David Eichmann pushed to branch wip/davide/hadrian-aclocal_path at Glasgow Haskell Compiler / GHC
Commits:
4a645683 by Simon Peyton Jones at 2026-05-27T21:41:59-04:00
Trim the continuation in mkDupableContWithDmds
When there are no remaining argument demands, it means the application
is bottoming. In this case, we can trim the continuation to avoid the
panic that was observed in #27261.
See Note [Trimming the continuation for bottoming functions] in
GHC.Core.Opt.Simplify.Iteration.
- - - - -
8ab506ff by Cheng Shao at 2026-05-27T21:42:47-04:00
ghci: fix module name string lifetime in hs_hpc_module invocation
This patch makes hpcAddModule pass a properly malloced module name
string to hs_hpc_module, instead of using useAsCString which causes
use-after-free of module name string. Fixes #27297.
Co-authored-by: Codex
- - - - -
b0233814 by sheaf at 2026-05-27T21:43:31-04:00
Relax acceptance threshold for T10421
As seen in #27289, the 1% acceptance threshold for this text was
overly narrow, resulting in spurious test failures. This commit widens
the acceptance threshold to 2%. Fixes #27289.
- - - - -
1127299e by David Eichmann at 2026-05-28T11:26:39+01:00
Hadrian: Autoreconf builder on windows converts env variable ACLOCAL_PATH to unix paths
This is needed to fix hadrian bindist builds on windows in the mysy2
clang64 environment
- - - - -
14 changed files:
- boot
- + changelog.d/T27261
- compiler/GHC/Core/Opt/Simplify/Iteration.hs
- compiler/GHC/Core/Opt/Simplify/Utils.hs
- hadrian/src/Rules/BinaryDist.hs
- hadrian/src/Utilities.hs
- + libraries/ghc-boot/GHC/Data/ShortByteString.hs
- libraries/ghc-boot/ghc-boot.cabal.in
- libraries/ghci/GHCi/Coverage.hs
- libraries/ghci/GHCi/Run.hs
- testsuite/tests/perf/compiler/all.T
- + testsuite/tests/simplCore/should_compile/T27261.hs
- + testsuite/tests/simplCore/should_compile/T27261_aux.hs
- testsuite/tests/simplCore/should_compile/all.T
Changes:
=====================================
boot
=====================================
@@ -54,7 +54,9 @@ def autoreconf():
if os.name == 'nt':
# Get the normalized ACLOCAL_PATH for Windows
# This is necessary since on Windows this will be a Windows
- # path, which autoreconf doesn't know doesn't know how to handle.
+ # path, which autoreconf doesn't know how to handle.
+ #
+ # This logic is duplicated in Hadrian. Specifically in hadrian/src/Rules/BinaryDist.hs
ac_local = os.getenv('ACLOCAL_PATH', '')
ac_local_arg = re.sub(r';', r':', ac_local)
ac_local_arg = re.sub(r'\\', r'/', ac_local_arg)
=====================================
changelog.d/T27261
=====================================
@@ -0,0 +1,10 @@
+section: compiler
+issues: #27261
+mrs: !16084
+synopsis:
+ Avoid a crash in ``mkDupableContWithDmds`` when given empty demands
+description:
+ The case of an empty list of remaining argument demands is now explicitly
+ handled by trimming the simplifier continuation, to avoid a compiler crash
+ of the form ``Non-exhaustive patterns in dmd : cont_dmds`` or ``expectNonEmpty``
+ in ``mkDupableContWithDmds``.
=====================================
compiler/GHC/Core/Opt/Simplify/Iteration.hs
=====================================
@@ -62,6 +62,7 @@ import GHC.Types.Var ( isTyCoVar )
import GHC.Builtin.Types.Prim( realWorldStatePrimTy )
import GHC.Builtin.Names( runRWKey, seqHashKey )
+import qualified GHC.Data.List.Infinite as Inf
import GHC.Data.Maybe ( isNothing, orElse, mapMaybe )
import GHC.Data.FastString
import GHC.Unit.Module ( moduleName )
@@ -2444,24 +2445,9 @@ rebuildCall env arg_info _cont
---------- Bottoming applications --------------
rebuildCall env (ArgInfo { ai_fun = fun, ai_args = rev_args, ai_dmds = [] }) cont
- -- When we run out of strictness args, it means
- -- that the call is definitely bottom; see GHC.Core.Opt.Simplify.Utils.mkArgInfo
- -- Then we want to discard the entire strict continuation. E.g.
- -- * case (error "hello") of { ... }
- -- * (error "Hello") arg
- -- * f (error "Hello") where f is strict
- -- etc
- -- Then, especially in the first of these cases, we'd like to discard
- -- the continuation, leaving just the bottoming expression. But the
- -- type might not be right, so we may have to add a coerce.
- | not (contIsTrivial cont) -- Only do this if there is a non-trivial
- -- continuation to discard, else we do it
- -- again and again!
- = seqType cont_ty `seq` -- See Note [Avoiding space leaks in OutType]
- return (emptyFloats env, castBottomExpr res cont_ty)
- where
- res = argInfoExpr fun rev_args
- cont_ty = contResultType cont
+ -- When we run out of demands, it means that the call is definitely bottom.
+ -- See (TC2) in Note [Trimming the continuation for bottoming functions]
+ = rebuild env (argInfoExpr fun rev_args) (mkBottomCont cont)
---------- Simplify type applications --------------
rebuildCall env info (ApplyToTy { sc_arg_ty = arg_ty, sc_hole_ty = hole_ty, sc_cont = cont })
@@ -4045,6 +4031,41 @@ When we have
then we can just duplicate those alts because the A and C cases
will disappear immediately. This is more direct than creating
join points and inlining them away. See #4930.
+
+Note [Trimming the continuation for bottoming functions]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Suppose
+ f :: Int -> Int -> Int
+ f x = error "urk"
+
+ foo = f 3 4
+
+f's demand signature say "after one arg I return bottom". We can drop
+the remaining arguments, thus
+
+ foo = case f 3 of {}
+
+This trimming can also be done with other continuations:
+ * case (error "hello") of { ... }
+ * f (error "Hello") where f is strict
+ etc
+
+We implement the trimming in three parts:
+
+(TC1) In `mkArgInfo`, for a bottoming function, we make a list of `RemainingArgDmds`
+ with a finite list of elements (in the example above, just one).
+
+ For comparison, note that, for non-bottoming functions, the `RemainingArgDmds`
+ always finishes with an infinite list of `topDmd`.
+
+(TC2) In `rebuildCall`, when we run out of `RemainingArgDmds` we discard the
+ remaining continuation.
+
+ After discarding the continuation, the types might not match, in which case
+ we leave behind a (case <hole> of {}) wrapper. See the call to `mkBottomCont`.
+
+(TC3) In `mkDupableContWithDmds`, we similarly discard the continuation when
+ we run out of `RemainingArgDmds`.
-}
--------------------
@@ -4079,10 +4100,10 @@ mkDupableCont env cont
= mkDupableContWithDmds (zapSubstEnv env) (repeat topDmd) cont
mkDupableContWithDmds
- :: SimplEnvIS -> [Demand] -- Demands on arguments; always infinite
+ :: SimplEnvIS -> RemainingArgDmds
-> SimplCont -> SimplM ( SimplFloats, SimplCont)
-mkDupableContWithDmds env _ cont
+mkDupableContWithDmds env remaining_dmds cont
-- Check the invariant
| assertPpr (checkSimplEnvIS env) (pprBadSimplEnvIS env) False
= pprPanic "mkDupableContWithDmds" empty
@@ -4090,6 +4111,13 @@ mkDupableContWithDmds env _ cont
| contIsDupable cont
= return (emptyFloats env, cont)
+ -- No more demands => function is definitely bottom
+ -- => simply trim the continuation
+ -- c.f. the null-demands case in `rebuildCall`
+ -- See (TC3) in Note [Trimming the continuation for bottoming functions]
+ | null remaining_dmds
+ = return (emptyFloats env, mkBottomCont cont)
+
mkDupableContWithDmds _ _ (Stop {}) = panic "mkDupableCont" -- Handled by previous eqn
mkDupableContWithDmds env dmds (CastIt { sc_co = co, sc_opt = opt, sc_cont = cont })
@@ -4134,7 +4162,8 @@ mkDupableContWithDmds env _
, thumbsUpPlanA cont
= -- Use Plan A of Note [Duplicating StrictArg]
-- pprTrace "Using plan A" (ppr (ai_fun fun) $$ text "args" <+> ppr (ai_args fun) $$ text "cont" <+> ppr cont) $
- do { let _ :| dmds = expectNonEmpty $ ai_dmds fun
+ do { let _ :| dmds = expectNonEmpty (ai_dmds fun) -- See Invariant of StrictArg;
+ -- ai_dmds is never empty
; (floats1, cont') <- mkDupableContWithDmds env dmds cont
-- Use the demands from the function to add the right
-- demand info on any bindings we make for further args
@@ -4180,7 +4209,10 @@ mkDupableContWithDmds env dmds
-- let a = ...arg...
-- in [...hole...] a
-- NB: sc_dup /= OkToDup; that is caught earlier by contIsDupable
- do { let dmd:|cont_dmds = expectNonEmpty dmds
+ do { let dmd:|cont_dmds =
+ -- We took care to handle an empty demand list at the start,
+ -- ensuring this call to 'expectNonEmpty' does not panic (#27261).
+ expectNonEmpty dmds
; (floats1, cont') <- mkDupableContWithDmds env cont_dmds cont
; let env' = env `setInScopeFromF` floats1
; arg' <- simplArg env' Nothing hole_ty se arg arg_mco
@@ -4251,7 +4283,7 @@ mkDupableStrictBind env arg_bndr join_rhs res_ty
; let arg_info = ArgInfo { ai_fun = join_bndr
, ai_rules = [], ai_args = []
, ai_encl = False, ai_dmds = repeat topDmd
- , ai_discs = repeat 0 }
+ , ai_discs = Inf.repeat 0 }
; return ( addJoinFloats (emptyFloats env) $
unitJoinFloat $
NonRec join_bndr $
=====================================
compiler/GHC/Core/Opt/Simplify/Utils.hs
=====================================
@@ -25,13 +25,13 @@ module GHC.Core.Opt.Simplify.Utils (
StaticEnv(..),
isSimplified, contIsStop,
contIsDupable, contResultType, contHoleType, contHoleScaling,
- contIsTrivial, contArgs, contIsRhs,
+ contIsTrivial, contArgs, contIsRhs, mkBottomCont,
hasArgs, countArgs, contOutArgs, dropContArgs,
mkBoringStop, mkRhsStop, mkLazyArgStop,
interestingCallContext,
-- ArgInfo
- ArgInfo(..), ArgSpec(..), mkArgInfo,
+ ArgInfo(..), ArgSpec(..), RemainingArgDmds, mkArgInfo,
addValArgTo, addTyArgTo,
argInfoExpr, argSpecArg,
pushOutArgs, pushArgSpecs,
@@ -54,8 +54,10 @@ import GHC.Core.Opt.Stats ( Tick(..) )
import qualified GHC.Core.Subst
import GHC.Core.Ppr
import GHC.Core.TyCo.Ppr ( pprParendType )
+import GHC.Core.TyCo.Compare ( eqTypeIgnoringMultiplicity )
import GHC.Core.FVs
import GHC.Core.Utils
+import GHC.Core.Make( mkWildValBinder )
import GHC.Core.Opt.Arity
import GHC.Core.Unfold
import GHC.Core.Unfold.Make
@@ -75,6 +77,8 @@ import GHC.Types.Var.Set
import GHC.Types.Basic
import GHC.Types.Name.Env
+import GHC.Data.List.Infinite ( Infinite(..) )
+import qualified GHC.Data.List.Infinite as Inf
import GHC.Data.OrdList ( isNilOL )
import GHC.Data.FastString ( fsLit )
@@ -205,10 +209,10 @@ data SimplCont
| StrictArg -- (StrictArg (f e1 ..en) K)[e] = K[ f e1 .. en e ]
{ sc_dup :: DupFlag
- , sc_fun :: ArgInfo -- Specifies f, e1..en, Whether f has rules, etc
+ , sc_fun :: ArgInfo -- Specifies f, e1..en, whether f has rules, etc
-- plus demands and discount flags for *this* arg
-- and further args
- -- So ai_dmds and ai_discs are never empty
+ -- Invariant: ai_dmds and ai_discs are never empty
, sc_fun_ty :: OutType -- Type of the function (f e1 .. en),
-- presumably (arg_ty -> res_ty)
-- where res_ty is expected by sc_cont
@@ -348,32 +352,41 @@ doesn't matter because we'll never compute them all.
data ArgInfo
= ArgInfo {
- ai_fun :: OutId, -- The function
- ai_args :: [ArgSpec], -- ...applied to these args (which are in *reverse* order)
+ ai_fun :: OutId, -- ^ The function
+ ai_args :: [ArgSpec], -- ^ ...applied to these args (which are in *reverse* order)
-- NB: all these argumennts are already simplified
- ai_rules :: [CoreRule], -- Rules for this function
- ai_encl :: Bool, -- Flag saying whether this function
- -- or an enclosing one has rules (recursively)
- -- True => be keener to inline in all args
+ ai_rules :: [CoreRule], -- ^ Rules for this function
+ ai_encl :: Bool,
+ -- ^ Flag saying whether this function or an enclosing one has rules
+ -- (recursively)
+ --
+ -- @True@ means: be keener to inline in all args
- ai_dmds :: [Demand], -- Demands on remaining value arguments (beyond ai_args)
- -- Usually infinite, but if it is finite it guarantees
- -- that the function diverges after being given
- -- that number of args
+ ai_dmds :: RemainingArgDmds,
+ -- ^ Demands on remaining value arguments (beyond 'ai_args')
- ai_discs :: [Int] -- Discounts for remaining value arguments (beyond ai_args)
- -- non-zero => be keener to inline
- -- Always infinite
+ ai_discs :: Infinite Int
+ -- ^ Discounts for remaining value arguments (beyond 'ai_args')
+ --
+ -- A non-zero value means: be keener to inline
}
-data ArgSpec
- = ValArg { as_dmd :: Demand -- Demand placed on this argument
- , as_arg :: OutExpr -- Apply to this (coercion or value); c.f. ApplyToVal
- , as_hole_ty :: OutType } -- Type of the function (presumably t1 -> t2)
+-- | 'RemainingArgDmds' gives the demands on any remaining value arguments.
+--
+-- It is usually infinite (with 'topDmd's in the tail), but if it is finite it
+-- guarantees that the function diverges after being applied to that number
+-- of arguments.
+type RemainingArgDmds = [Demand]
- | TyArg { as_arg_ty :: OutType -- Apply to this type; c.f. ApplyToTy
- , as_hole_ty :: OutType } -- Type of the function (presumably forall a. blah)
+data ArgSpec
+ -- | A value argument
+ = ValArg { as_dmd :: Demand -- ^ Demand placed on this argument
+ , as_arg :: OutExpr -- ^ Apply to this (coercion or value); c.f. 'ApplyToVal'
+ , as_hole_ty :: OutType } -- ^ Type of the function (presumably @t1 -> t2@ for 'ValArg' or @forall a. blah@ for 'TyArg')
+ -- | A type argument
+ | TyArg { as_arg_ty :: OutType -- ^ Apply to this type; c.f. 'ApplyToTy'
+ , as_hole_ty :: OutType } -- ^ Type of the function (presumably @t1 -> t2@ for 'ValArg' or @forall a. blah@ for 'TyArg')
instance Outputable ArgInfo where
ppr (ArgInfo { ai_fun = fun, ai_args = args, ai_dmds = dmds, ai_rules = rules })
@@ -389,7 +402,7 @@ instance Outputable ArgSpec where
addValArgTo :: ArgInfo -> OutExpr -> OutType -> ArgInfo
addValArgTo ai arg hole_ty
- | ArgInfo { ai_dmds = dmd:dmds, ai_discs = _:discs } <- ai
+ | ArgInfo { ai_dmds = dmd:dmds, ai_discs = Inf _ discs } <- ai
-- Pop the top demand and and discounts off
, let arg_spec = ValArg { as_arg = arg, as_hole_ty = hole_ty, as_dmd = dmd }
= ai { ai_args = arg_spec : ai_args ai
@@ -492,12 +505,23 @@ contIsDupable (TickIt _ k) = contIsDupable k
contIsTrivial :: SimplCont -> Bool
contIsTrivial (Stop {}) = True
contIsTrivial (ApplyToTy { sc_cont = k }) = contIsTrivial k
--- This one doesn't look right. A value application is not trivial
--- contIsTrivial (ApplyToVal { sc_arg = Coercion _, sc_cont = k }) = contIsTrivial k
contIsTrivial (CastIt { sc_cont = k }) = contIsTrivial k
contIsTrivial _ = False
-------------------
+contStop :: SimplCont -> SimplCont
+-- ^ Get the 'Stop' at the tail of the continuation
+--
+-- Always returns a continuation of form @(Stop ...)@.
+contStop stop@(Stop {}) = stop
+contStop (CastIt { sc_cont = k }) = contStop k
+contStop (StrictBind { sc_cont = k }) = contStop k
+contStop (StrictArg { sc_cont = k }) = contStop k
+contStop (Select { sc_cont = k }) = contStop k
+contStop (ApplyToTy { sc_cont = k }) = contStop k
+contStop (ApplyToVal { sc_cont = k }) = contStop k
+contStop (TickIt _ k) = contStop k
+
contResultType :: SimplCont -> OutType
contResultType (Stop ty _ _) = ty
contResultType (CastIt { sc_cont = k }) = contResultType k
@@ -651,6 +675,35 @@ contEvalContext bndrs cont = go cont
-- Perhaps reconstruct the demand on the scrutinee by looking at field
-- and case binder dmds, see addCaseBndrDmd. No priority right now.
+-------------------
+mkBottomCont ::SimplCont -> SimplCont
+-- ^ Given a continuation `cont`, return a `cont` /of the same type/,
+-- looking like @(case \ of {})@.
+--
+-- This is used when we are going to fill in the @<hole>@ with bottom.
+-- See (TC2,3) in Note [Trimming the continuation for bottoming functions]
+--
+-- Don't bother to trim, making a @case <hole> of {}@, if we have only
+-- an essentially-trivial continuation; e.g. @(<hole> \@ty |> co)@.
+mkBottomCont cont = go cont
+ where
+ go k@(Stop {}) = k
+ go (TickIt t k') = TickIt t (go k')
+ go k@(CastIt { sc_cont = k' }) = k { sc_cont = go k' }
+ go k@(ApplyToTy { sc_cont = k' }) = k { sc_cont = go k' }
+ go k@(Select { sc_alts = [], sc_cont = Stop {} }) = k -- Optimisation only
+ go k | Stop res_ty _ _ <- stop_cont
+ , hole_ty `eqTypeIgnoringMultiplicity` res_ty
+ = stop_cont
+ | otherwise
+ = Select { sc_alts = []
+ , sc_bndr = mkWildValBinder OneTy hole_ty
+ , sc_env = Simplified OkDup
+ , sc_cont = stop_cont }
+ where
+ hole_ty = contHoleType k
+ stop_cont = contStop k
+
-------------------
mkArgInfo :: SimplEnv -> Id -> [CoreRule] -> SimplCont -> ArgInfo
mkArgInfo env fun rules_for_fun cont
@@ -672,16 +725,17 @@ mkArgInfo env fun rules_for_fun cont
fun_has_rules = not (null rules_for_fun)
- vanilla_discounts, arg_discounts :: [Int]
- vanilla_discounts = repeat 0
+ vanilla_discounts, arg_discounts :: Infinite Int
+ vanilla_discounts = Inf.repeat 0
arg_discounts = case idUnfolding fun of
CoreUnfolding {uf_guidance = UnfIfGoodArgs {ug_args = discounts}}
- -> discounts ++ vanilla_discounts
+ -> discounts Inf.++ vanilla_discounts
_ -> vanilla_discounts
- vanilla_dmds, arg_dmds :: [Demand]
+ vanilla_dmds :: RemainingArgDmds
vanilla_dmds = repeat topDmd
+ arg_dmds :: RemainingArgDmds
arg_dmds
| not (seInline env)
= vanilla_dmds -- See Note [Do not expose strictness if sm_inline=False]
@@ -689,26 +743,22 @@ mkArgInfo env fun rules_for_fun cont
= -- add_type_str fun_ty $
case splitDmdSig (idDmdSig fun) of
(demands, result_info)
- | not (demands `lengthExceeds` n_val_args)
- -> -- Enough args, use the strictness given.
- -- For bottoming functions we used to pretend that the arg
- -- is lazy, so that we don't treat the arg as an
- -- interesting context. This avoids substituting
- -- top-level bindings for (say) strings into
- -- calls to error. But now we are more careful about
- -- inlining lone variables, so its ok
- -- (see GHC.Core.Op.Simplify.Utils.analyseCont)
- if isDeadEndDiv result_info then
- demands -- Finite => result is bottom
- else
- demands ++ vanilla_dmds
+ | not (demands `lengthExceeds` n_val_args)
+ -> remaining_dmds -- Enough args, use the strictness given.
| otherwise
-> warnPprTrace True "More demands than arity" (ppr fun <+> ppr (idArity fun)
<+> ppr n_val_args <+> ppr demands) $
vanilla_dmds -- Not enough args, or no strictness
- add_type_strictness :: Type -> [Demand] -> [Demand]
- -- If the function arg types are strict, record that in the 'strictness bits'
+ where
+ remaining_dmds :: RemainingArgDmds
+ -- isDeadEndDiv: if remaining_dmds is finite, result is bottom
+ -- See (TC1) in Note [Trimming the continuation for bottoming functions]
+ remaining_dmds | isDeadEndDiv result_info = demands
+ | otherwise = demands ++ vanilla_dmds
+
+ add_type_strictness :: Type -> RemainingArgDmds -> RemainingArgDmds
+ -- If the function arg /types/ are strict, record that in the RemainingArgDmds
-- No need to instantiate because unboxed types (which dominate the strict
-- types) can't instantiate type variables.
-- add_type_strictness is done repeatedly (for each call);
@@ -915,16 +965,16 @@ the incentive to disappear when we inline `f`!
lazyArgContext :: ArgInfo -> CallCtxt
-- Use this for lazy arguments
lazyArgContext (ArgInfo { ai_encl = encl_rules, ai_discs = discs })
- | encl_rules = RuleArgCtxt
- | disc:_ <- discs, disc > 0 = DiscArgCtxt -- Be keener here
- | otherwise = BoringCtxt -- Nothing interesting
+ | encl_rules = RuleArgCtxt
+ | Inf disc _ <- discs, disc > 0 = DiscArgCtxt -- Be keener here
+ | otherwise = BoringCtxt -- Nothing interesting
strictArgContext :: ArgInfo -> CallCtxt
strictArgContext (ArgInfo { ai_encl = encl_rules, ai_discs = discs })
-- Use this for strict arguments
- | encl_rules = RuleArgCtxt
- | disc:_ <- discs, disc > 0 = DiscArgCtxt -- Be keener here
- | otherwise = RhsCtxt NonRecursive
+ | encl_rules = RuleArgCtxt
+ | Inf disc _ <- discs, disc > 0 = DiscArgCtxt -- Be keener here
+ | otherwise = RhsCtxt NonRecursive
-- Why RhsCtxt? if we see f (g x), and f is strict, we
-- want to be a bit more eager to inline g, because it may
-- expose an eval (on x perhaps) that can be eliminated or
=====================================
hadrian/src/Rules/BinaryDist.hs
=====================================
@@ -331,7 +331,22 @@ bindistRules = do
ghcRoot <- topDirectory
copyFile (ghcRoot -/- "aclocal.m4") (ghcRoot -/- "distrib" -/- "aclocal.m4")
copyDirectory (ghcRoot -/- "m4") (ghcRoot -/- "distrib")
- buildWithCmdOptions [] $
+
+ -- Get the normalized ACLOCAL_PATH for Windows
+ -- This is necessary since on Windows this will be a Windows
+ -- path, which autoreconf doesn't know how to handle.
+ --
+ -- This logic is duplicated in the `boot` python script
+ win_host <- isWinHost
+ env <- if not win_host
+ then pure []
+ else do
+ aclocalPathMay <- getEnv "ACLOCAL_PATH"
+ pure [ AddEnv "ACLOCAL_PATH" (msys2WindowsToUnixPath aclocalPath)
+ | Just aclocalPath <- [aclocalPathMay]
+ ]
+
+ buildWithCmdOptions env $
target (vanillaContext Stage1 ghc) (Autoreconf $ ghcRoot -/- "distrib") [] []
-- We clean after ourselves, moving the configure script we generated in
-- our bindist dir
=====================================
hadrian/src/Utilities.hs
=====================================
@@ -3,7 +3,8 @@ module Utilities (
askWithResources,
runBuilder, runBuilderWith,
contextDependencies, stage1Dependencies,
- topsortPackages, cabalDependencies
+ topsortPackages, cabalDependencies,
+ msys2WindowsToUnixPath
) where
import qualified Hadrian.Builder as H
@@ -69,3 +70,17 @@ topsortPackages pkgs = do
let annotated = map (annotateInDeg es) es
inDegZero = map snd $ filter ((== 0). fst) annotated
in inDegZero ++ topSort (es \\ inDegZero)
+
+-- | Converts a windows style path to a unix style path using msys2 conventions.
+-- >>> msys2WindowsToUnixPath "C:\\foo\\bar;C:\\msys2\\bin"
+-- "/C/foo/bar:/c/msys2/bin"
+msys2WindowsToUnixPath :: String -> String
+msys2WindowsToUnixPath =
+ replaceDrivePrefix
+ . replace "\\" "/"
+ . replace ";" ":"
+ where
+ replaceDrivePrefix p = case p of
+ drive : ':' : '/' : rest -> '/' : drive : '/' : replaceDrivePrefix rest
+ c : cs -> c : replaceDrivePrefix cs
+ [] -> []
=====================================
libraries/ghc-boot/GHC/Data/ShortByteString.hs
=====================================
@@ -0,0 +1,17 @@
+module GHC.Data.ShortByteString
+ ( newCStringFromSBS
+ ) where
+
+import Prelude
+
+import qualified Data.ByteString.Short as SBS
+import Foreign
+import Foreign.C
+
+newCStringFromSBS :: SBS.ShortByteString -> IO CString
+newCStringFromSBS sbs =
+ SBS.useAsCStringLen sbs $ \(src, len) -> do
+ dst <- mallocBytes (len + 1)
+ copyBytes dst src len
+ pokeByteOff dst len (0 :: Word8)
+ pure dst
=====================================
libraries/ghc-boot/ghc-boot.cabal.in
=====================================
@@ -51,6 +51,7 @@ Library
exposed-modules:
GHC.BaseDir
+ GHC.Data.ShortByteString
GHC.Data.ShortText
GHC.Data.SizedSeq
GHC.Data.SmallArray
=====================================
libraries/ghci/GHCi/Coverage.hs
=====================================
@@ -9,9 +9,9 @@ import Prelude -- See note [Why do we import Prelude here?]
import Control.Exception
import Data.ByteString.Short (ShortByteString)
-import qualified Data.ByteString.Short as SBS
import Data.Word
import Foreign
+import GHC.Data.ShortByteString
import GHC.Foreign (CString)
import GHC.Utils.Encoding.UTF8 (utf8DecodeShortByteString)
import GHCi.ObjLink (lookupSymbol)
@@ -31,17 +31,19 @@ hpcAddModule ::
-- ^ Name of the ticks array found in the c-stub.
IO ()
hpcAddModule modlName ticks hash tickboxes = do
- SBS.useAsCString modlName $ \modlNameLiteral -> do
- -- we need to find the reference to the ticks array.
- lookupSymbol tickboxes >>= \ case
- Nothing -> do
- -- the symbol is not found, this is a bug!
- throwIO $ ErrorCall $ "hpcAddModule: failed to find symbol " <> utf8DecodeShortByteString tickboxes
- Just tickBoxRef -> do
- -- Calling 'hs_hpc_module' multiple times is safe, it will add the module only once.
- hpc_register_module modlNameLiteral (fromIntegral ticks) (fromIntegral hash) (castPtr tickBoxRef)
- -- calling 'hpc_startup' multiple times is safe, it will only be initialised once.
- hpc_startup
+ -- we need to find the reference to the ticks array.
+ lookupSymbol tickboxes >>= \ case
+ Nothing -> do
+ -- the symbol is not found, this is a bug!
+ throwIO $ ErrorCall $ "hpcAddModule: failed to find symbol " <> utf8DecodeShortByteString tickboxes
+ Just tickBoxRef -> do
+ -- hs_hpc_module stores the module name pointer in the RTS hash table
+ -- until exitHpc, so pass a malloced C string.
+ modlNameLiteral <- newCStringFromSBS modlName
+ -- Calling 'hs_hpc_module' multiple times is safe, it will add the module only once.
+ hpc_register_module modlNameLiteral (fromIntegral ticks) (fromIntegral hash) (castPtr tickBoxRef)
+ -- calling 'hpc_startup' multiple times is safe, it will only be initialised once.
+ hpc_startup
foreign import ccall unsafe "hs_hpc_module"
hpc_register_module :: CString -> Word32 -> Word32 -> Ptr Word64 -> IO ()
=====================================
libraries/ghci/GHCi/Run.hs
=====================================
@@ -37,6 +37,9 @@ import Control.Monad
import Data.ByteString (ByteString)
import qualified Data.ByteString.Short.Internal as BS
import qualified Data.ByteString.Unsafe as B
+#if defined(PROFILING)
+import GHC.Data.ShortByteString
+#endif
import GHC.Exts
import qualified GHC.Exts.Heap as Heap
import GHC.Stack
@@ -447,13 +450,6 @@ mkCostCentres mod ccs = do
c_srcspan <- newCStringFromSBS srcspan
toRemotePtr <$> c_mkCostCentre c_name c_module c_srcspan
- newCStringFromSBS sbs = do
- let len = BS.length sbs
- buf <- mallocBytes $ len + 1
- BS.copyToPtr sbs 0 buf (fromIntegral len)
- pokeByteOff buf len (0 :: Word8)
- pure buf
-
foreign import ccall unsafe "mkCostCentre"
c_mkCostCentre :: Ptr CChar -> Ptr CChar -> Ptr CChar -> IO (Ptr CostCentre)
#else
=====================================
testsuite/tests/perf/compiler/all.T
=====================================
@@ -678,7 +678,7 @@ test ('T18140',
['-v0 -O'])
test('T10421',
[ only_ways(['normal']),
- collect_compiler_runtime(1)
+ collect_compiler_runtime(2) # 1% tolerance was too small (#27289)
],
multimod_compile,
['T10421', '-v0 -O'])
=====================================
testsuite/tests/simplCore/should_compile/T27261.hs
=====================================
@@ -0,0 +1,17 @@
+{-# OPTIONS_GHC -fno-full-laziness #-}
+
+module T27261 (foo) where
+
+import T27261_aux (myError)
+
+foo :: [String] -> (() -> Int) -> Int
+foo cs =
+ \ k -> ( case bar of
+ Just str -> let cs2 = case cs of { [] -> cs; _ -> "stack entry" : cs }
+ in myError cs2 str
+ Nothing -> \ c -> c () )
+ ( \ _ -> k () )
+
+bar :: Maybe String
+bar = Nothing
+{-# NOINLINE bar #-}
=====================================
testsuite/tests/simplCore/should_compile/T27261_aux.hs
=====================================
@@ -0,0 +1,7 @@
+{-# LANGUAGE BangPatterns #-}
+
+module T27261_aux (myError) where
+
+myError :: [String] -> String -> a
+myError !_ _ = undefined
+{-# NOINLINE myError #-}
=====================================
testsuite/tests/simplCore/should_compile/all.T
=====================================
@@ -601,3 +601,4 @@ test('T25718a', normal, compile, ['-O -ddump-simpl -dsuppress-uniques -dsuppress
test('T25718b', normal, compile, ['-O -ddump-simpl -dsuppress-uniques -dsuppress-all -dno-typeable-binds'])
test('T25718c', normal, compile, ['-O -ddump-simpl -dsuppress-uniques -dsuppress-all -dno-typeable-binds'])
test('T19166', normal, compile, ['-O -ddump-simpl -dsuppress-uniques -dsuppress-all -dno-typeable-binds'])
+test('T27261', [extra_files(['T27261_aux.hs'])], multimod_compile, ['T27261', '-v0 -O'])
View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/compare/2b6f845ab0a42877a0c0e9a11f5ac56...
--
View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/compare/2b6f845ab0a42877a0c0e9a11f5ac56...
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