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brittany
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Merge branch 'dev' into import

pull/83/head
Lennart Spitzner 2017-12-19 22:27:37 +01:00
parent ce7ec0b467 ac10b903af
commit f651d02898
7 changed files with 71 additions and 13 deletions
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10
.travis.yml
View File

@ -178,7 +178,7 @@ before_install:
# echo 'jobs: $ncpus' >> $HOME/.cabal/config
#fi
- PKGNAME='brittany'
- JOBS='2'
- JOBS='1'
- |
function better_wait() {
date
@ -209,7 +209,7 @@ install:
set -ex
case "$BUILD" in
stack)
stack --no-terminal --install-ghc $ARGS test --bench --only-dependencies
stack -j$JOBS --no-terminal --install-ghc $ARGS test --bench --only-dependencies
;;
cabal*)
cabal --version
@ -250,6 +250,8 @@ install:
cabal --version
travis_retry cabal update -v
echo 'packages: .' > cabal.project
echo 'package brittany' > cabal.project.local
echo ' ghc-options: -Werror' >> cabal.project.local
rm -f cabal.project.freeze
cabal new-build -j$JOBS --enable-test --enable-benchmarks --dep
cabal new-build -j$JOBS --disable-tests --disable-benchmarks --dep
@ -262,12 +264,12 @@ script:
set -ex
case "$BUILD" in
stack)
better_wait stack --no-terminal $ARGS test --bench --no-run-benchmarks --haddock --no-haddock-deps --ghc-options="-j1 +RTS -M500M -RTS"
better_wait stack -j$JOBS --no-terminal $ARGS test --bench --no-run-benchmarks --haddock --no-haddock-deps --ghc-options="-j1 +RTS -M500M -RTS -Werror"
;;
cabal)
if [ -f configure.ac ]; then autoreconf -i; fi
cabal configure --enable-tests --enable-benchmarks -v # -v2 provides useful information for debugging
better_wait cabal build -j$JOBS --ghc-options="-j1 +RTS -M500M -RTS" # this builds all libraries and executables (including tests/benchmarks)
better_wait cabal build -j$JOBS --ghc-options="-j1 +RTS -M500M -RTS -Werror" # this builds all libraries and executables (including tests/benchmarks)
cabal test
;;
cabaldist)

4
doc-svg-gen/doc-svg-gen.cabal
View File

@ -5,12 +5,12 @@ extra-source-files: ChangeLog.md
cabal-version: >=1.10
executable doc-svg-gen
buildable: True
buildable: False
main-is: Main.hs
-- other-modules:
-- other-extensions:
build-depends:
{ base >=4.9 && <4.10
{ base >=4.9 && <4.11
, text
, graphviz >=2999.19.0.0
}

16
src-literatetests/10-tests.blt
View File

@ -476,9 +476,23 @@ func = (`abc` 1)
#group tuples
###
#test 1
#test pair
func = (abc, def)
#test pair section left
func = (abc, )
#test pair section right
func = (, abc)
#test quintuple section long
myTupleSection =
( verylaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaargefirstelement
,
, verylaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaargethirdelement
,
)
#test 2
#pending
func = (lakjsdlajsdljasdlkjasldjasldjasldjalsdjlaskjd

5
src/Language/Haskell/Brittany/Internal.hs
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@ -62,6 +62,11 @@ import qualified GHC.LanguageExtensions.Type as GHC
--
-- Note that this function ignores/resets all config values regarding
-- debugging, i.e. it will never use `trace`/write to stderr.
--
-- Note that the ghc parsing function used internally currently is wrapped in
-- `mask_`, so cannot be killed easily. If you don't control the input, you
-- may wish to put some proper upper bound on the input's size as a timeout
-- won't do.
parsePrintModule :: Config -> Text -> IO (Either [BrittanyError] Text)
parsePrintModule configRaw inputText = runExceptT $ do
let config = configRaw { _conf_debug = _conf_debug staticDefaultConfig }

11
src/Language/Haskell/Brittany/Internal/ExactPrintUtils.hs
View File

@ -37,6 +37,8 @@ import qualified Language.Haskell.GHC.ExactPrint.Preprocess as ExactPrint
import qualified Language.Haskell.GHC.ExactPrint.Delta as ExactPrint
import qualified Data.Generics as SYB
import Control.Exception
-- import Data.Generics.Schemes
@ -85,7 +87,14 @@ parseModuleFromString
-> String
-> IO (Either String (ExactPrint.Anns, GHC.ParsedSource, a))
parseModuleFromString args fp dynCheck str =
ExactPrint.ghcWrapper $ ExceptT.runExceptT $ do
-- We mask here because otherwise using `throwTo` (i.e. for a timeout) will
-- produce nasty looking errors ("ghc panic"). The `mask_` makes it so we
-- cannot kill the parsing thread - not very nice. But i'll
-- optimistically assume that most of the time brittany uses noticable or
-- longer time, the majority of the time is not spend in parsing, but in
-- bridoc transformation stuff.
-- (reminder to update note on `parsePrintModule` if this changes.)
mask_ $ ExactPrint.ghcWrapper $ ExceptT.runExceptT $ do
dflags0 <- lift $ ExactPrint.initDynFlagsPure fp str
(dflags1, leftover, warnings) <- lift
$ GHC.parseDynamicFlagsCmdLine dflags0 (GHC.noLoc <$> args)

8
src/Language/Haskell/Brittany/Internal/Layouters/Expr.hs
View File

@ -341,9 +341,9 @@ layoutExpr lexpr@(L _ expr) = do
opDoc <- docSharedWrapper layoutExpr op
rightDoc <- docSharedWrapper layoutExpr right
docSeq [opDoc, docSeparator, rightDoc]
ExplicitTuple args boxity
| Just argExprs <- args `forM` (\case (L _ (Present e)) -> Just e; _ -> Nothing) -> do
argDocs <- docSharedWrapper layoutExpr `mapM` argExprs
ExplicitTuple args boxity -> do
let argExprs = fmap (\case (L _ (Present e)) -> Just e; (L _ (Missing PlaceHolder)) -> Nothing) args
argDocs <- docSharedWrapper (maybe docEmpty layoutExpr) `mapM` argExprs
hasComments <- hasAnyCommentsBelow lexpr
let (openLit, closeLit) = case boxity of
Boxed -> (docLit $ Text.pack "(", docLit $ Text.pack ")")
@ -385,8 +385,6 @@ layoutExpr lexpr@(L _ expr) = do
end = closeLit
in docSetBaseY $ docLines $ [start] ++ linesM ++ [lineN] ++ [end]
]
ExplicitTuple{} ->
unknownNodeError "ExplicitTuple|.." lexpr
HsCase cExp (MG lmatches@(L _ matches) _ _ _) -> do
cExpDoc <- docSharedWrapper layoutExpr cExp
binderDoc <- docLit $ Text.pack "->"

30
src/Language/Haskell/Brittany/Internal/Layouters/Pattern.hs
View File

@ -24,12 +24,26 @@ import Language.Haskell.Brittany.Internal.Layouters.Type
-- | layouts patterns (inside function bindings, case alternatives, let
-- bindings or do notation). E.g. for input
-- > case computation of
-- > (warnings, Success a b) -> ..
-- This part ^^^^^^^^^^^^^^^^^^^^^^^ of the syntax tree is layouted by
-- 'layoutPat'. Similarly for
-- > func abc True 0 = []
-- ^^^^^^^^^^ this part
-- We will use `case .. of` as the imagined prefix to the examples used in
-- the different cases below.
layoutPat :: ToBriDocC (Pat RdrName) (Seq BriDocNumbered)
layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
WildPat _ -> fmap Seq.singleton $ docLit $ Text.pack "_"
-- _ -> expr
VarPat n -> fmap Seq.singleton $ docLit $ lrdrNameToText n
-- abc -> expr
LitPat lit -> fmap Seq.singleton $ allocateNode $ litBriDoc lit
-- 0 -> expr
ParPat inner -> do
-- (nestedpat) -> expr
left <- docLit $ Text.pack "("
right <- docLit $ Text.pack ")"
innerDocs <- colsWrapPat =<< layoutPat inner
@ -49,6 +63,7 @@ layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
-- xN' <- docSeq [return xN, docLit $ Text.pack ")"]
-- return $ (x1' Seq.<| middle) Seq.|> xN'
ConPatIn lname (PrefixCon args) -> do
-- Abc a b c -> expr
let nameDoc = lrdrNameToText lname
argDocs <- layoutPat `mapM` args
if null argDocs
@ -61,15 +76,19 @@ layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
$ fmap colsWrapPat argDocs
return $ x1 Seq.<| xR
ConPatIn lname (InfixCon left right) -> do
-- a :< b -> expr
let nameDoc = lrdrNameToText lname
leftDoc <- colsWrapPat =<< layoutPat left
rightDoc <- colsWrapPat =<< layoutPat right
middle <- docLit nameDoc
return $ Seq.empty Seq.|> leftDoc Seq.|> middle Seq.|> rightDoc
ConPatIn lname (RecCon (HsRecFields [] Nothing)) -> do
-- Abc{} -> expr
let t = lrdrNameToText lname
fmap Seq.singleton $ docLit $ t <> Text.pack "{}"
ConPatIn lname (RecCon (HsRecFields fs@(_:_) Nothing)) -> do
-- Abc { a = locA, b = locB, c = locC } -> expr1
-- Abc { a, b, c } -> expr2
let t = lrdrNameToText lname
fds <- fs `forM` \(L _ (HsRecField (L _ (FieldOcc lnameF _)) fPat pun)) -> do
fExpDoc <- if pun
@ -91,12 +110,14 @@ layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
, docLit $ Text.pack "}"
]
ConPatIn lname (RecCon (HsRecFields [] (Just 0))) -> do
-- Abc { .. } -> expr
let t = lrdrNameToText lname
fmap Seq.singleton $ docSeq
[ appSep $ docLit t
, docLit $ Text.pack "{..}"
]
ConPatIn lname (RecCon (HsRecFields fs@(_:_) (Just dotdoti))) | dotdoti == length fs -> do
-- Abc { a = locA, .. }
let t = lrdrNameToText lname
fds <- fs `forM` \(L _ (HsRecField (L _ (FieldOcc lnameF _)) fPat pun)) -> do
fExpDoc <- if pun
@ -117,16 +138,20 @@ layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
, docLit $ Text.pack "..}"
]
TuplePat args boxity _ -> do
-- (nestedpat1, nestedpat2, nestedpat3) -> expr
-- (#nestedpat1, nestedpat2, nestedpat3#) -> expr
case boxity of
Boxed -> wrapPatListy args "(" ")"
Unboxed -> wrapPatListy args "(#" "#)"
AsPat asName asPat -> do
-- bind@nestedpat -> expr
wrapPatPrepend asPat (docLit $ lrdrNameToText asName <> Text.pack "@")
#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
SigPatIn pat1 (HsWC _ (HsIB _ ty1 _)) -> do
#else /* ghc-8.0 */
SigPatIn pat1 (HsIB _ (HsWC _ _ ty1)) -> do
#endif
-- i :: Int -> expr
patDocs <- layoutPat pat1
tyDoc <- docSharedWrapper layoutType ty1
case Seq.viewr patDocs of
@ -146,12 +171,17 @@ layoutPat lpat@(L _ pat) = docWrapNode lpat $ case pat of
]
return $ xR Seq.|> xN'
ListPat elems _ _ ->
-- [] -> expr1
-- [nestedpat1, nestedpat2, nestedpat3] -> expr2
wrapPatListy elems "[" "]"
BangPat pat1 -> do
-- !nestedpat -> expr
wrapPatPrepend pat1 (docLit $ Text.pack "!")
LazyPat pat1 -> do
-- ~nestedpat -> expr
wrapPatPrepend pat1 (docLit $ Text.pack "~")
NPat llit@(L _ (OverLit olit _ _ _)) mNegative _ _ -> do
-- -13 -> expr
litDoc <- docWrapNode llit $ allocateNode $ overLitValBriDoc olit
negDoc <- docLit $ Text.pack "-"
pure $ case mNegative of