{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE BlockArguments #-}
{-# LANGUAGE TupleSections #-}

{-# OPTIONS_GHC -Wno-incomplete-record-updates #-}

{-
(c) The University of Glasgow 2006
(c) The GRASP/AQUA Project, Glasgow University, 1992-1998


Desugaring arrow commands
-}

module GHC.HsToCore.Arrows ( dsProcExpr ) where

import GHC.Prelude

import GHC.HsToCore.Match
import GHC.HsToCore.Utils
import GHC.HsToCore.Monad

import GHC.Hs
import GHC.Hs.Syn.Type

-- NB: The desugarer, which straddles the source and Core worlds, sometimes
--     needs to see source types (newtypes etc), and sometimes not
--     So WATCH OUT; check each use of split*Ty functions.
-- Sigh.  This is a pain.

import {-# SOURCE #-} GHC.HsToCore.Expr ( dsExpr, dsLExpr, dsLocalBinds,
                                          dsSyntaxExpr )

import GHC.Tc.Utils.TcType
import GHC.Core.Multiplicity
import GHC.Tc.Types.Evidence
import GHC.Core
import GHC.Core.FVs
import GHC.Core.Utils
import GHC.Core.Make
import GHC.HsToCore.Binds (dsHsWrapper)


import GHC.Types.Id
import GHC.Core.ConLike
import GHC.Builtin.Types
import GHC.Types.Basic
import GHC.Builtin.Names
import GHC.Utils.Outputable
import GHC.Utils.Panic
import GHC.Types.Var.Set
import GHC.Types.SrcLoc
import GHC.Data.List.SetOps( assocMaybe )
import Data.Foldable (toList)
import Data.List (mapAccumL)
import Data.List.NonEmpty (NonEmpty(..), nonEmpty)
import GHC.Utils.Misc
import GHC.Types.Unique.DSet

data DsCmdEnv = DsCmdEnv {
        DsCmdEnv -> CoreExpr
arr_id, DsCmdEnv -> CoreExpr
compose_id, DsCmdEnv -> CoreExpr
first_id, DsCmdEnv -> CoreExpr
app_id, DsCmdEnv -> CoreExpr
choice_id, DsCmdEnv -> CoreExpr
loop_id :: CoreExpr
    }

mkCmdEnv :: CmdSyntaxTable GhcTc -> DsM ([CoreBind], DsCmdEnv)
-- See Note [CmdSyntaxTable] in GHC.Hs.Expr
mkCmdEnv :: CmdSyntaxTable (GhcPass 'Typechecked) -> DsM ([CoreBind], DsCmdEnv)
mkCmdEnv CmdSyntaxTable (GhcPass 'Typechecked)
tc_meths
  = do { ([CoreBind]
meth_binds, [(Name, Id)]
prs) <- forall (m :: * -> *) a b c.
Applicative m =>
(a -> m (b, c)) -> [a] -> m ([b], [c])
mapAndUnzipM forall {a}.
(a, HsExpr (GhcPass 'Typechecked))
-> IOEnv (Env DsGblEnv DsLclEnv) (CoreBind, (a, Id))
mk_bind CmdSyntaxTable (GhcPass 'Typechecked)
tc_meths

       -- NB: Some of these lookups might fail, but that's OK if the
       -- symbol is never used. That's why we use Maybe first and then
       -- panic. An eager panic caused trouble in typecheck/should_compile/tc192
       ; let the_arr_id :: Maybe Id
the_arr_id     = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
arrAName
             the_compose_id :: Maybe Id
the_compose_id = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
composeAName
             the_first_id :: Maybe Id
the_first_id   = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
firstAName
             the_app_id :: Maybe Id
the_app_id     = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
appAName
             the_choice_id :: Maybe Id
the_choice_id  = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
choiceAName
             the_loop_id :: Maybe Id
the_loop_id    = forall a b. Eq a => Assoc a b -> a -> Maybe b
assocMaybe [(Name, Id)]
prs Name
loopAName

       ; forall (m :: * -> *) a. Monad m => a -> m a
return ([CoreBind]
meth_binds, DsCmdEnv {
               arr_id :: CoreExpr
arr_id     = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_arr_id Name
arrAName),
               compose_id :: CoreExpr
compose_id = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_compose_id Name
composeAName),
               first_id :: CoreExpr
first_id   = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_first_id Name
firstAName),
               app_id :: CoreExpr
app_id     = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_app_id Name
appAName),
               choice_id :: CoreExpr
choice_id  = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_choice_id Name
choiceAName),
               loop_id :: CoreExpr
loop_id    = forall b. Id -> Expr b
Var (forall {a} {a}. Outputable a => Maybe a -> a -> a
unmaybe Maybe Id
the_loop_id Name
loopAName)
             }) }
  where
    mk_bind :: (a, HsExpr (GhcPass 'Typechecked))
-> IOEnv (Env DsGblEnv DsLclEnv) (CoreBind, (a, Id))
mk_bind (a
std_name, HsExpr (GhcPass 'Typechecked)
expr)
      = do { CoreExpr
rhs <- HsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsExpr HsExpr (GhcPass 'Typechecked)
expr
           ; Id
id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many (HasDebugCallStack => CoreExpr -> Type
exprType CoreExpr
rhs)
           -- no check needed; these are functions
           ; forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. b -> Expr b -> Bind b
NonRec Id
id CoreExpr
rhs, (a
std_name, Id
id)) }

    unmaybe :: Maybe a -> a -> a
unmaybe Maybe a
Nothing a
name = forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"mkCmdEnv" (String -> SDoc
text String
"Not found:" SDoc -> SDoc -> SDoc
<+> forall a. Outputable a => a -> SDoc
ppr a
name)
    unmaybe (Just a
id) a
_  = a
id

-- arr :: forall b c. (b -> c) -> a b c
do_arr :: DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr :: DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
b_ty Type
c_ty CoreExpr
f = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
arr_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
c_ty, CoreExpr
f]

-- (>>>) :: forall b c d. a b c -> a c d -> a b d
do_compose :: DsCmdEnv -> Type -> Type -> Type ->
                CoreExpr -> CoreExpr -> CoreExpr
do_compose :: DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty CoreExpr
f CoreExpr
g
  = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
compose_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
c_ty, forall b. Type -> Expr b
Type Type
d_ty, CoreExpr
f, CoreExpr
g]

-- first :: forall b c d. a b c -> a (b,d) (c,d)
do_first :: DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_first :: DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_first DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty CoreExpr
f
  = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
first_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
c_ty, forall b. Type -> Expr b
Type Type
d_ty, CoreExpr
f]

-- app :: forall b c. a (a b c, b) c
do_app :: DsCmdEnv -> Type -> Type -> CoreExpr
do_app :: DsCmdEnv -> Type -> Type -> CoreExpr
do_app DsCmdEnv
ids Type
b_ty Type
c_ty = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
app_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
c_ty]

-- (|||) :: forall b d c. a b d -> a c d -> a (Either b c) d
-- note the swapping of d and c
do_choice :: DsCmdEnv -> Type -> Type -> Type ->
                CoreExpr -> CoreExpr -> CoreExpr
do_choice :: DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_choice DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty CoreExpr
f CoreExpr
g
  = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
choice_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
d_ty, forall b. Type -> Expr b
Type Type
c_ty, CoreExpr
f, CoreExpr
g]

-- loop :: forall b d c. a (b,d) (c,d) -> a b c
-- note the swapping of d and c
do_loop :: DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_loop :: DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_loop DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty CoreExpr
f
  = forall b. Expr b -> [Expr b] -> Expr b
mkApps (DsCmdEnv -> CoreExpr
loop_id DsCmdEnv
ids) [forall b. Type -> Expr b
Type Type
b_ty, forall b. Type -> Expr b
Type Type
d_ty, forall b. Type -> Expr b
Type Type
c_ty, CoreExpr
f]

-- premap :: forall b c d. (b -> c) -> a c d -> a b d
-- premap f g = arr f >>> g
do_premap :: DsCmdEnv -> Type -> Type -> Type ->
                CoreExpr -> CoreExpr -> CoreExpr
do_premap :: DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty CoreExpr
f CoreExpr
g
   = DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
b_ty Type
c_ty Type
d_ty (DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
b_ty Type
c_ty CoreExpr
f) CoreExpr
g

-- construct CoreExpr for \ (a :: a_ty, b :: b_ty) -> a
mkFstExpr :: Type -> Type -> DsM CoreExpr
mkFstExpr :: Type -> Type -> DsM CoreExpr
mkFstExpr Type
a_ty Type
b_ty = do
    Id
a_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
a_ty
    Id
b_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
b_ty
    Id
pair_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many (Type -> Type -> Type
mkCorePairTy Type
a_ty Type
b_ty)
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. b -> Expr b -> Expr b
Lam Id
pair_var
               (Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
pair_var Id
a_var Id
b_var (forall b. Id -> Expr b
Var Id
a_var)))

-- construct CoreExpr for \ (a :: a_ty, b :: b_ty) -> b
mkSndExpr :: Type -> Type -> DsM CoreExpr
mkSndExpr :: Type -> Type -> DsM CoreExpr
mkSndExpr Type
a_ty Type
b_ty = do
    Id
a_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
a_ty
    Id
b_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
b_ty
    Id
pair_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many (Type -> Type -> Type
mkCorePairTy Type
a_ty Type
b_ty)
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. b -> Expr b -> Expr b
Lam Id
pair_var
               (Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
pair_var Id
a_var Id
b_var (forall b. Id -> Expr b
Var Id
b_var)))

{-
Build case analysis of a tuple.  This cannot be done in the DsM monad,
because the list of variables is typically not yet defined.
-}

-- coreCaseTuple [u1..] v [x1..xn] body
--      = case v of v { (x1, .., xn) -> body }
-- But the matching may be nested if the tuple is very big

coreCaseTuple :: UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple :: UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple UniqSupply
uniqs Id
scrut_var [Id]
vars CoreExpr
body
  = UniqSupply -> [Id] -> CoreExpr -> Id -> CoreExpr -> CoreExpr
mkTupleCase UniqSupply
uniqs [Id]
vars CoreExpr
body Id
scrut_var (forall b. Id -> Expr b
Var Id
scrut_var)

coreCasePair :: Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair :: Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
scrut_var Id
var1 Id
var2 CoreExpr
body
  = forall b. Expr b -> b -> Type -> [Alt b] -> Expr b
Case (forall b. Id -> Expr b
Var Id
scrut_var) Id
scrut_var (HasDebugCallStack => CoreExpr -> Type
exprType CoreExpr
body)
         [forall b. AltCon -> [b] -> Expr b -> Alt b
Alt (DataCon -> AltCon
DataAlt (Boxity -> Int -> DataCon
tupleDataCon Boxity
Boxed Int
2)) [Id
var1, Id
var2] CoreExpr
body]

mkCorePairTy :: Type -> Type -> Type
mkCorePairTy :: Type -> Type -> Type
mkCorePairTy Type
t1 Type
t2 = [Type] -> Type
mkBoxedTupleTy [Type
t1, Type
t2]

mkCorePairExpr :: CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr :: CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr CoreExpr
e1 CoreExpr
e2 = [CoreExpr] -> CoreExpr
mkCoreTup [CoreExpr
e1, CoreExpr
e2]

mkCoreUnitExpr :: CoreExpr
mkCoreUnitExpr :: CoreExpr
mkCoreUnitExpr = [CoreExpr] -> CoreExpr
mkCoreTup []

{-
The input is divided into a local environment, which is a flat tuple
(unless it's too big), and a stack, which is a right-nested pair.
In general, the input has the form

        ((x1,...,xn), (s1,...(sk,())...))

where xi are the environment values, and si the ones on the stack,
with s1 being the "top", the first one to be matched with a lambda.
-}

envStackType :: [Id] -> Type -> Type
envStackType :: [Id] -> Type -> Type
envStackType [Id]
ids Type
stack_ty = Type -> Type -> Type
mkCorePairTy ([Id] -> Type
mkBigCoreVarTupTy [Id]
ids) Type
stack_ty

-- splitTypeAt n (t1,... (tn,t)...) = ([t1, ..., tn], t)
splitTypeAt :: Int -> Type -> ([Type], Type)
splitTypeAt :: Int -> Type -> ([Type], Type)
splitTypeAt Int
n Type
ty
  | Int
n forall a. Eq a => a -> a -> Bool
== Int
0 = ([], Type
ty)
  | Bool
otherwise = case Type -> [Type]
tcTyConAppArgs Type
ty of
      [Type
t, Type
ty'] -> let ([Type]
ts, Type
ty_r) = Int -> Type -> ([Type], Type)
splitTypeAt (Int
nforall a. Num a => a -> a -> a
-Int
1) Type
ty' in (Type
tforall a. a -> [a] -> [a]
:[Type]
ts, Type
ty_r)
      [Type]
_ -> forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"splitTypeAt" (forall a. Outputable a => a -> SDoc
ppr Type
ty)

----------------------------------------------
--              buildEnvStack
--
--      ((x1,...,xn),stk)

buildEnvStack :: [Id] -> Id -> CoreExpr
buildEnvStack :: [Id] -> Id -> CoreExpr
buildEnvStack [Id]
env_ids Id
stack_id
  = CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids) (forall b. Id -> Expr b
Var Id
stack_id)

----------------------------------------------
--              matchEnvStack
--
--      \ ((x1,...,xn),stk) -> body
--      =>
--      \ pair ->
--      case pair of (tup,stk) ->
--      case tup of (x1,...,xn) ->
--      body

matchEnvStack   :: [Id]         -- x1..xn
                -> Id           -- stk
                -> CoreExpr     -- e
                -> DsM CoreExpr
matchEnvStack :: [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
body = do
    UniqSupply
uniqs <- forall gbl lcl. TcRnIf gbl lcl UniqSupply
newUniqueSupply
    Id
tup_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids)
    let match_env :: CoreExpr
match_env = UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple UniqSupply
uniqs Id
tup_var [Id]
env_ids CoreExpr
body
    Id
pair_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many (Type -> Type -> Type
mkCorePairTy (Id -> Type
idType Id
tup_var) (Id -> Type
idType Id
stack_id))
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. b -> Expr b -> Expr b
Lam Id
pair_id (Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
pair_id Id
tup_var Id
stack_id CoreExpr
match_env))

----------------------------------------------
--              matchEnv
--
--      \ (x1,...,xn) -> body
--      =>
--      \ tup ->
--      case tup of (x1,...,xn) ->
--      body

matchEnv :: [Id]        -- x1..xn
         -> CoreExpr    -- e
         -> DsM CoreExpr
matchEnv :: [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
env_ids CoreExpr
body = do
    UniqSupply
uniqs <- forall gbl lcl. TcRnIf gbl lcl UniqSupply
newUniqueSupply
    Id
tup_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids)
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. b -> Expr b -> Expr b
Lam Id
tup_id (UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple UniqSupply
uniqs Id
tup_id [Id]
env_ids CoreExpr
body))

----------------------------------------------
--              matchVarStack
--
--      case (x1, ...(xn, s)...) -> e
--      =>
--      case z0 of (x1,z1) ->
--      case zn-1 of (xn,s) ->
--      e
matchVarStack :: [Id] -> Id -> CoreExpr -> DsM (Id, CoreExpr)
matchVarStack :: [Id] -> Id -> CoreExpr -> DsM (Id, CoreExpr)
matchVarStack [] Id
stack_id CoreExpr
body = forall (m :: * -> *) a. Monad m => a -> m a
return (Id
stack_id, CoreExpr
body)
matchVarStack (Id
param_id:[Id]
param_ids) Id
stack_id CoreExpr
body = do
    (Id
tail_id, CoreExpr
tail_code) <- [Id] -> Id -> CoreExpr -> DsM (Id, CoreExpr)
matchVarStack [Id]
param_ids Id
stack_id CoreExpr
body
    Id
pair_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many (Type -> Type -> Type
mkCorePairTy (Id -> Type
idType Id
param_id) (Id -> Type
idType Id
tail_id))
    forall (m :: * -> *) a. Monad m => a -> m a
return (Id
pair_id, Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
pair_id Id
param_id Id
tail_id CoreExpr
tail_code)

mkHsEnvStackExpr :: [Id] -> Id -> LHsExpr GhcTc
mkHsEnvStackExpr :: [Id] -> Id -> LHsExpr (GhcPass 'Typechecked)
mkHsEnvStackExpr [Id]
env_ids Id
stack_id
  = forall (p :: Pass).
[LHsExpr (GhcPass p)]
-> XExplicitTuple (GhcPass p) -> LHsExpr (GhcPass p)
mkLHsTupleExpr [forall (p :: Pass) a.
IsSrcSpanAnn p a =>
[IdP (GhcPass p)]
-> XExplicitTuple (GhcPass p) -> LHsExpr (GhcPass p)
mkLHsVarTuple [Id]
env_ids NoExtField
noExtField, forall (p :: Pass) a.
IsSrcSpanAnn p a =>
IdP (GhcPass p) -> LHsExpr (GhcPass p)
nlHsVar Id
stack_id]
                   NoExtField
noExtField

-- Translation of arrow abstraction

-- D; xs |-a c : () --> t'      ---> c'
-- --------------------------
-- D |- proc p -> c :: a t t'   ---> premap (\ p -> ((xs),())) c'
--
--              where (xs) is the tuple of variables bound by p

dsProcExpr
        :: LPat GhcTc
        -> LHsCmdTop GhcTc
        -> DsM CoreExpr
dsProcExpr :: LPat (GhcPass 'Typechecked)
-> LHsCmdTop (GhcPass 'Typechecked) -> DsM CoreExpr
dsProcExpr LPat (GhcPass 'Typechecked)
pat (L SrcAnn NoEpAnns
_ (HsCmdTop (CmdTopTc Type
_unitTy Type
cmd_ty CmdSyntaxTable (GhcPass 'Typechecked)
ids) LHsCmd (GhcPass 'Typechecked)
cmd)) = do
    ([CoreBind]
meth_binds, DsCmdEnv
meth_ids) <- CmdSyntaxTable (GhcPass 'Typechecked) -> DsM ([CoreBind], DsCmdEnv)
mkCmdEnv CmdSyntaxTable (GhcPass 'Typechecked)
ids
    let locals :: VarSet
locals = [Id] -> VarSet
mkVarSet (forall p. CollectPass p => CollectFlag p -> LPat p -> [IdP p]
collectPatBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders LPat (GhcPass 'Typechecked)
pat)
    (CoreExpr
core_cmd, DIdSet
_free_vars, [Id]
env_ids)
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
meth_ids VarSet
locals Type
unitTy Type
cmd_ty LHsCmd (GhcPass 'Typechecked)
cmd
    let env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
    let env_stk_ty :: Type
env_stk_ty = Type -> Type -> Type
mkCorePairTy Type
env_ty Type
unitTy
    let env_stk_expr :: CoreExpr
env_stk_expr = CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids) CoreExpr
mkCoreUnitExpr
    CoreExpr
fail_expr <- HsMatchContext GhcRn -> Type -> DsM CoreExpr
mkFailExpr (forall p. HsArrowMatchContext -> HsMatchContext p
ArrowMatchCtxt HsArrowMatchContext
ProcExpr) Type
env_stk_ty
    Id
var <- Type -> LPat (GhcPass 'Typechecked) -> DsM Id
selectSimpleMatchVarL Type
Many LPat (GhcPass 'Typechecked)
pat
    CoreExpr
match_code <- CoreExpr
-> HsMatchContext GhcRn
-> LPat (GhcPass 'Typechecked)
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimply (forall b. Id -> Expr b
Var Id
var) (forall p. HsArrowMatchContext -> HsMatchContext p
ArrowMatchCtxt HsArrowMatchContext
ProcExpr) LPat (GhcPass 'Typechecked)
pat CoreExpr
env_stk_expr CoreExpr
fail_expr
    let pat_ty :: Type
pat_ty = LPat (GhcPass 'Typechecked) -> Type
hsLPatType LPat (GhcPass 'Typechecked)
pat
    let proc_code :: CoreExpr
proc_code = DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
meth_ids Type
pat_ty Type
env_stk_ty Type
cmd_ty
                    (forall b. b -> Expr b -> Expr b
Lam Id
var CoreExpr
match_code)
                    CoreExpr
core_cmd
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. [Bind b] -> Expr b -> Expr b
mkLets [CoreBind]
meth_binds CoreExpr
proc_code)

{-
Translation of a command judgement of the form

        D; xs |-a c : stk --> t

to an expression e such that

        D |- e :: a (xs, stk) t
-}

dsLCmd :: DsCmdEnv -> IdSet -> Type -> Type -> LHsCmd GhcTc -> [Id]
       -> DsM (CoreExpr, DIdSet)
dsLCmd :: DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsLCmd DsCmdEnv
ids VarSet
local_vars Type
stk_ty Type
res_ty LHsCmd (GhcPass 'Typechecked)
cmd [Id]
env_ids
  = DsCmdEnv
-> VarSet
-> Type
-> Type
-> HsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmd DsCmdEnv
ids VarSet
local_vars Type
stk_ty Type
res_ty (forall l e. GenLocated l e -> e
unLoc LHsCmd (GhcPass 'Typechecked)
cmd) [Id]
env_ids

dsCmd   :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this command
        -> Type                 -- type of the stack (right-nested tuple)
        -> Type                 -- return type of the command
        -> HsCmd GhcTc           -- command to desugar
        -> [Id]           -- list of vars in the input to this command
                                -- This is typically fed back,
                                -- so don't pull on it too early
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet)         -- subset of local vars that occur free

-- D |- fun :: a t1 t2
-- D, xs |- arg :: t1
-- -----------------------------
-- D; xs |-a fun -< arg : stk --> t2
--
--              ---> premap (\ ((xs), _stk) -> arg) fun

dsCmd :: DsCmdEnv
-> VarSet
-> Type
-> Type
-> HsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty
        (HsCmdArrApp XCmdArrApp (GhcPass 'Typechecked)
arrow_ty LHsExpr (GhcPass 'Typechecked)
arrow LHsExpr (GhcPass 'Typechecked)
arg HsArrAppType
HsFirstOrderApp Bool
_)
        [Id]
env_ids = do
    let
        (Type
a_arg_ty, Type
_res_ty') = Type -> (Type, Type)
tcSplitAppTy XCmdArrApp (GhcPass 'Typechecked)
arrow_ty
        (Type
_a_ty, Type
arg_ty) = Type -> (Type, Type)
tcSplitAppTy Type
a_arg_ty
    CoreExpr
core_arrow <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
arrow
    CoreExpr
core_arg   <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
arg
    Id
stack_id   <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    CoreExpr
core_make_arg <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
core_arg
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
              ([Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty)
              Type
arg_ty
              Type
res_ty
              CoreExpr
core_make_arg
              CoreExpr
core_arrow,
            CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_arg forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars)

-- D, xs |- fun :: a t1 t2
-- D, xs |- arg :: t1
-- ------------------------------
-- D; xs |-a fun -<< arg : stk --> t2
--
--              ---> premap (\ ((xs), _stk) -> (fun, arg)) app

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty
        (HsCmdArrApp XCmdArrApp (GhcPass 'Typechecked)
arrow_ty LHsExpr (GhcPass 'Typechecked)
arrow LHsExpr (GhcPass 'Typechecked)
arg HsArrAppType
HsHigherOrderApp Bool
_)
        [Id]
env_ids = do
    let
        (Type
a_arg_ty, Type
_res_ty') = Type -> (Type, Type)
tcSplitAppTy XCmdArrApp (GhcPass 'Typechecked)
arrow_ty
        (Type
_a_ty, Type
arg_ty) = Type -> (Type, Type)
tcSplitAppTy Type
a_arg_ty

    CoreExpr
core_arrow <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
arrow
    CoreExpr
core_arg   <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
arg
    Id
stack_id   <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    CoreExpr
core_make_pair <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id
          (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr CoreExpr
core_arrow CoreExpr
core_arg)

    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
              ([Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty)
              (Type -> Type -> Type
mkCorePairTy XCmdArrApp (GhcPass 'Typechecked)
arrow_ty Type
arg_ty)
              Type
res_ty
              CoreExpr
core_make_pair
              (DsCmdEnv -> Type -> Type -> CoreExpr
do_app DsCmdEnv
ids Type
arg_ty Type
res_ty),
            ([CoreExpr] -> DIdSet
exprsFreeIdsDSet [CoreExpr
core_arrow, CoreExpr
core_arg])
              forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars)

-- D; ys |-a cmd : (t,stk) --> t'
-- D, xs |-  exp :: t
-- ------------------------
-- D; xs |-a cmd exp : stk --> t'
--
--              ---> premap (\ ((xs),stk) -> ((ys),(e,stk))) cmd

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdApp XCmdApp (GhcPass 'Typechecked)
_ LHsCmd (GhcPass 'Typechecked)
cmd LHsExpr (GhcPass 'Typechecked)
arg) [Id]
env_ids = do
    CoreExpr
core_arg <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
arg
    let
        arg_ty :: Type
arg_ty = HasDebugCallStack => CoreExpr -> Type
exprType CoreExpr
core_arg
        stack_ty' :: Type
stack_ty' = Type -> Type -> Type
mkCorePairTy Type
arg_ty Type
stack_ty
    (CoreExpr
core_cmd, DIdSet
free_vars, [Id]
env_ids')
             <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty' Type
res_ty LHsCmd (GhcPass 'Typechecked)
cmd
    Id
stack_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    Id
arg_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
arg_ty
    -- push the argument expression onto the stack
    let
        stack' :: CoreExpr
stack' = CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr (forall b. Id -> Expr b
Var Id
arg_id) (forall b. Id -> Expr b
Var Id
stack_id)
        core_body :: CoreExpr
core_body = Id -> CoreExpr -> CoreExpr -> CoreExpr
bindNonRec Id
arg_id CoreExpr
core_arg
                        (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids') CoreExpr
stack')

    -- match the environment and stack against the input
    CoreExpr
core_map <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
core_body
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
                      ([Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty)
                      ([Id] -> Type -> Type
envStackType [Id]
env_ids' Type
stack_ty')
                      Type
res_ty
                      CoreExpr
core_map
                      CoreExpr
core_cmd,
            DIdSet
free_vars DIdSet -> DIdSet -> DIdSet
`unionDVarSet`
              (CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_arg forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars))

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty
        (HsCmdLam XCmdLam (GhcPass 'Typechecked)
_ (MG { mg_alts :: forall p body. MatchGroup p body -> XRec p [LMatch p body]
mg_alts
          = (L SrcSpanAnnL
_ [L SrcSpanAnnA
_ (Match { m_pats :: forall p body. Match p body -> [LPat p]
m_pats  = [LPat (GhcPass 'Typechecked)]
pats
                             , m_grhss :: forall p body. Match p body -> GRHSs p body
m_grhss = GRHSs XCGRHSs
  (GhcPass 'Typechecked) (LocatedA (HsCmd (GhcPass 'Typechecked)))
_ [L SrcAnn NoEpAnns
_ (GRHS XCGRHS
  (GhcPass 'Typechecked) (LocatedA (HsCmd (GhcPass 'Typechecked)))
_ [] LocatedA (HsCmd (GhcPass 'Typechecked))
body)] HsLocalBinds (GhcPass 'Typechecked)
_ })]) }))
        [Id]
env_ids
  = DsCmdEnv
-> VarSet
-> Type
-> Type
-> [LPat (GhcPass 'Typechecked)]
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLam DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty [LPat (GhcPass 'Typechecked)]
pats LocatedA (HsCmd (GhcPass 'Typechecked))
body [Id]
env_ids

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdPar XCmdPar (GhcPass 'Typechecked)
_ LHsToken "(" (GhcPass 'Typechecked)
_ LHsCmd (GhcPass 'Typechecked)
cmd LHsToken ")" (GhcPass 'Typechecked)
_) [Id]
env_ids
  = DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsLCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty LHsCmd (GhcPass 'Typechecked)
cmd [Id]
env_ids

-- D, xs |- e :: Bool
-- D; xs1 |-a c1 : stk --> t
-- D; xs2 |-a c2 : stk --> t
-- ----------------------------------------
-- D; xs |-a if e then c1 else c2 : stk --> t
--
--              ---> premap (\ ((xs),stk) ->
--                       if e then Left ((xs1),stk) else Right ((xs2),stk))
--                     (c1 ||| c2)

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdIf XCmdIf (GhcPass 'Typechecked)
_ SyntaxExpr (GhcPass 'Typechecked)
mb_fun LHsExpr (GhcPass 'Typechecked)
cond LHsCmd (GhcPass 'Typechecked)
then_cmd LHsCmd (GhcPass 'Typechecked)
else_cmd)
        [Id]
env_ids = do
    CoreExpr
core_cond <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
cond
    (CoreExpr
core_then, DIdSet
fvs_then, [Id]
then_ids)
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty LHsCmd (GhcPass 'Typechecked)
then_cmd
    (CoreExpr
core_else, DIdSet
fvs_else, [Id]
else_ids)
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty LHsCmd (GhcPass 'Typechecked)
else_cmd
    Id
stack_id   <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    TyCon
either_con <- Name -> DsM TyCon
dsLookupTyCon Name
eitherTyConName
    DataCon
left_con   <- Name -> DsM DataCon
dsLookupDataCon Name
leftDataConName
    DataCon
right_con  <- Name -> DsM DataCon
dsLookupDataCon Name
rightDataConName

    let mk_left_expr :: Type -> Type -> CoreExpr -> CoreExpr
mk_left_expr Type
ty1 Type
ty2 CoreExpr
e = DataCon -> [CoreExpr] -> CoreExpr
mkCoreConApps DataCon
left_con   [forall b. Type -> Expr b
Type Type
ty1,forall b. Type -> Expr b
Type Type
ty2, CoreExpr
e]
        mk_right_expr :: Type -> Type -> CoreExpr -> CoreExpr
mk_right_expr Type
ty1 Type
ty2 CoreExpr
e = DataCon -> [CoreExpr] -> CoreExpr
mkCoreConApps DataCon
right_con [forall b. Type -> Expr b
Type Type
ty1,forall b. Type -> Expr b
Type Type
ty2, CoreExpr
e]

        in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty
        then_ty :: Type
then_ty = [Id] -> Type -> Type
envStackType [Id]
then_ids Type
stack_ty
        else_ty :: Type
else_ty = [Id] -> Type -> Type
envStackType [Id]
else_ids Type
stack_ty
        sum_ty :: Type
sum_ty = TyCon -> [Type] -> Type
mkTyConApp TyCon
either_con [Type
then_ty, Type
else_ty]
        fvs_cond :: DIdSet
fvs_cond = CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_cond
                   forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars

        core_left :: CoreExpr
core_left  = Type -> Type -> CoreExpr -> CoreExpr
mk_left_expr  Type
then_ty Type
else_ty
                       ([Id] -> Id -> CoreExpr
buildEnvStack [Id]
then_ids Id
stack_id)
        core_right :: CoreExpr
core_right = Type -> Type -> CoreExpr -> CoreExpr
mk_right_expr Type
then_ty Type
else_ty
                       ([Id] -> Id -> CoreExpr
buildEnvStack [Id]
else_ids Id
stack_id)

    CoreExpr
core_if <- case SyntaxExpr (GhcPass 'Typechecked)
mb_fun of
       SyntaxExprTc
SyntaxExpr (GhcPass 'Typechecked)
NoSyntaxExprTc  -> [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id forall a b. (a -> b) -> a -> b
$
                          CoreExpr -> CoreExpr -> CoreExpr -> CoreExpr
mkIfThenElse CoreExpr
core_cond CoreExpr
core_left CoreExpr
core_right
       SyntaxExpr (GhcPass 'Typechecked)
_ -> do { CoreExpr
fun_apps <- SyntaxExpr (GhcPass 'Typechecked) -> [CoreExpr] -> DsM CoreExpr
dsSyntaxExpr SyntaxExpr (GhcPass 'Typechecked)
mb_fun
                                      [CoreExpr
core_cond, CoreExpr
core_left, CoreExpr
core_right]
               ; [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
fun_apps }

    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
sum_ty Type
res_ty
                CoreExpr
core_if
                (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_choice DsCmdEnv
ids Type
then_ty Type
else_ty Type
res_ty CoreExpr
core_then CoreExpr
core_else),
        DIdSet
fvs_cond DIdSet -> DIdSet -> DIdSet
`unionDVarSet` DIdSet
fvs_then DIdSet -> DIdSet -> DIdSet
`unionDVarSet` DIdSet
fvs_else)

{-
Note [Desugaring HsCmdCase]
~~~~~~~~~~~~~~~~~~~~~~~~~~~
Case commands are treated in much the same way as if commands
(see above) except that there are more alternatives.  For example

        case e of { p1 -> c1; p2 -> c2; p3 -> c3 }

is translated to

        premap (\ ((xs)*ts) -> case e of
                p1 -> (Left (Left (xs1)*ts))
                p2 -> Left ((Right (xs2)*ts))
                p3 -> Right ((xs3)*ts))
        ((c1 ||| c2) ||| c3)

The idea is to extract the commands from the case, build a balanced tree
of choices, and replace the commands with expressions that build tagged
tuples, obtaining a case expression that can be desugared normally.
To build all this, we use triples describing segments of the list of
case bodies, containing the following fields:
 * a list of expressions of the form (Left|Right)* ((xs)*ts), to be put
   into the case replacing the commands
 * a sum type that is the common type of these expressions, and also the
   input type of the arrow
 * a CoreExpr for an arrow built by combining the translated command
   bodies with |||.
-}

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdCase XCmdCase (GhcPass 'Typechecked)
_ LHsExpr (GhcPass 'Typechecked)
exp MatchGroup (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
match) [Id]
env_ids = do
    Id
stack_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    (MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match', CoreExpr
core_choices)
      <- DsCmdEnv
-> VarSet
-> Id
-> Type
-> Type
-> MatchGroup
     (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
-> DsM
     (MatchGroup
        (GhcPass 'Typechecked) (LHsExpr (GhcPass 'Typechecked)),
      CoreExpr)
dsCases DsCmdEnv
ids VarSet
local_vars Id
stack_id Type
stack_ty Type
res_ty MatchGroup (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
match
    let MG{ mg_ext :: forall p body. MatchGroup p body -> XMG p body
mg_ext = MatchGroupTc [Scaled Type]
_ Type
sum_ty } = MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match'
        in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty

    CoreExpr
core_body <- HsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsExpr (forall p.
XCase p -> LHsExpr p -> MatchGroup p (LHsExpr p) -> HsExpr p
HsCase NoExtField
noExtField LHsExpr (GhcPass 'Typechecked)
exp MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match')

    CoreExpr
core_matches <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
core_body
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
sum_ty Type
res_ty CoreExpr
core_matches CoreExpr
core_choices,
            CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_body forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars)

{-
\cases and \case are desugared analogously to a case command (see above).
For example

        \cases {p1 q1 -> c1; p2 q2 -> c2; p3 q3 -> c3 }

is translated to

        premap (\ ((xs), (e1, (e2,stk))) -> cases e1 e2 of
                  p1 q1 -> (Left (Left (xs1), stk))
                  p2 q2 -> Left ((Right (xs2), stk))
                  p3 q3 -> Right ((xs3), stk))
        ((c1 ||| c2) ||| c3)

(cases...of is hypothetical notation that works like case...of but with
multiple scrutinees)

-}
dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty
      (HsCmdLamCase XCmdLamCase (GhcPass 'Typechecked)
_ LamCaseVariant
lc_variant match :: MatchGroup (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
match@MG { mg_ext :: forall p body. MatchGroup p body -> XMG p body
mg_ext = MatchGroupTc {mg_arg_tys :: MatchGroupTc -> [Scaled Type]
mg_arg_tys = [Scaled Type]
arg_tys} } )
      [Id]
env_ids = do
    [Id]
arg_ids <- [Scaled Type] -> DsM [Id]
newSysLocalsDs [Scaled Type]
arg_tys

    let match_ctxt :: HsArrowMatchContext
match_ctxt = LamCaseVariant -> HsArrowMatchContext
ArrowLamCaseAlt LamCaseVariant
lc_variant
        pat_vars :: VarSet
pat_vars = [Id] -> VarSet
mkVarSet [Id]
arg_ids
        local_vars' :: VarSet
local_vars' = VarSet
pat_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars
        ([Type]
pat_tys, Type
stack_ty') = Int -> Type -> ([Type], Type)
splitTypeAt (forall (t :: * -> *) a. Foldable t => t a -> Int
length [Scaled Type]
arg_tys) Type
stack_ty

    -- construct and desugar a case expression with multiple scrutinees
    (CoreExpr
core_body, DIdSet
free_vars, [Id]
env_ids') <- ([Id] -> DsM (CoreExpr, DIdSet)) -> DsM (CoreExpr, DIdSet, [Id])
trimInput \[Id]
env_ids -> do
      Id
stack_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty'
      (MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match', CoreExpr
core_choices)
        <- DsCmdEnv
-> VarSet
-> Id
-> Type
-> Type
-> MatchGroup
     (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
-> DsM
     (MatchGroup
        (GhcPass 'Typechecked) (LHsExpr (GhcPass 'Typechecked)),
      CoreExpr)
dsCases DsCmdEnv
ids VarSet
local_vars' Id
stack_id Type
stack_ty' Type
res_ty MatchGroup (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
match

      let MG{ mg_ext :: forall p body. MatchGroup p body -> XMG p body
mg_ext = MatchGroupTc [Scaled Type]
_ Type
sum_ty } = MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match'
          in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty'
          discrims :: [LocatedA (HsExpr (GhcPass 'Typechecked))]
discrims = forall a b. (a -> b) -> [a] -> [b]
map forall (p :: Pass) a.
IsSrcSpanAnn p a =>
IdP (GhcPass p) -> LHsExpr (GhcPass p)
nlHsVar [Id]
arg_ids
      ([Id]
discrim_vars, CoreExpr
matching_code)
        <- HsMatchContext GhcRn
-> Maybe [LHsExpr (GhcPass 'Typechecked)]
-> MatchGroup
     (GhcPass 'Typechecked) (LHsExpr (GhcPass 'Typechecked))
-> DsM ([Id], CoreExpr)
matchWrapper (forall p. HsArrowMatchContext -> HsMatchContext p
ArrowMatchCtxt HsArrowMatchContext
match_ctxt) (forall a. a -> Maybe a
Just [LocatedA (HsExpr (GhcPass 'Typechecked))]
discrims) MatchGroup
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
match'
      CoreExpr
core_body <- forall a b c. (a -> b -> c) -> b -> a -> c
flip ([Id] -> [CoreExpr] -> CoreExpr -> CoreExpr
bind_vars [Id]
discrim_vars) CoreExpr
matching_code forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
        forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr [LocatedA (HsExpr (GhcPass 'Typechecked))]
discrims

      CoreExpr
core_matches <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
core_body
      forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
sum_ty Type
res_ty CoreExpr
core_matches CoreExpr
core_choices,
              CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_body forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars')

    [Id]
param_ids <- forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (Type -> Type -> DsM Id
newSysLocalDs Type
Many) [Type]
pat_tys
    Id
stack_id' <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty'

    -- the expression is built from the inside out, so the actions
    -- are presented in reverse order

    let -- build a new environment, plus what's left of the stack
        core_expr :: CoreExpr
core_expr = [Id] -> Id -> CoreExpr
buildEnvStack [Id]
env_ids' Id
stack_id'
        in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty
        in_ty' :: Type
in_ty' = [Id] -> Type -> Type
envStackType [Id]
env_ids' Type
stack_ty'

    -- bind the scrutinees to the parameters
    let match_code :: CoreExpr
match_code = [Id] -> [CoreExpr] -> CoreExpr -> CoreExpr
bind_vars [Id]
arg_ids (forall a b. (a -> b) -> [a] -> [b]
map forall b. Id -> Expr b
Var [Id]
param_ids) CoreExpr
core_expr

    -- match the parameters against the top of the old stack
    (Id
stack_id, CoreExpr
param_code) <- [Id] -> Id -> CoreExpr -> DsM (Id, CoreExpr)
matchVarStack [Id]
param_ids Id
stack_id' CoreExpr
match_code
    -- match the old environment and stack against the input
    CoreExpr
select_code <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
param_code
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
in_ty' Type
res_ty CoreExpr
select_code CoreExpr
core_body,
            DIdSet
free_vars forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetMinusUniqSet` VarSet
pat_vars)
    where
      bind_vars :: [Id] -> [CoreExpr] -> CoreExpr -> CoreExpr
bind_vars [Id]
vars [CoreExpr]
exprs CoreExpr
expr = forall (t :: * -> *) a b.
Foldable t =>
(a -> b -> b) -> b -> t a -> b
foldr (forall a b c. (a -> b -> c) -> (a, b) -> c
uncurry Id -> CoreExpr -> CoreExpr -> CoreExpr
bindNonRec) CoreExpr
expr forall a b. (a -> b) -> a -> b
$ forall a b. [a] -> [b] -> [(a, b)]
zip [Id]
vars [CoreExpr]
exprs

-- D; ys |-a cmd : stk --> t
-- ----------------------------------
-- D; xs |-a let binds in cmd : stk --> t
--
--              ---> premap (\ ((xs),stk) -> let binds in ((ys),stk)) c

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdLet XCmdLet (GhcPass 'Typechecked)
_ LHsToken "let" (GhcPass 'Typechecked)
_ lbinds :: HsLocalBinds (GhcPass 'Typechecked)
lbinds@HsLocalBinds (GhcPass 'Typechecked)
binds LHsToken "in" (GhcPass 'Typechecked)
_ LHsCmd (GhcPass 'Typechecked)
body) [Id]
env_ids = do
    let
        defined_vars :: VarSet
defined_vars = [Id] -> VarSet
mkVarSet (forall (idL :: Pass) (idR :: Pass).
CollectPass (GhcPass idL) =>
CollectFlag (GhcPass idL)
-> HsLocalBindsLR (GhcPass idL) (GhcPass idR)
-> [IdP (GhcPass idL)]
collectLocalBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders HsLocalBinds (GhcPass 'Typechecked)
binds)
        local_vars' :: VarSet
local_vars' = VarSet
defined_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars

    (CoreExpr
core_body, DIdSet
_free_vars, [Id]
env_ids')
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars' Type
stack_ty Type
res_ty LHsCmd (GhcPass 'Typechecked)
body
    Id
stack_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    -- build a new environment, plus the stack, using the let bindings
    CoreExpr
core_binds <- HsLocalBinds (GhcPass 'Typechecked) -> CoreExpr -> DsM CoreExpr
dsLocalBinds HsLocalBinds (GhcPass 'Typechecked)
lbinds ([Id] -> Id -> CoreExpr
buildEnvStack [Id]
env_ids' Id
stack_id)
    -- match the old environment and stack against the input
    CoreExpr
core_map <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
core_binds
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
                        ([Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty)
                        ([Id] -> Type -> Type
envStackType [Id]
env_ids' Type
stack_ty)
                        Type
res_ty
                        CoreExpr
core_map
                        CoreExpr
core_body,
        CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_binds forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars)

-- D; xs |-a ss : t
-- ----------------------------------
-- D; xs |-a do { ss } : () --> t
--
--              ---> premap (\ (env,stk) -> env) c

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (HsCmdDo XCmdDo (GhcPass 'Typechecked)
_ (L SrcSpanAnnL
_ [GenLocated
   SrcSpanAnnA
   (StmtLR
      (GhcPass 'Typechecked)
      (GhcPass 'Typechecked)
      (LocatedA (HsCmd (GhcPass 'Typechecked))))]
stmts)) [Id]
env_ids = do
    (CoreExpr
core_stmts, DIdSet
env_ids') <- DsCmdEnv
-> VarSet
-> Type
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdDo DsCmdEnv
ids VarSet
local_vars Type
res_ty [GenLocated
   SrcSpanAnnA
   (StmtLR
      (GhcPass 'Typechecked)
      (GhcPass 'Typechecked)
      (LocatedA (HsCmd (GhcPass 'Typechecked))))]
stmts [Id]
env_ids
    let env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
    CoreExpr
core_fst <- Type -> Type -> DsM CoreExpr
mkFstExpr Type
env_ty Type
stack_ty
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
                (Type -> Type -> Type
mkCorePairTy Type
env_ty Type
stack_ty)
                Type
env_ty
                Type
res_ty
                CoreExpr
core_fst
                CoreExpr
core_stmts,
        DIdSet
env_ids')

-- D |- e :: forall e. a1 (e,stk1) t1 -> ... an (e,stkn) tn -> a (e,stk) t
-- D; xs |-a ci :: stki --> ti
-- -----------------------------------
-- D; xs |-a (|e c1 ... cn|) :: stk --> t       ---> e [t_xs] c1 ... cn

dsCmd DsCmdEnv
_ VarSet
local_vars Type
_stack_ty Type
_res_ty (HsCmdArrForm XCmdArrForm (GhcPass 'Typechecked)
_ LHsExpr (GhcPass 'Typechecked)
op LexicalFixity
_ Maybe Fixity
_ [LHsCmdTop (GhcPass 'Typechecked)]
args) [Id]
env_ids = do
    let env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
    CoreExpr
core_op <- LHsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsLExpr LHsExpr (GhcPass 'Typechecked)
op
    ([CoreExpr]
core_args, [DIdSet]
fv_sets) <- forall (m :: * -> *) a b c.
Applicative m =>
(a -> m (b, c)) -> [a] -> m ([b], [c])
mapAndUnzipM (VarSet
-> [Id]
-> LHsCmdTop (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet)
dsTrimCmdArg VarSet
local_vars [Id]
env_ids) [LHsCmdTop (GhcPass 'Typechecked)]
args
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. Expr b -> [Expr b] -> Expr b
mkApps (forall b. Expr b -> Expr b -> Expr b
App CoreExpr
core_op (forall b. Type -> Expr b
Type Type
env_ty)) [CoreExpr]
core_args,
            [DIdSet] -> DIdSet
unionDVarSets [DIdSet]
fv_sets)

dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty (XCmd (HsWrap HsWrapper
wrap HsCmd (GhcPass 'Typechecked)
cmd)) [Id]
env_ids = do
    (CoreExpr
core_cmd, DIdSet
env_ids') <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> HsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmd DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty HsCmd (GhcPass 'Typechecked)
cmd [Id]
env_ids
    CoreExpr -> CoreExpr
core_wrap <- HsWrapper -> DsM (CoreExpr -> CoreExpr)
dsHsWrapper HsWrapper
wrap
    forall (m :: * -> *) a. Monad m => a -> m a
return (CoreExpr -> CoreExpr
core_wrap CoreExpr
core_cmd, DIdSet
env_ids')

dsCmd DsCmdEnv
_ VarSet
_ Type
_ Type
_ HsCmd (GhcPass 'Typechecked)
c [Id]
_ = forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"dsCmd" (forall a. Outputable a => a -> SDoc
ppr HsCmd (GhcPass 'Typechecked)
c)

-- D; ys |-a c : stk --> t      (ys <= xs)
-- ---------------------
-- D; xs |-a c : stk --> t      ---> premap (\ ((xs),stk) -> ((ys),stk)) c

dsTrimCmdArg
        :: IdSet                -- set of local vars available to this command
        -> [Id]           -- list of vars in the input to this command
        -> LHsCmdTop GhcTc       -- command argument to desugar
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet)         -- subset of local vars that occur free
dsTrimCmdArg :: VarSet
-> [Id]
-> LHsCmdTop (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet)
dsTrimCmdArg VarSet
local_vars [Id]
env_ids
                       (L SrcAnn NoEpAnns
_ (HsCmdTop
                                 (CmdTopTc Type
stack_ty Type
cmd_ty CmdSyntaxTable (GhcPass 'Typechecked)
ids) LHsCmd (GhcPass 'Typechecked)
cmd )) = do
    ([CoreBind]
meth_binds, DsCmdEnv
meth_ids) <- CmdSyntaxTable (GhcPass 'Typechecked) -> DsM ([CoreBind], DsCmdEnv)
mkCmdEnv CmdSyntaxTable (GhcPass 'Typechecked)
ids
    (CoreExpr
core_cmd, DIdSet
free_vars, [Id]
env_ids')
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
meth_ids VarSet
local_vars Type
stack_ty Type
cmd_ty LHsCmd (GhcPass 'Typechecked)
cmd
    Id
stack_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty
    CoreExpr
trim_code
      <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id ([Id] -> Id -> CoreExpr
buildEnvStack [Id]
env_ids' Id
stack_id)
    let
        in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty
        in_ty' :: Type
in_ty' = [Id] -> Type -> Type
envStackType [Id]
env_ids' Type
stack_ty
        arg_code :: CoreExpr
arg_code = if [Id]
env_ids' forall a. Eq a => a -> a -> Bool
== [Id]
env_ids then CoreExpr
core_cmd else
                DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
meth_ids Type
in_ty Type
in_ty' Type
cmd_ty CoreExpr
trim_code CoreExpr
core_cmd
    forall (m :: * -> *) a. Monad m => a -> m a
return (forall b. [Bind b] -> Expr b -> Expr b
mkLets [CoreBind]
meth_binds CoreExpr
arg_code, DIdSet
free_vars)

-- Given D; xs |-a c : stk --> t, builds c with xs fed back.
-- Typically needs to be prefixed with arr (\(p, stk) -> ((xs),stk))

dsfixCmd
        :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this command
        -> Type                 -- type of the stack (right-nested tuple)
        -> Type                 -- return type of the command
        -> LHsCmd GhcTc         -- command to desugar
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet,         -- subset of local vars that occur free
                [Id])           -- the same local vars as a list, fed back
dsfixCmd :: DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
stk_ty Type
cmd_ty LHsCmd (GhcPass 'Typechecked)
cmd
  = ([Id] -> DsM (CoreExpr, DIdSet)) -> DsM (CoreExpr, DIdSet, [Id])
trimInput (DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsLCmd DsCmdEnv
ids VarSet
local_vars Type
stk_ty Type
cmd_ty LHsCmd (GhcPass 'Typechecked)
cmd)

-- Feed back the list of local variables actually used a command,
-- for use as the input tuple of the generated arrow.

trimInput
        :: ([Id] -> DsM (CoreExpr, DIdSet))
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet,         -- subset of local vars that occur free
                [Id])           -- same local vars as a list, fed back to
                                -- the inner function to form the tuple of
                                -- inputs to the arrow.
trimInput :: ([Id] -> DsM (CoreExpr, DIdSet)) -> DsM (CoreExpr, DIdSet, [Id])
trimInput [Id] -> DsM (CoreExpr, DIdSet)
build_arrow
  = forall a. (a -> DsM a) -> DsM a
fixDs (\ ~(CoreExpr
_,DIdSet
_,[Id]
env_ids) -> do
        (CoreExpr
core_cmd, DIdSet
free_vars) <- [Id] -> DsM (CoreExpr, DIdSet)
build_arrow [Id]
env_ids
        forall (m :: * -> *) a. Monad m => a -> m a
return (CoreExpr
core_cmd, DIdSet
free_vars, DIdSet -> [Id]
dVarSetElems DIdSet
free_vars))

-- Desugaring for both HsCmdLam
--
-- D; ys |-a cmd : stk t'
-- -----------------------------------------------
-- D; xs |-a \ p1 ... pk -> cmd : (t1,...(tk,stk)...) t'
--
--              ---> premap (\ ((xs), (p1, ... (pk,stk)...)) -> ((ys),stk)) cmd
dsCmdLam :: DsCmdEnv            -- arrow combinators
         -> IdSet               -- set of local vars available to this command
         -> Type                -- type of the stack (right-nested tuple)
         -> Type                -- return type of the command
         -> [LPat GhcTc]        -- argument patterns to desugar
         -> LHsCmd GhcTc        -- body to desugar
         -> [Id]                -- list of vars in the input to this command
                                -- This is typically fed back,
                                -- so don't pull on it too early
         -> DsM (CoreExpr,      -- desugared expression
                 DIdSet)        -- subset of local vars that occur free
dsCmdLam :: DsCmdEnv
-> VarSet
-> Type
-> Type
-> [LPat (GhcPass 'Typechecked)]
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLam DsCmdEnv
ids VarSet
local_vars Type
stack_ty Type
res_ty [LPat (GhcPass 'Typechecked)]
pats LHsCmd (GhcPass 'Typechecked)
body [Id]
env_ids = do
    let pat_vars :: VarSet
pat_vars = [Id] -> VarSet
mkVarSet (forall p. CollectPass p => CollectFlag p -> [LPat p] -> [IdP p]
collectPatsBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders [LPat (GhcPass 'Typechecked)]
pats)
    let local_vars' :: VarSet
local_vars' = VarSet
pat_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars
        ([Type]
pat_tys, Type
stack_ty') = Int -> Type -> ([Type], Type)
splitTypeAt (forall (t :: * -> *) a. Foldable t => t a -> Int
length [LPat (GhcPass 'Typechecked)]
pats) Type
stack_ty
    (CoreExpr
core_body, DIdSet
free_vars, [Id]
env_ids')
       <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars' Type
stack_ty' Type
res_ty LHsCmd (GhcPass 'Typechecked)
body
    [Id]
param_ids <- forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (Type -> Type -> DsM Id
newSysLocalDs Type
Many) [Type]
pat_tys
    Id
stack_id' <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
stack_ty'

    -- the expression is built from the inside out, so the actions
    -- are presented in reverse order

    let -- build a new environment, plus what's left of the stack
        core_expr :: CoreExpr
core_expr = [Id] -> Id -> CoreExpr
buildEnvStack [Id]
env_ids' Id
stack_id'
        in_ty :: Type
in_ty = [Id] -> Type -> Type
envStackType [Id]
env_ids Type
stack_ty
        in_ty' :: Type
in_ty' = [Id] -> Type -> Type
envStackType [Id]
env_ids' Type
stack_ty'

    CoreExpr
fail_expr <- HsMatchContext GhcRn -> Type -> DsM CoreExpr
mkFailExpr (forall p. HsArrowMatchContext -> HsMatchContext p
ArrowMatchCtxt HsArrowMatchContext
KappaExpr) Type
in_ty'
    -- match the patterns against the parameters
    CoreExpr
match_code <- [CoreExpr]
-> HsMatchContext GhcRn
-> [LPat (GhcPass 'Typechecked)]
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimplys (forall a b. (a -> b) -> [a] -> [b]
map forall b. Id -> Expr b
Var [Id]
param_ids) (forall p. HsArrowMatchContext -> HsMatchContext p
ArrowMatchCtxt HsArrowMatchContext
KappaExpr) [LPat (GhcPass 'Typechecked)]
pats CoreExpr
core_expr
                    CoreExpr
fail_expr
    -- match the parameters against the top of the old stack
    (Id
stack_id, CoreExpr
param_code) <- [Id] -> Id -> CoreExpr -> DsM (Id, CoreExpr)
matchVarStack [Id]
param_ids Id
stack_id' CoreExpr
match_code
    -- match the old environment and stack against the input
    CoreExpr
select_code <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env_ids Id
stack_id CoreExpr
param_code
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
in_ty' Type
res_ty CoreExpr
select_code CoreExpr
core_body,
            DIdSet
free_vars forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetMinusUniqSet` VarSet
pat_vars)

-- Used for case and \case(s)
-- See Note [Desugaring HsCmdCase]
dsCases :: DsCmdEnv                               -- arrow combinators
        -> IdSet                                  -- set of local vars available to this command
        -> Id                                     -- stack id
        -> Type                                   -- type of the stack (right-nested tuple)
        -> Type                                   -- return type of the command
        -> MatchGroup GhcTc (LHsCmd GhcTc)        -- match group to desugar
        -> DsM (MatchGroup GhcTc (LHsExpr GhcTc), -- match group with choice tree
                CoreExpr)                         -- desugared choices
dsCases :: DsCmdEnv
-> VarSet
-> Id
-> Type
-> Type
-> MatchGroup
     (GhcPass 'Typechecked) (LHsCmd (GhcPass 'Typechecked))
-> DsM
     (MatchGroup
        (GhcPass 'Typechecked) (LHsExpr (GhcPass 'Typechecked)),
      CoreExpr)
dsCases DsCmdEnv
ids VarSet
local_vars Id
stack_id Type
stack_ty Type
res_ty
        (MG { mg_alts :: forall p body. MatchGroup p body -> XRec p [LMatch p body]
mg_alts = L SrcSpanAnnL
l [GenLocated
   SrcSpanAnnA
   (Match
      (GhcPass 'Typechecked) (LocatedA (HsCmd (GhcPass 'Typechecked))))]
matches
            , mg_ext :: forall p body. MatchGroup p body -> XMG p body
mg_ext = MatchGroupTc [Scaled Type]
arg_tys Type
_
            , mg_origin :: forall p body. MatchGroup p body -> Origin
mg_origin = Origin
origin }) = do

  -- Extract and desugar the leaf commands in the case, building tuple
  -- expressions that will (after tagging) replace these leaves

  let leaves :: [(LocatedA (HsCmd (GhcPass 'Typechecked)), VarSet)]
leaves = forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap forall (body :: * -> *).
LMatch
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> [(LocatedA (body (GhcPass 'Typechecked)), VarSet)]
leavesMatch [GenLocated
   SrcSpanAnnA
   (Match
      (GhcPass 'Typechecked) (LocatedA (HsCmd (GhcPass 'Typechecked))))]
matches
      make_branch :: (LocatedA (HsCmd (GhcPass 'Typechecked)), VarSet)
-> IOEnv
     (Env DsGblEnv DsLclEnv)
     ([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)
make_branch (LocatedA (HsCmd (GhcPass 'Typechecked))
leaf, VarSet
bound_vars) = do
          (CoreExpr
core_leaf, DIdSet
_fvs, [Id]
leaf_ids)
             <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids (VarSet
bound_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars) Type
stack_ty
                  Type
res_ty LocatedA (HsCmd (GhcPass 'Typechecked))
leaf
          forall (m :: * -> *) a. Monad m => a -> m a
return ([[Id] -> Id -> LHsExpr (GhcPass 'Typechecked)
mkHsEnvStackExpr [Id]
leaf_ids Id
stack_id],
                  [Id] -> Type -> Type
envStackType [Id]
leaf_ids Type
stack_ty,
                  CoreExpr
core_leaf)

  [([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)]
branches <- forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (LocatedA (HsCmd (GhcPass 'Typechecked)), VarSet)
-> IOEnv
     (Env DsGblEnv DsLclEnv)
     ([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)
make_branch [(LocatedA (HsCmd (GhcPass 'Typechecked)), VarSet)]
leaves
  TyCon
either_con <- Name -> DsM TyCon
dsLookupTyCon Name
eitherTyConName
  DataCon
left_con <- Name -> DsM DataCon
dsLookupDataCon Name
leftDataConName
  DataCon
right_con <- Name -> DsM DataCon
dsLookupDataCon Name
rightDataConName
  Type
void_ty <- TyCon -> Type
mkTyConTy forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Name -> DsM TyCon
dsLookupTyCon Name
voidTyConName
  let
      left_id :: HsExpr (GhcPass 'Typechecked)
left_id  = ConLike -> HsExpr (GhcPass 'Typechecked)
mkConLikeTc (DataCon -> ConLike
RealDataCon DataCon
left_con)
      right_id :: HsExpr (GhcPass 'Typechecked)
right_id = ConLike -> HsExpr (GhcPass 'Typechecked)
mkConLikeTc (DataCon -> ConLike
RealDataCon DataCon
right_con)
      left_expr :: Type
-> Type
-> LocatedA (HsExpr (GhcPass 'Typechecked))
-> LocatedA (HsExpr (GhcPass 'Typechecked))
left_expr  Type
ty1 Type
ty2 LocatedA (HsExpr (GhcPass 'Typechecked))
e = forall a an. a -> LocatedAn an a
noLocA forall a b. (a -> b) -> a -> b
$ forall p. XApp p -> LHsExpr p -> LHsExpr p -> HsExpr p
HsApp EpAnnCO
noComments
                         (forall a an. a -> LocatedAn an a
noLocA forall a b. (a -> b) -> a -> b
$ HsWrapper
-> HsExpr (GhcPass 'Typechecked) -> HsExpr (GhcPass 'Typechecked)
mkHsWrap ([Type] -> HsWrapper
mkWpTyApps [Type
ty1, Type
ty2]) HsExpr (GhcPass 'Typechecked)
left_id ) LocatedA (HsExpr (GhcPass 'Typechecked))
e
      right_expr :: Type
-> Type
-> LocatedA (HsExpr (GhcPass 'Typechecked))
-> LocatedA (HsExpr (GhcPass 'Typechecked))
right_expr Type
ty1 Type
ty2 LocatedA (HsExpr (GhcPass 'Typechecked))
e = forall a an. a -> LocatedAn an a
noLocA forall a b. (a -> b) -> a -> b
$ forall p. XApp p -> LHsExpr p -> LHsExpr p -> HsExpr p
HsApp EpAnnCO
noComments
                         (forall a an. a -> LocatedAn an a
noLocA forall a b. (a -> b) -> a -> b
$ HsWrapper
-> HsExpr (GhcPass 'Typechecked) -> HsExpr (GhcPass 'Typechecked)
mkHsWrap ([Type] -> HsWrapper
mkWpTyApps [Type
ty1, Type
ty2]) HsExpr (GhcPass 'Typechecked)
right_id) LocatedA (HsExpr (GhcPass 'Typechecked))
e

      -- Prefix each tuple with a distinct series of Left's and Right's,
      -- in a balanced way, keeping track of the types.

      merge_branches :: ([LHsExpr GhcTc], Type, CoreExpr)
                    -> ([LHsExpr GhcTc], Type, CoreExpr)
                    -> ([LHsExpr GhcTc], Type, CoreExpr) -- AZ
      merge_branches :: ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
-> ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
-> ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
merge_branches ([LHsExpr (GhcPass 'Typechecked)]
builds1, Type
in_ty1, CoreExpr
core_exp1)
                     ([LHsExpr (GhcPass 'Typechecked)]
builds2, Type
in_ty2, CoreExpr
core_exp2)
        = (forall a b. (a -> b) -> [a] -> [b]
map (Type
-> Type
-> LocatedA (HsExpr (GhcPass 'Typechecked))
-> LocatedA (HsExpr (GhcPass 'Typechecked))
left_expr Type
in_ty1 Type
in_ty2) [LHsExpr (GhcPass 'Typechecked)]
builds1 forall a. [a] -> [a] -> [a]
++
              forall a b. (a -> b) -> [a] -> [b]
map (Type
-> Type
-> LocatedA (HsExpr (GhcPass 'Typechecked))
-> LocatedA (HsExpr (GhcPass 'Typechecked))
right_expr Type
in_ty1 Type
in_ty2) [LHsExpr (GhcPass 'Typechecked)]
builds2,
           TyCon -> [Type] -> Type
mkTyConApp TyCon
either_con [Type
in_ty1, Type
in_ty2],
           DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_choice DsCmdEnv
ids Type
in_ty1 Type
in_ty2 Type
res_ty CoreExpr
core_exp1 CoreExpr
core_exp2)
  ([LocatedA (HsExpr (GhcPass 'Typechecked))]
leaves', Type
sum_ty, CoreExpr
core_choices) <- case forall a. [a] -> Maybe (NonEmpty a)
nonEmpty [([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)]
branches of
    Just NonEmpty
  ([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)
bs -> forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a. (a -> a -> a) -> NonEmpty a -> a
foldb ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
-> ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
-> ([LHsExpr (GhcPass 'Typechecked)], Type, CoreExpr)
merge_branches NonEmpty
  ([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr)
bs
    -- when the case command has no alternatives, the sum type from
    -- Note [Desugaring HsCmdCase] becomes the empty sum type,
    -- i.e. Void. The choices then effectively become `arr absurd`,
    -- implemented as `arr \case {}`.
    Maybe
  (NonEmpty
     ([LocatedA (HsExpr (GhcPass 'Typechecked))], Type, CoreExpr))
Nothing -> ([], Type
void_ty,) forall b c a. (b -> c) -> (a -> b) -> a -> c
. DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
void_ty Type
res_ty forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
      HsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsExpr (forall p.
XLamCase p
-> LamCaseVariant -> MatchGroup p (LHsExpr p) -> HsExpr p
HsLamCase forall ann. EpAnn ann
EpAnnNotUsed LamCaseVariant
LamCase
        (MG { mg_alts :: XRec
  (GhcPass 'Typechecked)
  [LMatch
     (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))]
mg_alts = forall a an. a -> LocatedAn an a
noLocA []
            , mg_ext :: XMG
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
mg_ext = [Scaled Type] -> Type -> MatchGroupTc
MatchGroupTc [forall a. Type -> a -> Scaled a
Scaled Type
Many Type
void_ty] Type
res_ty
            , mg_origin :: Origin
mg_origin = Origin
Generated }))

      -- Replace the commands in the case with these tagged tuples,
      -- yielding a HsExpr Id we can feed to dsExpr.

  let ([LocatedA (HsExpr (GhcPass 'Typechecked))]
_, [GenLocated
   SrcSpanAnnA
   (Match
      (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked))))]
matches') = forall (t :: * -> *) s a b.
Traversable t =>
(s -> a -> (s, b)) -> s -> t a -> (s, t b)
mapAccumL (forall (body' :: * -> *) (body :: * -> *).
(Anno
   (Match
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (Match
        (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))),
 Anno
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (GRHS
        (GhcPass 'Typechecked)
        (LocatedA (body (GhcPass 'Typechecked))))) =>
Type
-> [LocatedA (body' (GhcPass 'Typechecked))]
-> LMatch
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> ([LocatedA (body' (GhcPass 'Typechecked))],
    LMatch
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
replaceLeavesMatch Type
res_ty) [LocatedA (HsExpr (GhcPass 'Typechecked))]
leaves' [GenLocated
   SrcSpanAnnA
   (Match
      (GhcPass 'Typechecked) (LocatedA (HsCmd (GhcPass 'Typechecked))))]
matches

  -- Note that we replace the MatchGroup result type by sum_ty,
  -- which is the type of matches'
  forall (m :: * -> *) a. Monad m => a -> m a
return (MG { mg_alts :: XRec
  (GhcPass 'Typechecked)
  [LMatch
     (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))]
mg_alts = forall l e. l -> e -> GenLocated l e
L SrcSpanAnnL
l [GenLocated
   SrcSpanAnnA
   (Match
      (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked))))]
matches'
             , mg_ext :: XMG
  (GhcPass 'Typechecked) (LocatedA (HsExpr (GhcPass 'Typechecked)))
mg_ext = [Scaled Type] -> Type -> MatchGroupTc
MatchGroupTc [Scaled Type]
arg_tys Type
sum_ty
             , mg_origin :: Origin
mg_origin = Origin
origin },
          CoreExpr
core_choices)

{-
Translation of command judgements of the form

        D |-a do { ss } : t
-}

dsCmdDo :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this statement
        -> Type                 -- return type of the statement
        -> [CmdLStmt GhcTc]     -- statements to desugar
        -> [Id]                 -- list of vars in the input to this statement
                                -- This is typically fed back,
                                -- so don't pull on it too early
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet)         -- subset of local vars that occur free

dsCmdDo :: DsCmdEnv
-> VarSet
-> Type
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdDo DsCmdEnv
_ VarSet
_ Type
_ [] [Id]
_ = forall a. String -> a
panic String
"dsCmdDo"

-- D; xs |-a c : () --> t
-- --------------------------
-- D; xs |-a do { c } : t
--
--              ---> premap (\ (xs) -> ((xs), ())) c

dsCmdDo DsCmdEnv
ids VarSet
local_vars Type
res_ty [L SrcSpanAnnA
_ (LastStmt XLastStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LocatedA (HsCmd (GhcPass 'Typechecked)))
_ LocatedA (HsCmd (GhcPass 'Typechecked))
body Maybe Bool
_ SyntaxExpr (GhcPass 'Typechecked)
_)] [Id]
env_ids = do
    (CoreExpr
core_body, DIdSet
env_ids') <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsLCmd DsCmdEnv
ids VarSet
local_vars Type
unitTy Type
res_ty LocatedA (HsCmd (GhcPass 'Typechecked))
body [Id]
env_ids
    let env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
    Id
env_var <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
env_ty
    let core_map :: CoreExpr
core_map = forall b. b -> Expr b -> Expr b
Lam Id
env_var (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr (forall b. Id -> Expr b
Var Id
env_var) CoreExpr
mkCoreUnitExpr)
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids
                        Type
env_ty
                        (Type -> Type -> Type
mkCorePairTy Type
env_ty Type
unitTy)
                        Type
res_ty
                        CoreExpr
core_map
                        CoreExpr
core_body,
        DIdSet
env_ids')

dsCmdDo DsCmdEnv
ids VarSet
local_vars Type
res_ty (CmdLStmt (GhcPass 'Typechecked)
stmt:[CmdLStmt (GhcPass 'Typechecked)]
stmts) [Id]
env_ids = do
    let bound_vars :: VarSet
bound_vars  = [Id] -> VarSet
mkVarSet (forall (idL :: Pass) (idR :: Pass) body.
CollectPass (GhcPass idL) =>
CollectFlag (GhcPass idL)
-> LStmtLR (GhcPass idL) (GhcPass idR) body -> [IdP (GhcPass idL)]
collectLStmtBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders CmdLStmt (GhcPass 'Typechecked)
stmt)
    let local_vars' :: VarSet
local_vars' = VarSet
bound_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars
    (CoreExpr
core_stmts, DIdSet
_, [Id]
env_ids') <- ([Id] -> DsM (CoreExpr, DIdSet)) -> DsM (CoreExpr, DIdSet, [Id])
trimInput (DsCmdEnv
-> VarSet
-> Type
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdDo DsCmdEnv
ids VarSet
local_vars' Type
res_ty [CmdLStmt (GhcPass 'Typechecked)]
stmts)
    (CoreExpr
core_stmt, DIdSet
fv_stmt) <- DsCmdEnv
-> VarSet
-> [Id]
-> CmdLStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLStmt DsCmdEnv
ids VarSet
local_vars [Id]
env_ids' CmdLStmt (GhcPass 'Typechecked)
stmt [Id]
env_ids
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids
                ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids)
                ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids')
                Type
res_ty
                CoreExpr
core_stmt
                CoreExpr
core_stmts,
              DIdSet
fv_stmt)

{-
A statement maps one local environment to another, and is represented
as an arrow from one tuple type to another.  A statement sequence is
translated to a composition of such arrows.
-}

dsCmdLStmt :: DsCmdEnv -> IdSet -> [Id] -> CmdLStmt GhcTc -> [Id]
           -> DsM (CoreExpr, DIdSet)
dsCmdLStmt :: DsCmdEnv
-> VarSet
-> [Id]
-> CmdLStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids CmdLStmt (GhcPass 'Typechecked)
cmd [Id]
env_ids
  = DsCmdEnv
-> VarSet
-> [Id]
-> CmdStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids (forall l e. GenLocated l e -> e
unLoc CmdLStmt (GhcPass 'Typechecked)
cmd) [Id]
env_ids

dsCmdStmt
        :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this statement
        -> [Id]                 -- list of vars in the output of this statement
        -> CmdStmt GhcTc        -- statement to desugar
        -> [Id]                 -- list of vars in the input to this statement
                                -- This is typically fed back,
                                -- so don't pull on it too early
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet)         -- subset of local vars that occur free

-- D; xs1 |-a c : () --> t
-- D; xs' |-a do { ss } : t'
-- ------------------------------
-- D; xs  |-a do { c; ss } : t'
--
--              ---> premap (\ ((xs)) -> (((xs1),()),(xs')))
--                      (first c >>> arr snd) >>> ss

dsCmdStmt :: DsCmdEnv
-> VarSet
-> [Id]
-> CmdStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids (BodyStmt XBodyStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
c_ty LHsCmd (GhcPass 'Typechecked)
cmd SyntaxExpr (GhcPass 'Typechecked)
_ SyntaxExpr (GhcPass 'Typechecked)
_) [Id]
env_ids = do
    (CoreExpr
core_cmd, DIdSet
fv_cmd, [Id]
env_ids1) <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
unitTy XBodyStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
c_ty LHsCmd (GhcPass 'Typechecked)
cmd
    CoreExpr
core_mux <- [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
env_ids
        (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr
            (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids1) CoreExpr
mkCoreUnitExpr)
            ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
out_ids))
    let
        in_ty :: Type
in_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
        in_ty1 :: Type
in_ty1 = Type -> Type -> Type
mkCorePairTy ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids1) Type
unitTy
        out_ty :: Type
out_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids
        before_c_ty :: Type
before_c_ty = Type -> Type -> Type
mkCorePairTy Type
in_ty1 Type
out_ty
        after_c_ty :: Type
after_c_ty = Type -> Type -> Type
mkCorePairTy XBodyStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
c_ty Type
out_ty
    CoreExpr
snd_fn <- Type -> Type -> DsM CoreExpr
mkSndExpr XBodyStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
c_ty Type
out_ty
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
before_c_ty Type
out_ty CoreExpr
core_mux forall a b. (a -> b) -> a -> b
$
                DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
before_c_ty Type
after_c_ty Type
out_ty
                        (DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_first DsCmdEnv
ids Type
in_ty1 XBodyStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
c_ty Type
out_ty CoreExpr
core_cmd) forall a b. (a -> b) -> a -> b
$
                DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
after_c_ty Type
out_ty CoreExpr
snd_fn,
              DIdSet -> [Id] -> DIdSet
extendDVarSetList DIdSet
fv_cmd [Id]
out_ids)

-- D; xs1 |-a c : () --> t
-- D; xs' |-a do { ss } : t'            xs2 = xs' - defs(p)
-- -----------------------------------
-- D; xs  |-a do { p <- c; ss } : t'
--
--              ---> premap (\ (xs) -> (((xs1),()),(xs2)))
--                      (first c >>> arr (\ (p, (xs2)) -> (xs'))) >>> ss
--
-- It would be simpler and more consistent to do this using second,
-- but that's likely to be defined in terms of first.

dsCmdStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids (BindStmt XBindStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
_ LPat (GhcPass 'Typechecked)
pat LHsCmd (GhcPass 'Typechecked)
cmd) [Id]
env_ids = do
    let pat_ty :: Type
pat_ty = LPat (GhcPass 'Typechecked) -> Type
hsLPatType LPat (GhcPass 'Typechecked)
pat
    (CoreExpr
core_cmd, DIdSet
fv_cmd, [Id]
env_ids1) <- DsCmdEnv
-> VarSet
-> Type
-> Type
-> LHsCmd (GhcPass 'Typechecked)
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmd DsCmdEnv
ids VarSet
local_vars Type
unitTy Type
pat_ty LHsCmd (GhcPass 'Typechecked)
cmd
    let pat_vars :: VarSet
pat_vars = [Id] -> VarSet
mkVarSet (forall p. CollectPass p => CollectFlag p -> LPat p -> [IdP p]
collectPatBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders LPat (GhcPass 'Typechecked)
pat)
    let
        env_ids2 :: [Id]
env_ids2 = forall a. (a -> Bool) -> [a] -> [a]
filterOut (Id -> VarSet -> Bool
`elemVarSet` VarSet
pat_vars) [Id]
out_ids
        env_ty2 :: Type
env_ty2 = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids2

    -- multiplexing function
    --          \ (xs) -> (((xs1),()),(xs2))

    CoreExpr
core_mux <- [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
env_ids
        (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr
            (CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids1) CoreExpr
mkCoreUnitExpr)
            ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env_ids2))

    -- projection function
    --          \ (p, (xs2)) -> (zs)

    Id
env_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
env_ty2
    UniqSupply
uniqs <- forall gbl lcl. TcRnIf gbl lcl UniqSupply
newUniqueSupply
    let
       after_c_ty :: Type
after_c_ty = Type -> Type -> Type
mkCorePairTy Type
pat_ty Type
env_ty2
       out_ty :: Type
out_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids
       body_expr :: CoreExpr
body_expr = UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple UniqSupply
uniqs Id
env_id [Id]
env_ids2 ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
out_ids)

    CoreExpr
fail_expr <- HsMatchContext GhcRn -> Type -> DsM CoreExpr
mkFailExpr (forall p. HsStmtContext p -> HsMatchContext p
StmtCtxt (forall p. HsDoFlavour -> HsStmtContext p
HsDoStmt (Maybe ModuleName -> HsDoFlavour
DoExpr forall a. Maybe a
Nothing))) Type
out_ty
    Id
pat_id    <- Type -> LPat (GhcPass 'Typechecked) -> DsM Id
selectSimpleMatchVarL Type
Many LPat (GhcPass 'Typechecked)
pat
    CoreExpr
match_code
      <- CoreExpr
-> HsMatchContext GhcRn
-> LPat (GhcPass 'Typechecked)
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimply (forall b. Id -> Expr b
Var Id
pat_id) (forall p. HsStmtContext p -> HsMatchContext p
StmtCtxt (forall p. HsDoFlavour -> HsStmtContext p
HsDoStmt (Maybe ModuleName -> HsDoFlavour
DoExpr forall a. Maybe a
Nothing))) LPat (GhcPass 'Typechecked)
pat CoreExpr
body_expr CoreExpr
fail_expr
    Id
pair_id   <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
after_c_ty
    let
        proj_expr :: CoreExpr
proj_expr = forall b. b -> Expr b -> Expr b
Lam Id
pair_id (Id -> Id -> Id -> CoreExpr -> CoreExpr
coreCasePair Id
pair_id Id
pat_id Id
env_id CoreExpr
match_code)

    -- put it all together
    let
        in_ty :: Type
in_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
        in_ty1 :: Type
in_ty1 = Type -> Type -> Type
mkCorePairTy ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids1) Type
unitTy
        in_ty2 :: Type
in_ty2 = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids2
        before_c_ty :: Type
before_c_ty = Type -> Type -> Type
mkCorePairTy Type
in_ty1 Type
in_ty2
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_ty Type
before_c_ty Type
out_ty CoreExpr
core_mux forall a b. (a -> b) -> a -> b
$
                DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
before_c_ty Type
after_c_ty Type
out_ty
                        (DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_first DsCmdEnv
ids Type
in_ty1 Type
pat_ty Type
in_ty2 CoreExpr
core_cmd) forall a b. (a -> b) -> a -> b
$
                DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
after_c_ty Type
out_ty CoreExpr
proj_expr,
              DIdSet
fv_cmd DIdSet -> DIdSet -> DIdSet
`unionDVarSet` ([Id] -> DIdSet
mkDVarSet [Id]
out_ids
                                     forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetMinusUniqSet` VarSet
pat_vars))

-- D; xs' |-a do { ss } : t
-- --------------------------------------
-- D; xs  |-a do { let binds; ss } : t
--
--              ---> arr (\ (xs) -> let binds in (xs')) >>> ss

dsCmdStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids (LetStmt XLetStmt
  (GhcPass 'Typechecked)
  (GhcPass 'Typechecked)
  (LHsCmd (GhcPass 'Typechecked))
_ HsLocalBinds (GhcPass 'Typechecked)
binds) [Id]
env_ids = do
    -- build a new environment using the let bindings
    CoreExpr
core_binds <- HsLocalBinds (GhcPass 'Typechecked) -> CoreExpr -> DsM CoreExpr
dsLocalBinds HsLocalBinds (GhcPass 'Typechecked)
binds ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
out_ids)
    -- match the old environment against the input
    CoreExpr
core_map <- [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
env_ids CoreExpr
core_binds
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids
                        ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids)
                        ([Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids)
                        CoreExpr
core_map,
            CoreExpr -> DIdSet
exprFreeIdsDSet CoreExpr
core_binds forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetIntersectUniqSet` VarSet
local_vars)

-- D; ys  |-a do { ss; returnA -< ((xs1), (ys2)) } : ...
-- D; xs' |-a do { ss' } : t
-- ------------------------------------
-- D; xs  |-a do { rec ss; ss' } : t
--
--                      xs1 = xs' /\ defs(ss)
--                      xs2 = xs' - defs(ss)
--                      ys1 = ys - defs(ss)
--                      ys2 = ys /\ defs(ss)
--
--              ---> arr (\(xs) -> ((ys1),(xs2))) >>>
--                      first (loop (arr (\((ys1),~(ys2)) -> (ys)) >>> ss)) >>>
--                      arr (\((xs1),(xs2)) -> (xs')) >>> ss'

dsCmdStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids
        (RecStmt { recS_stmts :: forall idL idR body.
StmtLR idL idR body -> XRec idR [LStmtLR idL idR body]
recS_stmts = L SrcSpanAnnL
_ [GenLocated
   SrcSpanAnnA
   (StmtLR
      (GhcPass 'Typechecked)
      (GhcPass 'Typechecked)
      (LocatedA (HsCmd (GhcPass 'Typechecked))))]
stmts
                 , recS_later_ids :: forall idL idR body. StmtLR idL idR body -> [IdP idR]
recS_later_ids = [IdP (GhcPass 'Typechecked)]
later_ids, recS_rec_ids :: forall idL idR body. StmtLR idL idR body -> [IdP idR]
recS_rec_ids = [IdP (GhcPass 'Typechecked)]
rec_ids
                 , recS_ext :: forall idL idR body. StmtLR idL idR body -> XRecStmt idL idR body
recS_ext = RecStmtTc { recS_later_rets :: RecStmtTc -> [HsExpr (GhcPass 'Typechecked)]
recS_later_rets = [HsExpr (GhcPass 'Typechecked)]
later_rets
                                        , recS_rec_rets :: RecStmtTc -> [HsExpr (GhcPass 'Typechecked)]
recS_rec_rets = [HsExpr (GhcPass 'Typechecked)]
rec_rets } })
        [Id]
env_ids = do
    let
        later_ids_set :: VarSet
later_ids_set = [Id] -> VarSet
mkVarSet [IdP (GhcPass 'Typechecked)]
later_ids
        env2_ids :: [Id]
env2_ids = forall a. (a -> Bool) -> [a] -> [a]
filterOut (Id -> VarSet -> Bool
`elemVarSet` VarSet
later_ids_set) [Id]
out_ids
        env2_id_set :: DIdSet
env2_id_set = [Id] -> DIdSet
mkDVarSet [Id]
env2_ids
        env2_ty :: Type
env2_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env2_ids

    -- post_loop_fn = \((later_ids),(env2_ids)) -> (out_ids)

    UniqSupply
uniqs <- forall gbl lcl. TcRnIf gbl lcl UniqSupply
newUniqueSupply
    Id
env2_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
env2_ty
    let
        later_ty :: Type
later_ty = [Id] -> Type
mkBigCoreVarTupTy [IdP (GhcPass 'Typechecked)]
later_ids
        post_pair_ty :: Type
post_pair_ty = Type -> Type -> Type
mkCorePairTy Type
later_ty Type
env2_ty
        post_loop_body :: CoreExpr
post_loop_body = UniqSupply -> Id -> [Id] -> CoreExpr -> CoreExpr
coreCaseTuple UniqSupply
uniqs Id
env2_id [Id]
env2_ids ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
out_ids)

    CoreExpr
post_loop_fn <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [IdP (GhcPass 'Typechecked)]
later_ids Id
env2_id CoreExpr
post_loop_body

    --- loop (...)

    (CoreExpr
core_loop, DIdSet
env1_id_set, [Id]
env1_ids)
               <- DsCmdEnv
-> VarSet
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> [HsExpr (GhcPass 'Typechecked)]
-> [Id]
-> [HsExpr (GhcPass 'Typechecked)]
-> DsM (CoreExpr, DIdSet, [Id])
dsRecCmd DsCmdEnv
ids VarSet
local_vars [GenLocated
   SrcSpanAnnA
   (StmtLR
      (GhcPass 'Typechecked)
      (GhcPass 'Typechecked)
      (LocatedA (HsCmd (GhcPass 'Typechecked))))]
stmts [IdP (GhcPass 'Typechecked)]
later_ids [HsExpr (GhcPass 'Typechecked)]
later_rets [IdP (GhcPass 'Typechecked)]
rec_ids [HsExpr (GhcPass 'Typechecked)]
rec_rets

    -- pre_loop_fn = \(env_ids) -> ((env1_ids),(env2_ids))

    let
        env1_ty :: Type
env1_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env1_ids
        pre_pair_ty :: Type
pre_pair_ty = Type -> Type -> Type
mkCorePairTy Type
env1_ty Type
env2_ty
        pre_loop_body :: CoreExpr
pre_loop_body = CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env1_ids)
                                        ([Id] -> CoreExpr
mkBigCoreVarTup [Id]
env2_ids)

    CoreExpr
pre_loop_fn <- [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
env_ids CoreExpr
pre_loop_body

    -- arr pre_loop_fn >>> first (loop (...)) >>> arr post_loop_fn

    let
        env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
        out_ty :: Type
out_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids
        core_body :: CoreExpr
core_body = DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
env_ty Type
pre_pair_ty Type
out_ty
                CoreExpr
pre_loop_fn
                (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
pre_pair_ty Type
post_pair_ty Type
out_ty
                        (DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_first DsCmdEnv
ids Type
env1_ty Type
later_ty Type
env2_ty
                                CoreExpr
core_loop)
                        (DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
post_pair_ty Type
out_ty
                                CoreExpr
post_loop_fn))

    forall (m :: * -> *) a. Monad m => a -> m a
return (CoreExpr
core_body, DIdSet
env1_id_set DIdSet -> DIdSet -> DIdSet
`unionDVarSet` DIdSet
env2_id_set)

dsCmdStmt DsCmdEnv
_ VarSet
_ [Id]
_ CmdStmt (GhcPass 'Typechecked)
_ [Id]
s = forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"dsCmdStmt" (forall a. Outputable a => a -> SDoc
ppr [Id]
s)

--      loop (premap (\ ((env1_ids), ~(rec_ids)) -> (env_ids))
--            (ss >>> arr (\ (out_ids) -> ((later_rets),(rec_rets))))) >>>

dsRecCmd
        :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this statement
        -> [CmdLStmt GhcTc]     -- list of statements inside the RecCmd
        -> [Id]                 -- list of vars defined here and used later
        -> [HsExpr GhcTc]       -- expressions corresponding to later_ids
        -> [Id]                 -- list of vars fed back through the loop
        -> [HsExpr GhcTc]       -- expressions corresponding to rec_ids
        -> DsM (CoreExpr,       -- desugared statement
                DIdSet,         -- subset of local vars that occur free
                [Id])           -- same local vars as a list

dsRecCmd :: DsCmdEnv
-> VarSet
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> [HsExpr (GhcPass 'Typechecked)]
-> [Id]
-> [HsExpr (GhcPass 'Typechecked)]
-> DsM (CoreExpr, DIdSet, [Id])
dsRecCmd DsCmdEnv
ids VarSet
local_vars [CmdLStmt (GhcPass 'Typechecked)]
stmts [Id]
later_ids [HsExpr (GhcPass 'Typechecked)]
later_rets [Id]
rec_ids [HsExpr (GhcPass 'Typechecked)]
rec_rets = do
    let
        later_id_set :: VarSet
later_id_set = [Id] -> VarSet
mkVarSet [Id]
later_ids
        rec_id_set :: VarSet
rec_id_set = [Id] -> VarSet
mkVarSet [Id]
rec_ids
        local_vars' :: VarSet
local_vars' = VarSet
rec_id_set VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
later_id_set VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars

    -- mk_pair_fn = \ (out_ids) -> ((later_rets),(rec_rets))

    [CoreExpr]
core_later_rets <- forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM HsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsExpr [HsExpr (GhcPass 'Typechecked)]
later_rets
    [CoreExpr]
core_rec_rets <- forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM HsExpr (GhcPass 'Typechecked) -> DsM CoreExpr
dsExpr [HsExpr (GhcPass 'Typechecked)]
rec_rets
    let
        -- possibly polymorphic version of vars of later_ids and rec_ids
        out_ids :: [Id]
out_ids = [CoreExpr] -> [Id]
exprsFreeIdsList ([CoreExpr]
core_later_rets forall a. [a] -> [a] -> [a]
++ [CoreExpr]
core_rec_rets)
        out_ty :: Type
out_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids

        later_tuple :: CoreExpr
later_tuple = [CoreExpr] -> CoreExpr
mkBigCoreTup [CoreExpr]
core_later_rets
        later_ty :: Type
later_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
later_ids

        rec_tuple :: CoreExpr
rec_tuple = [CoreExpr] -> CoreExpr
mkBigCoreTup [CoreExpr]
core_rec_rets
        rec_ty :: Type
rec_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
rec_ids

        out_pair :: CoreExpr
out_pair = CoreExpr -> CoreExpr -> CoreExpr
mkCorePairExpr CoreExpr
later_tuple CoreExpr
rec_tuple
        out_pair_ty :: Type
out_pair_ty = Type -> Type -> Type
mkCorePairTy Type
later_ty Type
rec_ty

    CoreExpr
mk_pair_fn <- [Id] -> CoreExpr -> DsM CoreExpr
matchEnv [Id]
out_ids CoreExpr
out_pair

    -- ss

    (CoreExpr
core_stmts, DIdSet
fv_stmts, [Id]
env_ids) <- DsCmdEnv
-> VarSet
-> [Id]
-> [CmdLStmt (GhcPass 'Typechecked)]
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmdStmts DsCmdEnv
ids VarSet
local_vars' [Id]
out_ids [CmdLStmt (GhcPass 'Typechecked)]
stmts

    -- squash_pair_fn = \ ((env1_ids), ~(rec_ids)) -> (env_ids)

    Id
rec_id <- Type -> Type -> DsM Id
newSysLocalDs Type
Many Type
rec_ty
    let
        env1_id_set :: DIdSet
env1_id_set = DIdSet
fv_stmts forall a. UniqDSet a -> UniqSet a -> UniqDSet a
`uniqDSetMinusUniqSet` VarSet
rec_id_set
        env1_ids :: [Id]
env1_ids = DIdSet -> [Id]
dVarSetElems DIdSet
env1_id_set
        env1_ty :: Type
env1_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env1_ids
        in_pair_ty :: Type
in_pair_ty = Type -> Type -> Type
mkCorePairTy Type
env1_ty Type
rec_ty
        core_body :: CoreExpr
core_body = [CoreExpr] -> CoreExpr
mkBigCoreTup (forall a b. (a -> b) -> [a] -> [b]
map Id -> CoreExpr
selectVar [Id]
env_ids)
          where
            selectVar :: Id -> CoreExpr
selectVar Id
v
                | Id
v Id -> VarSet -> Bool
`elemVarSet` VarSet
rec_id_set
                  = [Id] -> Id -> Id -> CoreExpr -> CoreExpr
mkTupleSelector [Id]
rec_ids Id
v Id
rec_id (forall b. Id -> Expr b
Var Id
rec_id)
                | Bool
otherwise = forall b. Id -> Expr b
Var Id
v

    CoreExpr
squash_pair_fn <- [Id] -> Id -> CoreExpr -> DsM CoreExpr
matchEnvStack [Id]
env1_ids Id
rec_id CoreExpr
core_body

    -- loop (premap squash_pair_fn (ss >>> arr mk_pair_fn))

    let
        env_ty :: Type
env_ty = [Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids
        core_loop :: CoreExpr
core_loop = DsCmdEnv -> Type -> Type -> Type -> CoreExpr -> CoreExpr
do_loop DsCmdEnv
ids Type
env1_ty Type
later_ty Type
rec_ty
                (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_premap DsCmdEnv
ids Type
in_pair_ty Type
env_ty Type
out_pair_ty
                        CoreExpr
squash_pair_fn
                        (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids Type
env_ty Type
out_ty Type
out_pair_ty
                                CoreExpr
core_stmts
                                (DsCmdEnv -> Type -> Type -> CoreExpr -> CoreExpr
do_arr DsCmdEnv
ids Type
out_ty Type
out_pair_ty CoreExpr
mk_pair_fn)))

    forall (m :: * -> *) a. Monad m => a -> m a
return (CoreExpr
core_loop, DIdSet
env1_id_set, [Id]
env1_ids)

{-
A sequence of statements (as in a rec) is desugared to an arrow between
two environments (no stack)
-}

dsfixCmdStmts
        :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this statement
        -> [Id]                 -- output vars of these statements
        -> [CmdLStmt GhcTc]     -- statements to desugar
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet,         -- subset of local vars that occur free
                [Id])           -- same local vars as a list

dsfixCmdStmts :: DsCmdEnv
-> VarSet
-> [Id]
-> [CmdLStmt (GhcPass 'Typechecked)]
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmdStmts DsCmdEnv
ids VarSet
local_vars [Id]
out_ids [CmdLStmt (GhcPass 'Typechecked)]
stmts
  = ([Id] -> DsM (CoreExpr, DIdSet)) -> DsM (CoreExpr, DIdSet, [Id])
trimInput (DsCmdEnv
-> VarSet
-> [Id]
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdStmts DsCmdEnv
ids VarSet
local_vars [Id]
out_ids [CmdLStmt (GhcPass 'Typechecked)]
stmts)
   -- TODO: Add representation polymorphism check for the resulting expression.
   -- But I (Richard E.) don't know enough about arrows to do so.

dsCmdStmts
        :: DsCmdEnv             -- arrow combinators
        -> IdSet                -- set of local vars available to this statement
        -> [Id]                 -- output vars of these statements
        -> [CmdLStmt GhcTc]     -- statements to desugar
        -> [Id]                 -- list of vars in the input to these statements
        -> DsM (CoreExpr,       -- desugared expression
                DIdSet)         -- subset of local vars that occur free

dsCmdStmts :: DsCmdEnv
-> VarSet
-> [Id]
-> [CmdLStmt (GhcPass 'Typechecked)]
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdStmts DsCmdEnv
ids VarSet
local_vars [Id]
out_ids [CmdLStmt (GhcPass 'Typechecked)
stmt] [Id]
env_ids
  = DsCmdEnv
-> VarSet
-> [Id]
-> CmdLStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLStmt DsCmdEnv
ids VarSet
local_vars [Id]
out_ids CmdLStmt (GhcPass 'Typechecked)
stmt [Id]
env_ids

dsCmdStmts DsCmdEnv
ids VarSet
local_vars [Id]
out_ids (CmdLStmt (GhcPass 'Typechecked)
stmt:[CmdLStmt (GhcPass 'Typechecked)]
stmts) [Id]
env_ids = do
    let bound_vars :: VarSet
bound_vars  = [Id] -> VarSet
mkVarSet (forall (idL :: Pass) (idR :: Pass) body.
CollectPass (GhcPass idL) =>
CollectFlag (GhcPass idL)
-> LStmtLR (GhcPass idL) (GhcPass idR) body -> [IdP (GhcPass idL)]
collectLStmtBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders CmdLStmt (GhcPass 'Typechecked)
stmt)
    let local_vars' :: VarSet
local_vars' = VarSet
bound_vars VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
local_vars
    (CoreExpr
core_stmts, DIdSet
_fv_stmts, [Id]
env_ids') <- DsCmdEnv
-> VarSet
-> [Id]
-> [CmdLStmt (GhcPass 'Typechecked)]
-> DsM (CoreExpr, DIdSet, [Id])
dsfixCmdStmts DsCmdEnv
ids VarSet
local_vars' [Id]
out_ids [CmdLStmt (GhcPass 'Typechecked)]
stmts
    (CoreExpr
core_stmt, DIdSet
fv_stmt) <- DsCmdEnv
-> VarSet
-> [Id]
-> CmdLStmt (GhcPass 'Typechecked)
-> [Id]
-> DsM (CoreExpr, DIdSet)
dsCmdLStmt DsCmdEnv
ids VarSet
local_vars [Id]
env_ids' CmdLStmt (GhcPass 'Typechecked)
stmt [Id]
env_ids
    forall (m :: * -> *) a. Monad m => a -> m a
return (DsCmdEnv
-> Type -> Type -> Type -> CoreExpr -> CoreExpr -> CoreExpr
do_compose DsCmdEnv
ids
                ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids)
                ([Id] -> Type
mkBigCoreVarTupTy [Id]
env_ids')
                ([Id] -> Type
mkBigCoreVarTupTy [Id]
out_ids)
                CoreExpr
core_stmt
                CoreExpr
core_stmts,
              DIdSet
fv_stmt)

dsCmdStmts DsCmdEnv
_ VarSet
_ [Id]
_ [] [Id]
_ = forall a. String -> a
panic String
"dsCmdStmts []"

-- Match a list of expressions against a list of patterns, left-to-right.

matchSimplys :: [CoreExpr]              -- Scrutinees
             -> HsMatchContext GhcRn    -- Match kind
             -> [LPat GhcTc]            -- Patterns they should match
             -> CoreExpr                -- Return this if they all match
             -> CoreExpr                -- Return this if they don't
             -> DsM CoreExpr
matchSimplys :: [CoreExpr]
-> HsMatchContext GhcRn
-> [LPat (GhcPass 'Typechecked)]
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimplys [] HsMatchContext GhcRn
_ctxt [] CoreExpr
result_expr CoreExpr
_fail_expr = forall (m :: * -> *) a. Monad m => a -> m a
return CoreExpr
result_expr
matchSimplys (CoreExpr
exp:[CoreExpr]
exps) HsMatchContext GhcRn
ctxt (LPat (GhcPass 'Typechecked)
pat:[LPat (GhcPass 'Typechecked)]
pats) CoreExpr
result_expr CoreExpr
fail_expr = do
    CoreExpr
match_code <- [CoreExpr]
-> HsMatchContext GhcRn
-> [LPat (GhcPass 'Typechecked)]
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimplys [CoreExpr]
exps HsMatchContext GhcRn
ctxt [LPat (GhcPass 'Typechecked)]
pats CoreExpr
result_expr CoreExpr
fail_expr
    CoreExpr
-> HsMatchContext GhcRn
-> LPat (GhcPass 'Typechecked)
-> CoreExpr
-> CoreExpr
-> DsM CoreExpr
matchSimply CoreExpr
exp HsMatchContext GhcRn
ctxt LPat (GhcPass 'Typechecked)
pat CoreExpr
match_code CoreExpr
fail_expr
matchSimplys [CoreExpr]
_ HsMatchContext GhcRn
_ [LPat (GhcPass 'Typechecked)]
_ CoreExpr
_ CoreExpr
_ = forall a. String -> a
panic String
"matchSimplys"

-- List of leaf expressions, with set of variables bound in each

leavesMatch :: LMatch GhcTc (LocatedA (body GhcTc))
            -> [(LocatedA (body GhcTc), IdSet)]
leavesMatch :: forall (body :: * -> *).
LMatch
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> [(LocatedA (body (GhcPass 'Typechecked)), VarSet)]
leavesMatch (L Anno
  (Match
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
_ (Match { m_pats :: forall p body. Match p body -> [LPat p]
m_pats = [LPat (GhcPass 'Typechecked)]
pats
                        , m_grhss :: forall p body. Match p body -> GRHSs p body
m_grhss = GRHSs XCGRHSs
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
_ [LGRHS
   (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))]
grhss HsLocalBinds (GhcPass 'Typechecked)
binds }))
  = let
        defined_vars :: VarSet
defined_vars = [Id] -> VarSet
mkVarSet (forall p. CollectPass p => CollectFlag p -> [LPat p] -> [IdP p]
collectPatsBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders [LPat (GhcPass 'Typechecked)]
pats)
                        VarSet -> VarSet -> VarSet
`unionVarSet`
                       [Id] -> VarSet
mkVarSet (forall (idL :: Pass) (idR :: Pass).
CollectPass (GhcPass idL) =>
CollectFlag (GhcPass idL)
-> HsLocalBindsLR (GhcPass idL) (GhcPass idR)
-> [IdP (GhcPass idL)]
collectLocalBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders HsLocalBinds (GhcPass 'Typechecked)
binds)
    in
    [(LocatedA (body (GhcPass 'Typechecked))
body,
      [Id] -> VarSet
mkVarSet (forall (idL :: Pass) (idR :: Pass) body.
CollectPass (GhcPass idL) =>
CollectFlag (GhcPass idL)
-> [LStmtLR (GhcPass idL) (GhcPass idR) body]
-> [IdP (GhcPass idL)]
collectLStmtsBinders CollectFlag (GhcPass 'Typechecked)
CollWithDictBinders [GuardLStmt (GhcPass 'Typechecked)]
stmts)
        VarSet -> VarSet -> VarSet
`unionVarSet` VarSet
defined_vars)
    | L Anno
  (GRHS
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
_ (GRHS XCGRHS
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
_ [GuardLStmt (GhcPass 'Typechecked)]
stmts LocatedA (body (GhcPass 'Typechecked))
body) <- [LGRHS
   (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))]
grhss]

-- Replace the leaf commands in a match

replaceLeavesMatch
        :: ( Anno (Match GhcTc (LocatedA (body' GhcTc))) ~ Anno (Match GhcTc (LocatedA (body GhcTc)))
           , Anno (GRHS GhcTc (LocatedA (body' GhcTc))) ~ Anno (GRHS GhcTc (LocatedA (body GhcTc))))
        => Type                                 -- new result type
        -> [LocatedA (body' GhcTc)] -- replacement leaf expressions of that type
        -> LMatch GhcTc (LocatedA (body GhcTc))  -- the matches of a case command
        -> ([LocatedA (body' GhcTc)],            -- remaining leaf expressions
            LMatch GhcTc (LocatedA (body' GhcTc))) -- updated match
replaceLeavesMatch :: forall (body' :: * -> *) (body :: * -> *).
(Anno
   (Match
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (Match
        (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))),
 Anno
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (GRHS
        (GhcPass 'Typechecked)
        (LocatedA (body (GhcPass 'Typechecked))))) =>
Type
-> [LocatedA (body' (GhcPass 'Typechecked))]
-> LMatch
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> ([LocatedA (body' (GhcPass 'Typechecked))],
    LMatch
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
replaceLeavesMatch Type
_res_ty [LocatedA (body' (GhcPass 'Typechecked))]
leaves
                        (L Anno
  (Match
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
loc
                          match :: Match
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
match@(Match { m_grhss :: forall p body. Match p body -> GRHSs p body
m_grhss = GRHSs XCGRHSs
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
x [LGRHS
   (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))]
grhss HsLocalBinds (GhcPass 'Typechecked)
binds }))
  = let
        ([LocatedA (body' (GhcPass 'Typechecked))]
leaves', [GenLocated
   (Anno
      (GRHS
         (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))))
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))]
grhss') = forall (t :: * -> *) s a b.
Traversable t =>
(s -> a -> (s, b)) -> s -> t a -> (s, t b)
mapAccumL forall (body' :: * -> *) (body :: * -> *).
(Anno
   (Match
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (Match
        (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))),
 Anno
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (GRHS
        (GhcPass 'Typechecked)
        (LocatedA (body (GhcPass 'Typechecked))))) =>
[LocatedA (body' (GhcPass 'Typechecked))]
-> LGRHS
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> ([LocatedA (body' (GhcPass 'Typechecked))],
    LGRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
replaceLeavesGRHS [LocatedA (body' (GhcPass 'Typechecked))]
leaves [LGRHS
   (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))]
grhss
    in
    ([LocatedA (body' (GhcPass 'Typechecked))]
leaves', forall l e. l -> e -> GenLocated l e
L Anno
  (Match
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
loc (Match
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
match { m_ext :: XCMatch
  (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked)))
m_ext = forall ann. EpAnn ann
noAnn, m_grhss :: GRHSs
  (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked)))
m_grhss = forall p body.
XCGRHSs p body -> [LGRHS p body] -> HsLocalBinds p -> GRHSs p body
GRHSs XCGRHSs
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
x [GenLocated
   (Anno
      (GRHS
         (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))))
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))]
grhss' HsLocalBinds (GhcPass 'Typechecked)
binds }))

replaceLeavesGRHS
        :: ( Anno (Match GhcTc (LocatedA (body' GhcTc))) ~ Anno (Match GhcTc (LocatedA (body GhcTc)))
           , Anno (GRHS GhcTc (LocatedA (body' GhcTc))) ~ Anno (GRHS GhcTc (LocatedA (body GhcTc))))
        => [LocatedA (body' GhcTc)]  -- replacement leaf expressions of that type
        -> LGRHS GhcTc (LocatedA (body GhcTc))     -- rhss of a case command
        -> ([LocatedA (body' GhcTc)],              -- remaining leaf expressions
            LGRHS GhcTc (LocatedA (body' GhcTc)))  -- updated GRHS
replaceLeavesGRHS :: forall (body' :: * -> *) (body :: * -> *).
(Anno
   (Match
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (Match
        (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))),
 Anno
   (GRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
 ~ Anno
     (GRHS
        (GhcPass 'Typechecked)
        (LocatedA (body (GhcPass 'Typechecked))))) =>
[LocatedA (body' (GhcPass 'Typechecked))]
-> LGRHS
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
-> ([LocatedA (body' (GhcPass 'Typechecked))],
    LGRHS
      (GhcPass 'Typechecked) (LocatedA (body' (GhcPass 'Typechecked))))
replaceLeavesGRHS (LocatedA (body' (GhcPass 'Typechecked))
leaf:[LocatedA (body' (GhcPass 'Typechecked))]
leaves) (L Anno
  (GRHS
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
loc (GRHS XCGRHS
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
x [GuardLStmt (GhcPass 'Typechecked)]
stmts LocatedA (body (GhcPass 'Typechecked))
_))
  = ([LocatedA (body' (GhcPass 'Typechecked))]
leaves, forall l e. l -> e -> GenLocated l e
L Anno
  (GRHS
     (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked))))
loc (forall p body.
XCGRHS p body -> [GuardLStmt p] -> body -> GRHS p body
GRHS XCGRHS
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
x [GuardLStmt (GhcPass 'Typechecked)]
stmts LocatedA (body' (GhcPass 'Typechecked))
leaf))
replaceLeavesGRHS [] LGRHS
  (GhcPass 'Typechecked) (LocatedA (body (GhcPass 'Typechecked)))
_ = forall a. String -> a
panic String
"replaceLeavesGRHS []"

-- Balanced fold of a non-empty list.

foldb :: (a -> a -> a) -> NonEmpty a -> a
foldb :: forall a. (a -> a -> a) -> NonEmpty a -> a
foldb a -> a -> a
_ (a
x:|[]) = a
x
foldb a -> a -> a
f NonEmpty a
xs = forall a. (a -> a -> a) -> NonEmpty a -> a
foldb a -> a -> a
f (NonEmpty a -> NonEmpty a
fold_pairs NonEmpty a
xs)
  where
    fold_pairs :: NonEmpty a -> NonEmpty a
fold_pairs (a
x1:|a
x2:[a]
xs) = a -> a -> a
f a
x1 a
x2 forall a. a -> [a] -> NonEmpty a
:| forall a. (NonEmpty a -> NonEmpty a) -> [a] -> [a]
keep_empty NonEmpty a -> NonEmpty a
fold_pairs [a]
xs
    fold_pairs NonEmpty a
xs          = NonEmpty a
xs

    keep_empty :: (NonEmpty a -> NonEmpty a) -> [a] -> [a]
    keep_empty :: forall a. (NonEmpty a -> NonEmpty a) -> [a] -> [a]
keep_empty NonEmpty a -> NonEmpty a
f = forall b a. b -> (a -> b) -> Maybe a -> b
maybe [] (forall (t :: * -> *) a. Foldable t => t a -> [a]
toList forall b c a. (b -> c) -> (a -> b) -> a -> c
. NonEmpty a -> NonEmpty a
f) forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. [a] -> Maybe (NonEmpty a)
nonEmpty