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  1. Jun 26, 2019
  2. Jun 25, 2019
  3. Jun 24, 2019
  4. Jun 23, 2019
    • Ryan Scott's avatar
      Refactor UnliftedNewtypes-relation kind signature validity checks · 9bbcc3be
      Ryan Scott authored and Marge Bot's avatar Marge Bot committed
      This fixes three infelicities related to the programs that are
      (and aren't) accepted with `UnliftedNewtypes`:
      
      * Enabling `UnliftedNewtypes` would permit newtypes to have return
        kind `Id Type`, which had disastrous results (i.e., GHC panics).
      * Data family declarations ending in kind `TYPE r` (for some `r`)
        weren't being accepted if `UnliftedNewtypes` wasn't enabled,
        despite the GHC proposal specifying otherwise.
      * GHC wasn't warning about programs that _would_ typecheck if
        `UnliftedNewtypes` were enabled in certain common cases.
      
      As part of fixing these issues, I factored out the logic for checking
      all of the various properties about data type/data family return
      kinds into a single `checkDataKindSig` function. I also cleaned up
      some of the formatting in the existing error message that gets
      thrown.
      
      Fixes #16821, fixes #16827, and fixes #16829.
      9bbcc3be
    • Ben Gamari's avatar
      ghci: Load static objects in batches · 5a502cd1
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      Previously in the case where GHC was dynamically linked we would load
      static objects one-by-one by linking each into its own shared object and
      dlopen'ing each in order. However, this meant that the link would fail
      in the event that the objects had cyclic symbol dependencies.
      
      Here we fix this by merging each "run" of static objects into a single
      shared object and loading this.
      
      Fixes #13786 for the case where GHC is dynamically linked.
      5a502cd1
    • Ben Gamari's avatar
      testsuite: Test for #13786 · ade3db53
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      ade3db53
  5. Jun 22, 2019
  6. Jun 21, 2019
    • Ben Gamari's avatar
      linker: Disable code unloading · 49fff41d
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      As noted in #16841, there are currently a variety of bugs in the
      unloading logic. These only affect Windows since code unloading is
      disabled on Linux, where we build with `GhcDynamic=YES` by default.
      
      In the interest of getting the tree green on Windows disable code
      unloading until the issues are resolved.
      49fff41d
    • Ben Gamari's avatar
      testsuite: Mark T15633a and T15633b as fragile on Windows · 84900724
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      As noted in #16813, these tests seem to be fragile on Windows.
      84900724
    • Ben Gamari's avatar
      testsuite: Mark T7702 as broken on Windows · 7bd1c3e1
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      Due to #16799.
      7bd1c3e1
    • Ben Gamari's avatar
      testsuite: Mark T7170 as broken on Windows · 31f2ea68
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      Due to #16801.
      31f2ea68
    • Ben Gamari's avatar
      testsuite: Mark OldModLocation as broken on Windows · 3967d13a
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      Strangely the path it emits contains duplicate path delimiters (#16772),
      ```patch
      --- ghc-api/downsweep/OldModLocation.run/OldModLocation.stderr.normalised	2019-06-04 14:40:26.326075000 +0000
      +++ ghc-api/downsweep/OldModLocation.run/OldModLocation.run.stderr.normalised	2019-06-04 14:40:26.328029200 +0000
      @@ -1 +1 @@
      -[Just "A.hs",Just "mydir/B.hs"]
      +[Just "A.hs",Just "mydir//B.hs"]
      ```
      3967d13a
    • Ben Gamari's avatar
      testsuite: Add stderr output for UnsafeInfered02 on Windows · 2eedb120
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      This test uses TemplateHaskell causing GHC to build dynamic objects on
      platforms where dynamic linking is available. However, Windows doesn't support
      dynamic linking. Consequently the test would fail on Windows with:
      
      ```patch
      --- safeHaskell/safeInfered/UnsafeInfered02.run/UnsafeInfered02.stderr.normalised	2019-06-04 15:10:10.521594200 +0000
      +++ safeHaskell/safeInfered/UnsafeInfered02.run/UnsafeInfered02.comp.stderr.normalised	2019-06-04 15:10:10.523546200 +0000
      @@ -1,5 +1,5 @@
      -[1 of 2] Compiling UnsafeInfered02_A ( UnsafeInfered02_A.hs, UnsafeInfered02_A.o, UnsafeInfered02_A.dyn_o )
      -[2 of 2] Compiling UnsafeInfered02  ( UnsafeInfered02.hs, UnsafeInfered02.o, UnsafeInfered02.dyn_o )
      +[1 of 2] Compiling UnsafeInfered02_A ( UnsafeInfered02_A.hs, UnsafeInfered02_A.o )
      +[2 of 2] Compiling UnsafeInfered02  ( UnsafeInfered02.hs, UnsafeInfered02.o )
      
       UnsafeInfered02.hs:4:1:
           UnsafeInfered02_A: Can't be safely imported!
      ```
      
      The other approach I considered for this issue is to pass `-v0` to GHC.
      However, I felt we should probably do this consistently for all of the tests in
      this directory and this would take more time than I currently have.
      2eedb120
    • Ben Gamari's avatar
      testsuite: Mark T3372 as fragile on Windows · aa516431
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      On Windows we must lock package databases even when opening for
      read-only access. This means that concurrent GHC sessions are very
      likely to fail with file lock contention.
      
      See #16773.
      aa516431
    • Ben Gamari's avatar
      testsuite: Skip dynamicToo006 when dynamic linking is not available · 2485c08a
      Ben Gamari authored and Marge Bot's avatar Marge Bot committed
      This was previously failling on Windows.
      2485c08a
    • Matthías Páll Gissurarson's avatar
      Add HoleFitPlugins and RawHoleFits · c311277b
      Matthías Páll Gissurarson authored
      This patch adds a new kind of plugin, Hole fit plugins. These plugins
      can change what candidates are considered when looking for valid hole
      fits, and add hole fits of their own. The type of a plugin is relatively
      simple,
      
      ```
      type FitPlugin = TypedHole -> [HoleFit] -> TcM [HoleFit]
      type CandPlugin = TypedHole -> [HoleFitCandidate] -> TcM [HoleFitCandidate]
      data HoleFitPlugin = HoleFitPlugin { candPlugin :: CandPlugin
                                         , fitPlugin :: FitPlugin }
      
      data TypedHole = TyH { tyHRelevantCts :: Cts
                             -- ^ Any relevant Cts to the hole
                           , tyHImplics :: [Implication]
                             -- ^ The nested implications of the hole with the
                             --   innermost implication first.
                           , tyHCt :: Maybe Ct
                             -- ^ The hole constraint itself, if available.
                           }
      
      This allows users and plugin writers to interact with the candidates and
      fits as they wish, even going as far as to allow them to reimplement the
      current functionality (since `TypedHole` contains all the relevant
      information).
      
      As an example, consider the following plugin:
      
      ```
      module HolePlugin where
      
      import GhcPlugins
      
      import TcHoleErrors
      
      import Data.List (intersect, stripPrefix)
      import RdrName (importSpecModule)
      
      import TcRnTypes
      
      import System.Process
      
      plugin :: Plugin
      plugin = defaultPlugin { holeFitPlugin = hfp, pluginRecompile = purePlugin }
      
      hfp :: [CommandLineOption] -> Maybe HoleFitPluginR
      hfp opts = Just (fromPureHFPlugin $ HoleFitPlugin (candP opts) (fp opts))
      
      toFilter :: Maybe String -> Maybe String
      toFilter = flip (>>=) (stripPrefix "_module_")
      
      replace :: Eq a => a -> a -> [a] -> [a]
      replace match repl str = replace' [] str
        where
          replace' sofar (x:xs) | x == match = replace' (repl:sofar) xs
          replace' sofar (x:xs) = replace' (x:sofar) xs
          replace' sofar [] = reverse sofar
      
      -- | This candidate plugin filters the candidates by module,
      --   using the name of the hole as module to search in
      candP :: [CommandLineOption] -> CandPlugin
      candP _ hole cands =
        do let he = case tyHCt hole of
                      Just (CHoleCan _ h) -> Just (occNameString $ holeOcc h)
                      _ -> Nothing
           case toFilter he of
              Just undscModName -> do let replaced = replace '_' '.' undscModName
                                      let res = filter (greNotInOpts [replaced]) cands
                                      return $ res
              _ -> return cands
        where greNotInOpts opts (GreHFCand gre)  = not $ null $ intersect (inScopeVia gre) opts
              greNotInOpts _ _ = True
              inScopeVia = map (moduleNameString . importSpecModule) . gre_imp
      
      -- Yes, it's pretty hacky, but it is just an example :)
      searchHoogle :: String -> IO [String]
      searchHoogle ty = lines <$> (readProcess "hoogle" [(show ty)] [])
      
      fp :: [CommandLineOption] -> FitPlugin
      fp ("hoogle":[]) hole hfs =
          do dflags <- getDynFlags
             let tyString = showSDoc dflags . ppr . ctPred <$> tyHCt hole
             res <- case tyString of
                      Just ty -> liftIO $ searchHoogle ty
                      _ -> return []
             return $ (take 2 $ map (RawHoleFit . text . ("Hoogle says: " ++)) res) ++ hfs
      fp _ _ hfs = return hfs
      
      ```
      
      with this plugin available, you can compile the following file
      
      ```
      {-# OPTIONS -fplugin=HolePlugin -fplugin-opt=HolePlugin:hoogle #-}
      module Main where
      
      import Prelude hiding (head, last)
      
      import Data.List (head, last)
      
      t :: [Int] -> Int
      t = _module_Prelude
      
      g :: [Int] -> Int
      g = _module_Data_List
      
      main :: IO ()
      main = print $ t [1,2,3]
      ```
      
      and get the following output:
      
      ```
      Main.hs:14:5: error:
          • Found hole: _module_Prelude :: [Int] -> Int
            Or perhaps ‘_module_Prelude’ is mis-spelled, or not in scope
          • In the expression: _module_Prelude
            In an equation for ‘t’: t = _module_Prelude
          • Relevant bindings include
              t :: [Int] -> Int (bound at Main.hs:14:1)
            Valid hole fits include
              Hoogle says: GHC.List length :: [a] -> Int
              Hoogle says: GHC.OldList length :: [a] -> Int
              t :: [Int] -> Int (bound at Main.hs:14:1)
              g :: [Int] -> Int (bound at Main.hs:17:1)
              length :: forall (t :: * -> *) a. Foldable t => t a -> Int
                with length @[] @Int
                (imported from ‘Prelude’ at Main.hs:5:1-34
                 (and originally defined in ‘Data.Foldable’))
              maximum :: forall (t :: * -> *) a. (Foldable t, Ord a) => t a -> a
                with maximum @[] @Int
                (imported from ‘Prelude’ at Main.hs:5:1-34
                 (and originally defined in ‘Data.Foldable’))
              (Some hole fits suppressed; use -fmax-valid-hole-fits=N or -fno-max-valid-hole-fits)
         |
      14 | t = _module_Prelude
         |     ^^^^^^^^^^^^^^^
      
      Main.hs:17:5: error:
          • Found hole: _module_Data_List :: [Int] -> Int
            Or perhaps ‘_module_Data_List’ is mis-spelled, or not in scope
          • In the expression: _module_Data_List
            In an equation for ‘g’: g = _module_Data_List
          • Relevant bindings include
              g :: [Int] -> Int (bound at Main.hs:17:1)
            Valid hole fits include
              Hoogle says: GHC.List length :: [a] -> Int
              Hoogle says: GHC.OldList length :: [a] -> Int
              g :: [Int] -> Int (bound at Main.hs:17:1)
              head :: forall a. [a] -> a
                with head @Int
                (imported from ‘Data.List’ at Main.hs:7:19-22
                 (and originally defined in ‘GHC.List’))
              last :: forall a. [a] -> a
                with last @Int
                (imported from ‘Data.List’ at Main.hs:7:25-28
                 (and originally defined in ‘GHC.List’))
         |
      17 | g = _module_Data_List
      
      ```
      
      This relatively simple plugin has two functions, as an example of what
      is possible to do with hole fit plugins. The candidate plugin starts by
      filtering the candidates considered by module, indicated by the name of
      the hole (`_module_Data_List`). The second function is in the fit
      plugin, where the plugin invokes a local hoogle instance to search by
      the type of the hole.
      
      By adding the `RawHoleFit` type, we can also allow these completely free
      suggestions, used in the plugin above to display fits found by Hoogle.
      
      Additionally, the `HoleFitPluginR` wrapper can be used for plugins to
      maintain state between invocations, which can be used to speed up
      invocation of plugins that have expensive initialization.
      
      ```
      -- | HoleFitPluginR adds a TcRef to hole fit plugins so that plugins can
      -- track internal state. Note the existential quantification, ensuring that
      -- the state cannot be modified from outside the plugin.
      data HoleFitPluginR = forall s. HoleFitPluginR
        { hfPluginInit :: TcM (TcRef s)
          -- ^ Initializes the TcRef to be passed to the plugin
        , hfPluginRun :: TcRef s -> HoleFitPlugin
          -- ^ The function defining the plugin itself
        , hfPluginStop :: TcRef s -> TcM ()
          -- ^ Cleanup of state, guaranteed to be called even on error
        }
      ```
      
      Of course, the syntax here is up for debate, but hole fit plugins allow
      us to experiment relatively easily with ways to interact with
      typed-holes without having to dig deep into GHC.
      
      Reviewers: bgamari
      
      Subscribers: rwbarton, carter
      
      Differential Revision: https://phabricator.haskell.org/D5373
      c311277b
  7. Jun 20, 2019
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