)
getBlockAssigR :: RegM freeRegs (BlockAssignment freeRegs)
Maybe RealReg -> RegM freeRegs (Maybe RealReg)
forall (m :: * -> *) a. Monad m => a -> m a
return (Maybe RealReg -> RegM freeRegs (Maybe RealReg))
-> Maybe RealReg -> RegM freeRegs (Maybe RealReg)
forall a b. (a -> b) -> a -> b
$ VirtualReg -> BlockAssignment freeRegs -> Maybe RealReg
forall freeRegs.
VirtualReg -> BlockAssignment freeRegs -> Maybe RealReg
lookupFirstUsed VirtualReg
vreg BlockAssignment freeRegs
bassig
allocRegsAndSpill_spill :: (FR freeRegs, Instruction instr, Outputable instr)
=> Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> VirtualReg
-> [VirtualReg]
-> UniqFM VirtualReg Loc
-> SpillLoc
-> RegM freeRegs ([instr], [RealReg])
allocRegsAndSpill_spill :: forall freeRegs instr.
(FR freeRegs, Instruction instr, Outputable instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> VirtualReg
-> [VirtualReg]
-> UniqFM VirtualReg Loc
-> SpillLoc
-> RegM freeRegs ([instr], [RealReg])
allocRegsAndSpill_spill Bool
reading [VirtualReg]
keep [instr]
spills [RealReg]
alloc VirtualReg
r [VirtualReg]
rs UniqFM VirtualReg Loc
assig SpillLoc
spill_loc
= do Platform
platform <- RegM freeRegs Platform
forall a. RegM a Platform
getPlatform
freeRegs
freeRegs <- RegM freeRegs freeRegs
forall freeRegs. RegM freeRegs freeRegs
getFreeRegsR
let freeRegs_thisClass :: [RealReg]
freeRegs_thisClass = Platform -> RegClass -> freeRegs -> [RealReg]
forall freeRegs.
FR freeRegs =>
Platform -> RegClass -> freeRegs -> [RealReg]
frGetFreeRegs Platform
platform (VirtualReg -> RegClass
classOfVirtualReg VirtualReg
r) freeRegs
freeRegs :: [RealReg]
Maybe RealReg
pref_reg <- VirtualReg -> RegM freeRegs (Maybe RealReg)
forall freeRegs. VirtualReg -> RegM freeRegs (Maybe RealReg)
findPrefRealReg VirtualReg
r
case [RealReg]
freeRegs_thisClass of
(RealReg
first_free : [RealReg]
_) ->
do let final_reg :: RealReg
final_reg
| Just RealReg
reg <- Maybe RealReg
pref_reg
, RealReg
reg RealReg -> [RealReg] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [RealReg]
freeRegs_thisClass
= RealReg
reg
| Bool
otherwise
= RealReg
first_free
[instr]
spills' <- VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
forall instr freeRegs.
Instruction instr =>
VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
loadTemp VirtualReg
r SpillLoc
spill_loc RealReg
final_reg [instr]
spills
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> RegM freeRegs ()) -> RegMap Loc -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ UniqFM VirtualReg Loc -> RegMap Loc
forall elt. UniqFM VirtualReg elt -> UniqFM Reg elt
toRegMap
(UniqFM VirtualReg Loc -> RegMap Loc)
-> UniqFM VirtualReg Loc -> RegMap Loc
forall a b. (a -> b) -> a -> b
$ (UniqFM VirtualReg Loc -> VirtualReg -> Loc -> UniqFM VirtualReg Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM UniqFM VirtualReg Loc
assig VirtualReg
r (Loc -> UniqFM VirtualReg Loc) -> Loc -> UniqFM VirtualReg Loc
forall a b. (a -> b) -> a -> b
$! SpillLoc -> RealReg -> Loc
newLocation SpillLoc
spill_loc RealReg
final_reg)
freeRegs -> RegM freeRegs ()
forall freeRegs. freeRegs -> RegM freeRegs ()
setFreeRegsR (freeRegs -> RegM freeRegs ()) -> freeRegs -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ Platform -> RealReg -> freeRegs -> freeRegs
forall freeRegs.
FR freeRegs =>
Platform -> RealReg -> freeRegs -> freeRegs
frAllocateReg Platform
platform RealReg
final_reg freeRegs
freeRegs
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
reading [VirtualReg]
keep [instr]
spills' (RealReg
final_reg RealReg -> [RealReg] -> [RealReg]
forall a. a -> [a] -> [a]
: [RealReg]
alloc) [VirtualReg]
rs
[] ->
do let inRegOrBoth :: Loc -> Bool
inRegOrBoth (InReg RealReg
_) = Bool
True
inRegOrBoth (InBoth RealReg
_ Int
_) = Bool
True
inRegOrBoth Loc
_ = Bool
False
let candidates' :: UniqFM VirtualReg Loc
candidates' :: UniqFM VirtualReg Loc
candidates' =
(UniqFM VirtualReg Loc -> [VirtualReg] -> UniqFM VirtualReg Loc)
-> [VirtualReg] -> UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc
forall a b c. (a -> b -> c) -> b -> a -> c
flip UniqFM VirtualReg Loc -> [VirtualReg] -> UniqFM VirtualReg Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> [key] -> UniqFM key elt
delListFromUFM [VirtualReg]
keep (UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc)
-> UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc
forall a b. (a -> b) -> a -> b
$
(Loc -> Bool) -> UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc
forall elt key. (elt -> Bool) -> UniqFM key elt -> UniqFM key elt
filterUFM Loc -> Bool
inRegOrBoth (UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc)
-> UniqFM VirtualReg Loc -> UniqFM VirtualReg Loc
forall a b. (a -> b) -> a -> b
$
UniqFM VirtualReg Loc
assig
let candidates :: [(Unique, Loc)]
candidates = UniqFM VirtualReg Loc -> [(Unique, Loc)]
forall key elt. UniqFM key elt -> [(Unique, elt)]
nonDetUFMToList UniqFM VirtualReg Loc
candidates'
let candidates_inBoth :: [(Unique, RealReg, StackSlot)]
candidates_inBoth :: [(Unique, RealReg, Int)]
candidates_inBoth
= [ (Unique
temp, RealReg
reg, Int
mem)
| (Unique
temp, InBoth RealReg
reg Int
mem) <- [(Unique, Loc)]
candidates
, Platform -> RealReg -> RegClass
targetClassOfRealReg Platform
platform RealReg
reg RegClass -> RegClass -> Bool
forall a. Eq a => a -> a -> Bool
== VirtualReg -> RegClass
classOfVirtualReg VirtualReg
r ]
let candidates_inReg :: [(Unique, RealReg)]
candidates_inReg
= [ (Unique
temp, RealReg
reg)
| (Unique
temp, InReg RealReg
reg) <- [(Unique, Loc)]
candidates
, Platform -> RealReg -> RegClass
targetClassOfRealReg Platform
platform RealReg
reg RegClass -> RegClass -> Bool
forall a. Eq a => a -> a -> Bool
== VirtualReg -> RegClass
classOfVirtualReg VirtualReg
r ]
let result :: RegM freeRegs ([instr], [RealReg])
result
| (Unique
temp, RealReg
my_reg, Int
slot) : [(Unique, RealReg, Int)]
_ <- [(Unique, RealReg, Int)]
candidates_inBoth
= do [instr]
spills' <- VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
forall instr freeRegs.
Instruction instr =>
VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
loadTemp VirtualReg
r SpillLoc
spill_loc RealReg
my_reg [instr]
spills
let assig1 :: UniqFM VirtualReg Loc
assig1 = UniqFM VirtualReg Loc -> Unique -> Loc -> UniqFM VirtualReg Loc
forall key elt. UniqFM key elt -> Unique -> elt -> UniqFM key elt
addToUFM_Directly UniqFM VirtualReg Loc
assig Unique
temp (Int -> Loc
InMem Int
slot)
let assig2 :: UniqFM VirtualReg Loc
assig2 = UniqFM VirtualReg Loc -> VirtualReg -> Loc -> UniqFM VirtualReg Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM UniqFM VirtualReg Loc
assig1 VirtualReg
r (Loc -> UniqFM VirtualReg Loc) -> Loc -> UniqFM VirtualReg Loc
forall a b. (a -> b) -> a -> b
$! SpillLoc -> RealReg -> Loc
newLocation SpillLoc
spill_loc RealReg
my_reg
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> RegM freeRegs ()) -> RegMap Loc -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ UniqFM VirtualReg Loc -> RegMap Loc
forall elt. UniqFM VirtualReg elt -> UniqFM Reg elt
toRegMap UniqFM VirtualReg Loc
assig2
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
reading [VirtualReg]
keep [instr]
spills' (RealReg
my_regRealReg -> [RealReg] -> [RealReg]
forall a. a -> [a] -> [a]
:[RealReg]
alloc) [VirtualReg]
rs
| (Unique
temp_to_push_out, (RealReg
my_reg :: RealReg)) : [(Unique, RealReg)]
_
<- [(Unique, RealReg)]
candidates_inReg
= do
(instr
spill_insn, Int
slot) <- Reg -> Unique -> RegM freeRegs (instr, Int)
forall instr freeRegs.
Instruction instr =>
Reg -> Unique -> RegM freeRegs (instr, Int)
spillR (RealReg -> Reg
RegReal RealReg
my_reg) Unique
temp_to_push_out
let spill_store :: [instr]
spill_store = (if Bool
reading then [instr] -> [instr]
forall a. a -> a
id else [instr] -> [instr]
forall a. [a] -> [a]
reverse)
[
instr
spill_insn ]
SpillReason -> RegM freeRegs ()
forall freeRegs. SpillReason -> RegM freeRegs ()
recordSpill (Unique -> SpillReason
SpillAlloc Unique
temp_to_push_out)
let assig1 :: UniqFM VirtualReg Loc
assig1 = UniqFM VirtualReg Loc -> Unique -> Loc -> UniqFM VirtualReg Loc
forall key elt. UniqFM key elt -> Unique -> elt -> UniqFM key elt
addToUFM_Directly UniqFM VirtualReg Loc
assig Unique
temp_to_push_out (Int -> Loc
InMem Int
slot)
let assig2 :: UniqFM VirtualReg Loc
assig2 = UniqFM VirtualReg Loc -> VirtualReg -> Loc -> UniqFM VirtualReg Loc
forall key elt.
Uniquable key =>
UniqFM key elt -> key -> elt -> UniqFM key elt
addToUFM UniqFM VirtualReg Loc
assig1 VirtualReg
r (Loc -> UniqFM VirtualReg Loc) -> Loc -> UniqFM VirtualReg Loc
forall a b. (a -> b) -> a -> b
$! SpillLoc -> RealReg -> Loc
newLocation SpillLoc
spill_loc RealReg
my_reg
RegMap Loc -> RegM freeRegs ()
forall freeRegs. RegMap Loc -> RegM freeRegs ()
setAssigR (RegMap Loc -> RegM freeRegs ()) -> RegMap Loc -> RegM freeRegs ()
forall a b. (a -> b) -> a -> b
$ UniqFM VirtualReg Loc -> RegMap Loc
forall elt. UniqFM VirtualReg elt -> UniqFM Reg elt
toRegMap UniqFM VirtualReg Loc
assig2
[instr]
spills' <- VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
forall instr freeRegs.
Instruction instr =>
VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
loadTemp VirtualReg
r SpillLoc
spill_loc RealReg
my_reg [instr]
spills
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
forall freeRegs instr.
(FR freeRegs, Outputable instr, Instruction instr) =>
Bool
-> [VirtualReg]
-> [instr]
-> [RealReg]
-> [VirtualReg]
-> RegM freeRegs ([instr], [RealReg])
allocateRegsAndSpill Bool
reading [VirtualReg]
keep
([instr]
spill_store [instr] -> [instr] -> [instr]
forall a. [a] -> [a] -> [a]
++ [instr]
spills')
(RealReg
my_regRealReg -> [RealReg] -> [RealReg]
forall a. a -> [a] -> [a]
:[RealReg]
alloc) [VirtualReg]
rs
| Bool
otherwise
= String -> SDoc -> RegM freeRegs ([instr], [RealReg])
forall a. HasCallStack => String -> SDoc -> a
pprPanic (String
"RegAllocLinear.allocRegsAndSpill: no spill candidates\n")
(SDoc -> RegM freeRegs ([instr], [RealReg]))
-> SDoc -> RegM freeRegs ([instr], [RealReg])
forall a b. (a -> b) -> a -> b
$ [SDoc] -> SDoc
vcat
[ String -> SDoc
text String
"allocating vreg: " SDoc -> SDoc -> SDoc
<> String -> SDoc
text (VirtualReg -> String
forall a. Show a => a -> String
show VirtualReg
r)
, String -> SDoc
text String
"assignment: " SDoc -> SDoc -> SDoc
<> UniqFM VirtualReg Loc -> SDoc
forall a. Outputable a => a -> SDoc
ppr UniqFM VirtualReg Loc
assig
, String -> SDoc
text String
"freeRegs: " SDoc -> SDoc -> SDoc
<> String -> SDoc
text (freeRegs -> String
forall a. Show a => a -> String
show freeRegs
freeRegs)
, String -> SDoc
text String
"initFreeRegs: " SDoc -> SDoc -> SDoc
<> String -> SDoc
text (freeRegs -> String
forall a. Show a => a -> String
show (Platform -> freeRegs
forall freeRegs. FR freeRegs => Platform -> freeRegs
frInitFreeRegs Platform
platform freeRegs -> freeRegs -> freeRegs
forall a. a -> a -> a
`asTypeOf` freeRegs
freeRegs)) ]
RegM freeRegs ([instr], [RealReg])
result
newLocation :: SpillLoc -> RealReg -> Loc
newLocation :: SpillLoc -> RealReg -> Loc
newLocation (ReadMem Int
slot) RealReg
my_reg = RealReg -> Int -> Loc
InBoth RealReg
my_reg Int
slot
newLocation SpillLoc
_ RealReg
my_reg = RealReg -> Loc
InReg RealReg
my_reg
loadTemp
:: (Instruction instr)
=> VirtualReg
-> SpillLoc
-> RealReg
-> [instr]
-> RegM freeRegs [instr]
loadTemp :: forall instr freeRegs.
Instruction instr =>
VirtualReg
-> SpillLoc -> RealReg -> [instr] -> RegM freeRegs [instr]
loadTemp VirtualReg
vreg (ReadMem Int
slot) RealReg
hreg [instr]
spills
= do
instr
insn <- Reg -> Int -> RegM freeRegs instr
forall instr freeRegs.
Instruction instr =>
Reg -> Int -> RegM freeRegs instr
loadR (RealReg -> Reg
RegReal RealReg
hreg) Int
slot
SpillReason -> RegM freeRegs ()
forall freeRegs. SpillReason -> RegM freeRegs ()
recordSpill (Unique -> SpillReason
SpillLoad (Unique -> SpillReason) -> Unique -> SpillReason
forall a b. (a -> b) -> a -> b
$ VirtualReg -> Unique
forall a. Uniquable a => a -> Unique
getUnique VirtualReg
vreg)
[instr] -> RegM freeRegs [instr]
forall (m :: * -> *) a. Monad m => a -> m a
return ([instr] -> RegM freeRegs [instr])
-> [instr] -> RegM freeRegs [instr]
forall a b. (a -> b) -> a -> b
$ instr
insn instr -> [instr] -> [instr]
forall a. a -> [a] -> [a]
: [instr]
spills
loadTemp VirtualReg
_ SpillLoc
_ RealReg
_ [instr]
spills =
[instr] -> RegM freeRegs [instr]
forall (m :: * -> *) a. Monad m => a -> m a
return [instr]
spills