1148 lines
43 KiB
Haskell
1148 lines
43 KiB
Haskell
{-# LANGUAGE DataKinds #-}
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module Language.Haskell.Brittany.Internal.Layouters.Expr
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( layoutExpr
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, litBriDoc
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, overLitValBriDoc
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)
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where
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#include "prelude.inc"
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import Language.Haskell.Brittany.Internal.Types
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import Language.Haskell.Brittany.Internal.LayouterBasics
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import Language.Haskell.Brittany.Internal.Config.Types
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import RdrName ( RdrName(..) )
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import GHC ( runGhc, GenLocated(L), moduleNameString, AnnKeywordId(..) )
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import HsSyn
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import Name
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import qualified FastString
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import BasicTypes
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import Language.Haskell.Brittany.Internal.Utils
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import Language.Haskell.Brittany.Internal.Layouters.Pattern
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import Language.Haskell.Brittany.Internal.Layouters.Decl
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import Language.Haskell.Brittany.Internal.Layouters.Stmt
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import Language.Haskell.Brittany.Internal.Layouters.Type
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layoutExpr :: ToBriDoc HsExpr
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layoutExpr lexpr@(L _ expr) = do
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indentPolicy <- mAsk
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<&> _conf_layout
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.> _lconfig_indentPolicy
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.> confUnpack
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let allowFreeIndent = indentPolicy == IndentPolicyFree
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docWrapNode lexpr $ case expr of
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HsVar vname -> do
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docLit =<< lrdrNameToTextAnn vname
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HsUnboundVar var -> case var of
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OutOfScope oname _ -> docLit $ Text.pack $ occNameString oname
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TrueExprHole oname -> docLit $ Text.pack $ occNameString oname
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HsRecFld{} -> do
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-- TODO
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briDocByExactInlineOnly "HsRecFld" lexpr
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HsOverLabel{} -> do
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-- TODO
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briDocByExactInlineOnly "HsOverLabel{}" lexpr
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HsIPVar{} -> do
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-- TODO
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briDocByExactInlineOnly "HsOverLabel{}" lexpr
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HsOverLit (OverLit olit _ _ _) -> do
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allocateNode $ overLitValBriDoc olit
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HsLit lit -> do
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allocateNode $ litBriDoc lit
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HsLam (MG (L _ [lmatch@(L _ (Match _ pats _ (GRHSs [lgrhs@(L _ (GRHS [] body))] (L _ EmptyLocalBinds))))]) _ _ _) -> do
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patDocs <- pats `forM` \p -> fmap return $ colsWrapPat =<< layoutPat p
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bodyDoc <- docAddBaseY BrIndentRegular <$> docSharedWrapper layoutExpr body
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let funcPatternPartLine =
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docCols ColCasePattern
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$ (patDocs <&> (\p -> docSeq [docForceSingleline p, docSeparator]))
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docAlt
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[ -- single line
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docSeq
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[ docLit $ Text.pack "\\"
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, docWrapNode lmatch $ docForceSingleline funcPatternPartLine
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, appSep $ docLit $ Text.pack "->"
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, docWrapNode lgrhs $ docForceSingleline bodyDoc
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]
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-- double line
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, docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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(docSeq
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[ docLit $ Text.pack "\\"
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, docWrapNode lmatch $ appSep $ docForceSingleline funcPatternPartLine
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, docLit $ Text.pack "->"
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])
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(docWrapNode lgrhs $ docForceSingleline bodyDoc)
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-- wrapped par spacing
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, docSetParSpacing
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$ docSeq
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[ docLit $ Text.pack "\\"
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, docWrapNode lmatch $ docForceSingleline funcPatternPartLine
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, appSep $ docLit $ Text.pack "->"
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, docWrapNode lgrhs $ docForceParSpacing bodyDoc
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]
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-- conservative
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, docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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(docSeq
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[ docLit $ Text.pack "\\"
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, docWrapNode lmatch $ appSep $ docForceSingleline funcPatternPartLine
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, docLit $ Text.pack "->"
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])
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(docWrapNode lgrhs $ docNonBottomSpacing bodyDoc)
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]
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HsLam{} ->
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unknownNodeError "HsLam too complex" lexpr
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#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
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HsLamCase (MG lmatches@(L _ matches) _ _ _) -> do
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#else /* ghc-8.0 */
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HsLamCase _ (MG lmatches@(L _ matches) _ _ _) -> do
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#endif
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binderDoc <- docLit $ Text.pack "->"
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funcPatDocs <- docWrapNode lmatches $ layoutPatternBind Nothing binderDoc `mapM` matches
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docSetParSpacing $ docAddBaseY BrIndentRegular $ docPar
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(docLit $ Text.pack "\\case")
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(docSetBaseAndIndent $ docNonBottomSpacing $ docLines $ return <$> funcPatDocs)
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HsApp exp1@(L _ HsApp{}) exp2 -> do
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let gather :: [LHsExpr RdrName] -> LHsExpr RdrName -> (LHsExpr RdrName, [LHsExpr RdrName])
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gather list = \case
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(L _ (HsApp l r)) -> gather (r:list) l
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x -> (x, list)
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let (headE, paramEs) = gather [exp2] exp1
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let colsOrSequence = case headE of
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L _ (HsVar (L _ (Unqual occname))) ->
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docCols (ColApp $ Text.pack $ occNameString occname)
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_ -> docSeq
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headDoc <- docSharedWrapper layoutExpr headE
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paramDocs <- docSharedWrapper layoutExpr `mapM` paramEs
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docAltFilter
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[ -- foo x y
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( True
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, colsOrSequence
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$ appSep (docForceSingleline headDoc)
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: spacifyDocs (docForceSingleline <$> paramDocs)
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)
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, -- foo x
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-- y
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( allowFreeIndent
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, docSeq
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[ appSep (docForceSingleline headDoc)
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, docSetBaseY
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$ docAddBaseY BrIndentRegular
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$ docLines
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$ (docForceSingleline <$> paramDocs)
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]
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)
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, -- foo
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-- x
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-- y
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( True
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, docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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(docForceSingleline headDoc)
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( docNonBottomSpacing
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$ docLines paramDocs
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)
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)
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, -- ( multi
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-- line
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-- function
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-- )
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-- x
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-- y
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( True
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, docAddBaseY BrIndentRegular
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$ docPar
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headDoc
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( docNonBottomSpacing
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$ docLines paramDocs
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)
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)
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]
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HsApp exp1 exp2 -> do
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-- TODO: if expDoc1 is some literal, we may want to create a docCols here.
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expDoc1 <- docSharedWrapper layoutExpr exp1
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expDoc2 <- docSharedWrapper layoutExpr exp2
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docAlt
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[ -- func arg
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docSeq [appSep $ docForceSingleline expDoc1, docForceSingleline expDoc2]
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, -- func argline1
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-- arglines
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-- e.g.
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-- func if x
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-- then 1
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-- else 2
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docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docSeq
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[ appSep $ docForceSingleline expDoc1
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, docForceParSpacing expDoc2
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]
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, -- func
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-- arg
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docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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(docForceSingleline expDoc1)
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(docNonBottomSpacing expDoc2)
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, -- fu
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-- nc
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-- ar
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-- gument
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docAddBaseY BrIndentRegular
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$ docPar
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expDoc1
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expDoc2
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]
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#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
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HsAppType exp1 (HsWC _ ty1) -> do
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#else /* ghc-8.0 */
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HsAppType exp1 (HsWC _ _ ty1) -> do
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#endif
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t <- docSharedWrapper layoutType ty1
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e <- docSharedWrapper layoutExpr exp1
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docAlt
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[ docSeq
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[ docForceSingleline e
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, docSeparator
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, docLit $ Text.pack "@"
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, docForceSingleline t
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]
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, docPar
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e
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(docSeq [docLit $ Text.pack "@", t ])
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]
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HsAppTypeOut{} -> do
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-- TODO
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briDocByExactInlineOnly "HsAppTypeOut{}" lexpr
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OpApp expLeft@(L _ OpApp{}) expOp _ expRight -> do
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let gather :: [(LHsExpr RdrName, LHsExpr RdrName)] -> LHsExpr RdrName -> (LHsExpr RdrName, [(LHsExpr RdrName, LHsExpr RdrName)])
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gather opExprList = \case
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(L _ (OpApp l1 op1 _ r1)) -> gather ((op1, r1): opExprList) l1
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final -> (final, opExprList)
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(leftOperand, appList) = gather [] expLeft
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leftOperandDoc <- docSharedWrapper layoutExpr leftOperand
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appListDocs <- appList `forM` \(x,y) -> [ (xD, yD)
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| xD <- docSharedWrapper layoutExpr x
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, yD <- docSharedWrapper layoutExpr y
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]
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opLastDoc <- docSharedWrapper layoutExpr expOp
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expLastDoc <- docSharedWrapper layoutExpr expRight
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hasComments <- hasAnyCommentsBelow lexpr
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let allowPar = case (expOp, expRight) of
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(L _ (HsVar (L _ (Unqual occname))), _)
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| occNameString occname == "$" -> True
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(_, L _ (HsApp _ (L _ HsVar{}))) -> False
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_ -> True
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docAltFilter
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[ ( not hasComments
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, docSeq
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[ appSep $ docForceSingleline leftOperandDoc
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, docSeq
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$ (appListDocs <&> \(od, ed) -> docSeq
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[ appSep $ docForceSingleline od
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, appSep $ docForceSingleline ed
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]
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)
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, appSep $ docForceSingleline opLastDoc
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, (if allowPar then docForceParSpacing else docForceSingleline)
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expLastDoc
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]
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)
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-- this case rather leads to some unfortunate layouting than to anything
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-- useful; disabling for now. (it interfers with cols stuff.)
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-- , docSetBaseY
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-- - $ docPar
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-- leftOperandDoc
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-- ( docLines
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-- - $ (appListDocs <&> \(od, ed) -> docCols ColOpPrefix [appSep od, docSetBaseY ed])
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-- ++ [docCols ColOpPrefix [appSep opLastDoc, docSetBaseY expLastDoc]]
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-- )
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, (otherwise
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, docPar
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leftOperandDoc
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( docLines
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$ (appListDocs <&> \(od, ed) -> docCols ColOpPrefix [appSep od, docSetBaseY ed])
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++ [docCols ColOpPrefix [appSep opLastDoc, docSetBaseY expLastDoc]]
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)
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)
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]
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OpApp expLeft expOp _ expRight -> do
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expDocLeft <- docSharedWrapper layoutExpr expLeft
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expDocOp <- docSharedWrapper layoutExpr expOp
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expDocRight <- docSharedWrapper layoutExpr expRight
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let allowPar = case (expOp, expRight) of
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(L _ (HsVar (L _ (Unqual occname))), _)
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| occNameString occname == "$" -> True
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(_, L _ (HsApp _ (L _ HsVar{}))) -> False
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_ -> True
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docAltFilter
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$ [ -- one-line
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(,) True
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$ docSeq
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[ appSep $ docForceSingleline expDocLeft
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, appSep $ docForceSingleline expDocOp
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, docForceSingleline expDocRight
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]
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-- , -- line + freely indented block for right expression
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-- docSeq
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-- [ appSep $ docForceSingleline expDocLeft
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-- , appSep $ docForceSingleline expDocOp
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-- , docSetBaseY $ docAddBaseY BrIndentRegular expDocRight
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-- ]
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, -- two-line
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(,) True
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$ docAddBaseY BrIndentRegular
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$ docPar
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expDocLeft
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( docForceSingleline
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$ docCols ColOpPrefix [appSep $ expDocOp, docSetBaseY expDocRight]
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)
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, -- one-line + par
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(,) allowPar
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$ docSeq
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[ appSep $ docForceSingleline expDocLeft
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, appSep $ docForceSingleline expDocOp
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, docForceParSpacing expDocRight
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]
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, -- more lines
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(,) True
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$ docAddBaseY BrIndentRegular
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$ docPar
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expDocLeft
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(docCols ColOpPrefix [appSep $ expDocOp, docSetBaseY expDocRight])
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]
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NegApp op _ -> do
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opDoc <- docSharedWrapper layoutExpr op
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docSeq $ [ docLit $ Text.pack "-"
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, opDoc
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]
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HsPar innerExp -> do
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innerExpDoc <- docSharedWrapper layoutExpr innerExp
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docAlt
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[ docSeq
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[ docLit $ Text.pack "("
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, docForceSingleline innerExpDoc
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, docLit $ Text.pack ")"
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]
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, docSetBaseY $ docLines
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[ docCols ColOpPrefix
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[ docLit $ Text.pack "("
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, docAddBaseY (BrIndentSpecial 2) innerExpDoc
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]
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, docLit $ Text.pack ")"
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]
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]
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SectionL left op -> do -- TODO: add to testsuite
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leftDoc <- docSharedWrapper layoutExpr left
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opDoc <- docSharedWrapper layoutExpr op
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docSeq [leftDoc, docSeparator, opDoc]
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SectionR op right -> do -- TODO: add to testsuite
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opDoc <- docSharedWrapper layoutExpr op
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rightDoc <- docSharedWrapper layoutExpr right
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docSeq [opDoc, docSeparator, rightDoc]
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ExplicitTuple args boxity -> do
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let argExprs = args <&> \arg -> case arg of
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(L _ (Present e)) -> (arg, Just e);
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(L _ (Missing PlaceHolder)) -> (arg, Nothing)
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argDocs <- forM argExprs
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$ docSharedWrapper
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$ \(arg, exprM) -> docWrapNode arg $ maybe docEmpty layoutExpr exprM
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hasComments <- hasAnyCommentsBelow lexpr
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let (openLit, closeLit) = case boxity of
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Boxed -> (docLit $ Text.pack "(", docLit $ Text.pack ")")
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Unboxed -> (docLit $ Text.pack "(#", docLit $ Text.pack "#)")
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case splitFirstLast argDocs of
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FirstLastEmpty -> docSeq
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[ openLit
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, docNodeAnnKW lexpr (Just AnnOpenP) $ closeLit
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]
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FirstLastSingleton e -> docAlt
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[ docCols ColTuple
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[ openLit
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, docNodeAnnKW lexpr (Just AnnOpenP) $ docForceSingleline e
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, closeLit
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]
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, docSetBaseY $ docLines
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[ docSeq
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[ openLit
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, docNodeAnnKW lexpr (Just AnnOpenP) $ docForceSingleline e
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]
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, closeLit
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]
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]
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FirstLast e1 ems eN ->
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docAltFilter
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[ (,) (not hasComments)
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$ docCols ColTuple
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( [docSeq [openLit, docForceSingleline e1]]
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++ (ems <&> \e -> docSeq [docCommaSep, docForceSingleline e])
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++ [docSeq [docCommaSep, docNodeAnnKW lexpr (Just AnnOpenP) (docForceSingleline eN), closeLit]]
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)
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, (,) True
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$ let
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start = docCols ColTuples
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[appSep $ openLit, e1]
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linesM = ems <&> \d ->
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docCols ColTuples [docCommaSep, d]
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lineN = docCols ColTuples [docCommaSep, docNodeAnnKW lexpr (Just AnnOpenP) eN]
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end = closeLit
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in docSetBaseY $ docLines $ [start] ++ linesM ++ [lineN] ++ [end]
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]
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HsCase cExp (MG lmatches@(L _ matches) _ _ _) -> do
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cExpDoc <- docSharedWrapper layoutExpr cExp
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binderDoc <- docLit $ Text.pack "->"
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funcPatDocs <- docWrapNode lmatches $ layoutPatternBind Nothing binderDoc `mapM` matches
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docAlt
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[ docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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( docSeq
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[ appSep $ docLit $ Text.pack "case"
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, appSep $ docForceSingleline cExpDoc
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, docLit $ Text.pack "of"
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])
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(docSetBaseAndIndent $ docNonBottomSpacing $ docLines $ return <$> funcPatDocs)
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, docPar
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( docAddBaseY BrIndentRegular
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$ docPar (docLit $ Text.pack "case") cExpDoc
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)
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( docAddBaseY BrIndentRegular
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$ docPar (docLit $ Text.pack "of")
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(docSetBaseAndIndent $ docNonBottomSpacing $ docLines $ return <$> funcPatDocs)
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)
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]
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HsIf _ ifExpr thenExpr elseExpr -> do
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ifExprDoc <- docSharedWrapper layoutExpr ifExpr
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thenExprDoc <- docSharedWrapper layoutExpr thenExpr
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elseExprDoc <- docSharedWrapper layoutExpr elseExpr
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hasComments <- hasAnyCommentsBelow lexpr
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let maySpecialIndent =
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case indentPolicy of
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IndentPolicyLeft -> BrIndentRegular
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_ -> BrIndentSpecial 3
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-- TODO: some of the alternatives (especially last and last-but-one)
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-- overlap.
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docAltFilter
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[ -- if _ then _ else _
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(,) (not hasComments)
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$ docSeq
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[ appSep $ docLit $ Text.pack "if"
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, appSep $ docForceSingleline ifExprDoc
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, appSep $ docLit $ Text.pack "then"
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, appSep $ docForceSingleline thenExprDoc
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, appSep $ docLit $ Text.pack "else"
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, docForceSingleline elseExprDoc
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]
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, -- either
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-- if expr
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-- then foo
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-- bar
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-- else foo
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-- bar
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-- or
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-- if expr
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-- then
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-- stuff
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-- else
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-- stuff
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-- note that this has par-spacing
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(,) True
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$ docSetParSpacing
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$ docAddBaseY BrIndentRegular
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$ docPar
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( docSeq
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[ docNodeAnnKW lexpr Nothing $ appSep $ docLit $ Text.pack "if"
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, docNodeAnnKW lexpr (Just AnnIf) $ docForceSingleline ifExprDoc
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])
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(docLines
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[ docAddBaseY BrIndentRegular
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$ docNodeAnnKW lexpr (Just AnnThen)
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$ docAlt
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[ docSeq [appSep $ docLit $ Text.pack "then", docForceParSpacing thenExprDoc]
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, docAddBaseY BrIndentRegular
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$ docPar (docLit $ Text.pack "then") thenExprDoc
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]
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, docAddBaseY BrIndentRegular
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$ docAlt
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[ docSeq [appSep $ docLit $ Text.pack "else", docForceParSpacing elseExprDoc]
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, docAddBaseY BrIndentRegular
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$ docPar (docLit $ Text.pack "else") elseExprDoc
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]
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])
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, -- either
|
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-- if multi
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-- line
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-- condition
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-- then foo
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-- bar
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-- else foo
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-- bar
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-- or
|
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-- if multi
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-- line
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-- condition
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-- then
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-- stuff
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-- else
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-- stuff
|
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-- note that this does _not_ have par-spacing
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(,) True
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$ docAddBaseY BrIndentRegular
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$ docPar
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( docAddBaseY maySpecialIndent
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|
$ docSeq
|
|
[ docNodeAnnKW lexpr Nothing $ appSep $ docLit $ Text.pack "if"
|
|
, docNodeAnnKW lexpr (Just AnnIf) $ ifExprDoc
|
|
])
|
|
(docLines
|
|
[ docAddBaseY BrIndentRegular
|
|
$ docNodeAnnKW lexpr (Just AnnThen)
|
|
$ docAlt
|
|
[ docSeq [appSep $ docLit $ Text.pack "then", docForceParSpacing thenExprDoc]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "then") thenExprDoc
|
|
]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docAlt
|
|
[ docSeq [appSep $ docLit $ Text.pack "else", docForceParSpacing elseExprDoc]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "else") elseExprDoc
|
|
]
|
|
])
|
|
, (,) True
|
|
$ docSetBaseY
|
|
$ docLines
|
|
[ docAddBaseY maySpecialIndent
|
|
$ docSeq
|
|
[ docNodeAnnKW lexpr Nothing $ appSep $ docLit $ Text.pack "if"
|
|
, docNodeAnnKW lexpr (Just AnnIf) $ ifExprDoc
|
|
]
|
|
, docNodeAnnKW lexpr (Just AnnThen)
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "then") thenExprDoc
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "else") elseExprDoc
|
|
]
|
|
]
|
|
HsMultiIf _ cases -> do
|
|
clauseDocs <- cases `forM` layoutGrhs
|
|
binderDoc <- docLit $ Text.pack "->"
|
|
hasComments <- hasAnyCommentsBelow lexpr
|
|
docSetParSpacing $ docAddBaseY BrIndentRegular $ docPar
|
|
(docLit $ Text.pack "if")
|
|
(layoutPatternBindFinal Nothing binderDoc Nothing clauseDocs Nothing hasComments)
|
|
HsLet binds exp1 -> do
|
|
expDoc1 <- docSharedWrapper layoutExpr exp1
|
|
mBindDocs <- layoutLocalBinds binds
|
|
let
|
|
ifIndentLeftElse :: a -> a -> a
|
|
ifIndentLeftElse x y =
|
|
if indentPolicy == IndentPolicyLeft then x else y
|
|
-- this `docSetBaseAndIndent` might seem out of place (especially the
|
|
-- Indent part; setBase is necessary due to the use of docLines below),
|
|
-- but is here due to ghc-exactprint's DP handling of "let" in
|
|
-- particular.
|
|
-- Just pushing another indentation level is a straightforward approach
|
|
-- to making brittany idempotent, even though the result is non-optimal
|
|
-- if "let" is moved horizontally as part of the transformation, as the
|
|
-- comments before the first let item are moved horizontally with it.
|
|
docSetBaseAndIndent $ case mBindDocs of
|
|
Just [bindDoc] -> docAlt
|
|
[ docSeq
|
|
[ appSep $ docLit $ Text.pack "let"
|
|
, appSep $ docForceSingleline $ return bindDoc
|
|
, appSep $ docLit $ Text.pack "in"
|
|
, docForceSingleline $ expDoc1
|
|
]
|
|
, docLines
|
|
[ docAlt
|
|
[ docSeq
|
|
[ appSep $ docLit $ Text.pack "let"
|
|
, ifIndentLeftElse docForceSingleline docSetBaseAndIndent
|
|
$ return bindDoc
|
|
]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "let")
|
|
(docSetBaseAndIndent $ return bindDoc)
|
|
]
|
|
, docAlt
|
|
[ docSeq
|
|
[ appSep $ docLit $ Text.pack $ ifIndentLeftElse "in" "in "
|
|
, ifIndentLeftElse docForceSingleline docSetBaseAndIndent expDoc1
|
|
]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "in")
|
|
(docSetBaseY $ expDoc1)
|
|
]
|
|
]
|
|
]
|
|
Just bindDocs@(_:_) -> docAltFilter
|
|
--either
|
|
-- let
|
|
-- a = b
|
|
-- c = d
|
|
-- in foo
|
|
-- bar
|
|
-- baz
|
|
--or
|
|
-- let
|
|
-- a = b
|
|
-- c = d
|
|
-- in
|
|
-- fooooooooooooooooooo
|
|
[ ( indentPolicy == IndentPolicyLeft
|
|
, docLines
|
|
[ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "let")
|
|
(docSetBaseAndIndent $ docLines $ return <$> bindDocs)
|
|
, docSeq
|
|
[ docLit $ Text.pack "in "
|
|
, docAddBaseY BrIndentRegular $ expDoc1
|
|
]
|
|
]
|
|
)
|
|
, ( indentPolicy /= IndentPolicyLeft
|
|
, docLines
|
|
[ docSeq
|
|
[ appSep $ docLit $ Text.pack "let"
|
|
, docSetBaseAndIndent $ docLines $ return <$> bindDocs
|
|
]
|
|
, docSeq
|
|
[ appSep $ docLit $ Text.pack "in "
|
|
, docSetBaseY $ expDoc1
|
|
]
|
|
]
|
|
)
|
|
, ( True
|
|
, docLines
|
|
[ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "let")
|
|
(docSetBaseAndIndent $ docLines $ return <$> bindDocs)
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "in")
|
|
(docSetBaseY $ expDoc1)
|
|
]
|
|
)
|
|
]
|
|
_ -> docSeq [appSep $ docLit $ Text.pack "let in", expDoc1]
|
|
-- docSeq [appSep $ docLit "let in", expDoc1]
|
|
HsDo DoExpr (L _ stmts) _ -> do
|
|
stmtDocs <- docSharedWrapper layoutStmt `mapM` stmts
|
|
docSetParSpacing
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "do")
|
|
(docSetBaseAndIndent $ docNonBottomSpacing $ docLines stmtDocs)
|
|
HsDo MDoExpr (L _ stmts) _ -> do
|
|
stmtDocs <- docSharedWrapper layoutStmt `mapM` stmts
|
|
docSetParSpacing
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docLit $ Text.pack "mdo")
|
|
(docSetBaseAndIndent $ docNonBottomSpacing $ docLines stmtDocs)
|
|
HsDo x (L _ stmts) _ | case x of { ListComp -> True
|
|
; MonadComp -> True
|
|
; _ -> False } -> do
|
|
stmtDocs <- docSharedWrapper layoutStmt `mapM` stmts
|
|
hasComments <- hasAnyCommentsBelow lexpr
|
|
docAltFilter
|
|
[ (,) (not hasComments)
|
|
$ docSeq
|
|
[ docNodeAnnKW lexpr Nothing
|
|
$ appSep
|
|
$ docLit
|
|
$ Text.pack "["
|
|
, docNodeAnnKW lexpr (Just AnnOpenS)
|
|
$ appSep
|
|
$ docForceSingleline
|
|
$ List.last stmtDocs
|
|
, appSep $ docLit $ Text.pack "|"
|
|
, docSeq $ List.intersperse docCommaSep
|
|
$ fmap docForceSingleline $ List.init stmtDocs
|
|
, docLit $ Text.pack " ]"
|
|
]
|
|
, (,) True
|
|
$ let
|
|
start = docCols ColListComp
|
|
[ docNodeAnnKW lexpr Nothing
|
|
$ appSep $ docLit $ Text.pack "["
|
|
, docSetBaseY
|
|
$ docNodeAnnKW lexpr (Just AnnOpenS)
|
|
$ List.last stmtDocs
|
|
]
|
|
(s1:sM) = List.init stmtDocs
|
|
line1 = docCols ColListComp
|
|
[appSep $ docLit $ Text.pack "|", s1]
|
|
lineM = sM <&> \d ->
|
|
docCols ColListComp [docCommaSep, d]
|
|
end = docLit $ Text.pack "]"
|
|
in docSetBaseY $ docLines $ [start, line1] ++ lineM ++ [end]
|
|
]
|
|
HsDo{} -> do
|
|
-- TODO
|
|
unknownNodeError "HsDo{} no comp" lexpr
|
|
ExplicitList _ _ elems@(_:_) -> do
|
|
elemDocs <- elems `forM` docSharedWrapper layoutExpr
|
|
hasComments <- hasAnyCommentsBelow lexpr
|
|
case splitFirstLast elemDocs of
|
|
FirstLastEmpty -> docSeq
|
|
[ docLit $ Text.pack "["
|
|
, docNodeAnnKW lexpr (Just AnnOpenS) $ docLit $ Text.pack "]"
|
|
]
|
|
FirstLastSingleton e -> docAlt
|
|
[ docSeq
|
|
[ docLit $ Text.pack "["
|
|
, docNodeAnnKW lexpr (Just AnnOpenS) $ docForceSingleline e
|
|
, docLit $ Text.pack "]"
|
|
]
|
|
, docSetBaseY $ docLines
|
|
[ docSeq
|
|
[ docLit $ Text.pack "["
|
|
, docSeparator
|
|
, docSetBaseY $ docNodeAnnKW lexpr (Just AnnOpenS) $ e
|
|
]
|
|
, docLit $ Text.pack "]"
|
|
]
|
|
]
|
|
FirstLast e1 ems eN ->
|
|
docAltFilter
|
|
[ (,) (not hasComments)
|
|
$ docSeq
|
|
$ [docLit $ Text.pack "["]
|
|
++ List.intersperse docCommaSep (docForceSingleline <$> (e1:ems ++ [docNodeAnnKW lexpr (Just AnnOpenS) eN]))
|
|
++ [docLit $ Text.pack "]"]
|
|
, (,) True
|
|
$ let
|
|
start = docCols ColList
|
|
[appSep $ docLit $ Text.pack "[", e1]
|
|
linesM = ems <&> \d ->
|
|
docCols ColList [docCommaSep, d]
|
|
lineN = docCols ColList [docCommaSep, docNodeAnnKW lexpr (Just AnnOpenS) eN]
|
|
end = docLit $ Text.pack "]"
|
|
in docSetBaseY $ docLines $ [start] ++ linesM ++ [lineN] ++ [end]
|
|
]
|
|
ExplicitList _ _ [] ->
|
|
docLit $ Text.pack "[]"
|
|
ExplicitPArr{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "ExplicitPArr{}" lexpr
|
|
RecordCon lname _ _ (HsRecFields [] Nothing) -> do
|
|
let t = lrdrNameToText lname
|
|
docWrapNode lname $ docSeq
|
|
[ docNodeAnnKW lexpr (Just AnnOpenC) $ docLit $ t <> Text.pack "{"
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
RecordCon lname _ _ (HsRecFields fs@(_:_) Nothing) -> do
|
|
-- TODO: the layouter for RecordUpd is slightly more clever. Should
|
|
-- probably copy the approach from there.
|
|
let nameDoc = docWrapNode lname $ docLit $ lrdrNameToText lname
|
|
((fd1l, fd1n, fd1e):fdr) <- fs `forM` \fieldl@(L _ (HsRecField (L _ (FieldOcc lnameF _)) fExpr pun)) -> do
|
|
fExpDoc <- if pun
|
|
then return Nothing
|
|
else Just <$> docSharedWrapper layoutExpr fExpr
|
|
return $ (fieldl, lrdrNameToText lnameF, fExpDoc)
|
|
let line1 appender wrapper =
|
|
[ appender $ docLit $ Text.pack "{"
|
|
, docWrapNodePrior fd1l $ appSep $ docLit $ fd1n
|
|
, case fd1e of
|
|
Just x -> docSeq
|
|
[ appSep $ docLit $ Text.pack "="
|
|
, docWrapNodeRest fd1l $ wrapper $ x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
let lineR wrapper = fdr <&> \(lfield, fText, fDoc) ->
|
|
[ docCommaSep
|
|
, appSep $ docLit $ fText
|
|
, case fDoc of
|
|
Just x -> docWrapNode lfield $ docSeq
|
|
[ appSep $ docLit $ Text.pack "="
|
|
, wrapper x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
let lineN =
|
|
[ docNodeAnnKW lexpr (Just AnnOpenC) docEmpty
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
docAlt
|
|
[ docSeq
|
|
$ [docNodeAnnKW lexpr Nothing $ nameDoc, docSeparator]
|
|
++ line1 id docForceSingleline
|
|
++ join (lineR docForceSingleline)
|
|
++ lineN
|
|
, docSetParSpacing
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docNodeAnnKW lexpr Nothing $ nameDoc)
|
|
( docNonBottomSpacing
|
|
$ docLines
|
|
$ [docCols ColRecUpdate $ line1 appSep (docAddBaseY BrIndentRegular)]
|
|
++ (docCols ColRecUpdate <$> lineR (docAddBaseY BrIndentRegular))
|
|
++ [docSeq lineN]
|
|
)
|
|
]
|
|
RecordCon lname _ _ (HsRecFields [] (Just 0)) -> do
|
|
let t = lrdrNameToText lname
|
|
docWrapNode lname $ docLit $ t <> Text.pack " {..}"
|
|
RecordCon lname _ _ (HsRecFields fs@(_:_) (Just dotdoti)) | dotdoti == length fs -> do
|
|
let nameDoc = docWrapNode lname $ docLit $ lrdrNameToText lname
|
|
((fd1l, fd1n, fd1e):fdr) <- fs `forM` \fieldl@(L _ (HsRecField (L _ (FieldOcc lnameF _)) fExpr pun)) -> do
|
|
fExpDoc <- if pun
|
|
then return Nothing
|
|
else Just <$> docSharedWrapper layoutExpr fExpr
|
|
return $ (fieldl, lrdrNameToText lnameF, fExpDoc)
|
|
let line1 appender wrapper =
|
|
[ appender $ docLit $ Text.pack "{"
|
|
, docWrapNodePrior fd1l $ appSep $ docLit $ fd1n
|
|
, case fd1e of
|
|
Just x -> docSeq
|
|
[ appSep $ docLit $ Text.pack "="
|
|
, docWrapNodeRest fd1l $ wrapper $ x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
let lineR wrapper = fdr <&> \(lfield, fText, fDoc) ->
|
|
[ docCommaSep
|
|
, appSep $ docLit $ fText
|
|
, case fDoc of
|
|
Just x -> docWrapNode lfield $ docSeq
|
|
[ appSep $ docLit $ Text.pack "="
|
|
, wrapper x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
let lineDot =
|
|
[ docCommaSep
|
|
, docLit $ Text.pack ".."
|
|
]
|
|
let lineN =
|
|
[ docNodeAnnKW lexpr (Just AnnOpenC) docEmpty
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
docAlt
|
|
[ docSeq
|
|
$ [docNodeAnnKW lexpr Nothing $ nameDoc, docSeparator]
|
|
++ line1 id docForceSingleline
|
|
++ join (lineR docForceSingleline)
|
|
++ lineDot
|
|
++ lineN
|
|
, docSetParSpacing
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docNodeAnnKW lexpr Nothing $ nameDoc)
|
|
( docNonBottomSpacing
|
|
$ docLines
|
|
$ [docCols ColRecUpdate $ line1 appSep (docAddBaseY BrIndentRegular)]
|
|
++ (docCols ColRecUpdate <$> lineR (docAddBaseY BrIndentRegular))
|
|
++ [docSeq lineDot, docSeq lineN]
|
|
)
|
|
]
|
|
RecordCon{} ->
|
|
unknownNodeError "RecordCon with puns" lexpr
|
|
RecordUpd rExpr [] _ _ _ _ -> do
|
|
rExprDoc <- docSharedWrapper layoutExpr rExpr
|
|
docSeq [rExprDoc, docLit $ Text.pack "{}"]
|
|
RecordUpd rExpr fields@(_:_) _ _ _ _ -> do
|
|
rExprDoc <- docSharedWrapper layoutExpr rExpr
|
|
rFs@((rF1f, rF1n, rF1e):rFr) <- fields
|
|
`forM` \lfield@(L _ (HsRecField (L _ ambName) rFExpr pun)) -> do
|
|
rFExpDoc <- if pun
|
|
then return Nothing
|
|
else Just <$> docSharedWrapper layoutExpr rFExpr
|
|
return $ case ambName of
|
|
Unambiguous n _ -> (lfield, lrdrNameToText n, rFExpDoc)
|
|
Ambiguous n _ -> (lfield, lrdrNameToText n, rFExpDoc)
|
|
docAltFilter
|
|
-- container { fieldA = blub, fieldB = blub }
|
|
[ ( True
|
|
, docSeq
|
|
[ docNodeAnnKW lexpr Nothing $ appSep $ docForceSingleline rExprDoc
|
|
, appSep $ docLit $ Text.pack "{"
|
|
, appSep $ docSeq $ List.intersperse docCommaSep
|
|
$ rFs <&> \case
|
|
(lfield, fieldStr, Just fieldDoc) ->
|
|
docWrapNode lfield $ docSeq
|
|
[ appSep $ docLit fieldStr
|
|
, appSep $ docLit $ Text.pack "="
|
|
, docForceSingleline fieldDoc
|
|
]
|
|
(lfield, fieldStr, Nothing) ->
|
|
docWrapNode lfield $ docLit fieldStr
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
)
|
|
-- hanging single-line fields
|
|
-- container { fieldA = blub
|
|
-- , fieldB = blub
|
|
-- }
|
|
, ( indentPolicy /= IndentPolicyLeft
|
|
, docSeq
|
|
[ docNodeAnnKW lexpr Nothing $ appSep rExprDoc
|
|
, docSetBaseY $ docLines $ let
|
|
line1 = docCols ColRecUpdate
|
|
[ appSep $ docLit $ Text.pack "{"
|
|
, docWrapNodePrior rF1f $ appSep $ docLit $ rF1n
|
|
, case rF1e of
|
|
Just x -> docWrapNodeRest rF1f $ docSeq
|
|
[ appSep $ docLit $ Text.pack "="
|
|
, docForceSingleline x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
lineR = rFr <&> \(lfield, fText, fDoc) -> docWrapNode lfield $ docCols ColRecUpdate
|
|
[ docCommaSep
|
|
, appSep $ docLit $ fText
|
|
, case fDoc of
|
|
Just x -> docSeq [ appSep $ docLit $ Text.pack "="
|
|
, docForceSingleline x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
lineN = docSeq
|
|
[ docNodeAnnKW lexpr (Just AnnOpenC) docEmpty
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
in [line1] ++ lineR ++ [lineN]
|
|
]
|
|
)
|
|
-- non-hanging with expressions placed to the right of the names
|
|
-- container
|
|
-- { fieldA = blub
|
|
-- , fieldB = potentially
|
|
-- multiline
|
|
-- }
|
|
, ( True
|
|
, docSetParSpacing
|
|
$ docAddBaseY BrIndentRegular
|
|
$ docPar
|
|
(docNodeAnnKW lexpr Nothing $ rExprDoc)
|
|
(docNonBottomSpacing $ docLines $ let
|
|
expressionWrapper = if indentPolicy == IndentPolicyLeft
|
|
then docForceParSpacing
|
|
else docSetBaseY
|
|
line1 = docCols ColRecUpdate
|
|
[ appSep $ docLit $ Text.pack "{"
|
|
, docWrapNodePrior rF1f $ appSep $ docLit $ rF1n
|
|
, docWrapNodeRest rF1f $ case rF1e of
|
|
Just x -> docAlt
|
|
[ docSeq [ appSep $ docLit $ Text.pack "="
|
|
, expressionWrapper x
|
|
]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "=") x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
lineR = rFr <&> \(lfield, fText, fDoc) -> docWrapNode lfield
|
|
$ docCols ColRecUpdate
|
|
[ docCommaSep
|
|
, appSep $ docLit $ fText
|
|
, case fDoc of
|
|
Just x -> docAlt
|
|
[ docSeq [ appSep $ docLit $ Text.pack "="
|
|
, expressionWrapper x
|
|
]
|
|
, docAddBaseY BrIndentRegular
|
|
$ docPar (docLit $ Text.pack "=") x
|
|
]
|
|
Nothing -> docEmpty
|
|
]
|
|
lineN = docSeq
|
|
[ docNodeAnnKW lexpr (Just AnnOpenC) docEmpty
|
|
, docLit $ Text.pack "}"
|
|
]
|
|
in [line1] ++ lineR ++ [lineN]
|
|
)
|
|
)
|
|
]
|
|
#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
|
|
ExprWithTySig exp1 (HsWC _ (HsIB _ typ1 _)) -> do
|
|
#else /* ghc-8.0 */
|
|
ExprWithTySig exp1 (HsIB _ (HsWC _ _ typ1)) -> do
|
|
#endif
|
|
expDoc <- docSharedWrapper layoutExpr exp1
|
|
typDoc <- docSharedWrapper layoutType typ1
|
|
docSeq
|
|
[ appSep expDoc
|
|
, appSep $ docLit $ Text.pack "::"
|
|
, typDoc
|
|
]
|
|
ExprWithTySigOut{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "ExprWithTySigOut{}" lexpr
|
|
ArithSeq _ Nothing info ->
|
|
case info of
|
|
From e1 -> do
|
|
e1Doc <- docSharedWrapper layoutExpr e1
|
|
docSeq
|
|
[ docLit $ Text.pack "["
|
|
, appSep $ docForceSingleline e1Doc
|
|
, docLit $ Text.pack "..]"
|
|
]
|
|
FromThen e1 e2 -> do
|
|
e1Doc <- docSharedWrapper layoutExpr e1
|
|
e2Doc <- docSharedWrapper layoutExpr e2
|
|
docSeq
|
|
[ docLit $ Text.pack "["
|
|
, docForceSingleline e1Doc
|
|
, appSep $ docLit $ Text.pack ","
|
|
, appSep $ docForceSingleline e2Doc
|
|
, docLit $ Text.pack "..]"
|
|
]
|
|
FromTo e1 eN -> do
|
|
e1Doc <- docSharedWrapper layoutExpr e1
|
|
eNDoc <- docSharedWrapper layoutExpr eN
|
|
docSeq
|
|
[ docLit $ Text.pack "["
|
|
, appSep $ docForceSingleline e1Doc
|
|
, appSep $ docLit $ Text.pack ".."
|
|
, docForceSingleline eNDoc
|
|
, docLit $ Text.pack "]"
|
|
]
|
|
FromThenTo e1 e2 eN -> do
|
|
e1Doc <- docSharedWrapper layoutExpr e1
|
|
e2Doc <- docSharedWrapper layoutExpr e2
|
|
eNDoc <- docSharedWrapper layoutExpr eN
|
|
docSeq
|
|
[ docLit $ Text.pack "["
|
|
, docForceSingleline e1Doc
|
|
, appSep $ docLit $ Text.pack ","
|
|
, appSep $ docForceSingleline e2Doc
|
|
, appSep $ docLit $ Text.pack ".."
|
|
, docForceSingleline eNDoc
|
|
, docLit $ Text.pack "]"
|
|
]
|
|
ArithSeq{} ->
|
|
briDocByExactInlineOnly "ArithSeq" lexpr
|
|
PArrSeq{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "PArrSeq{}" lexpr
|
|
HsSCC{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsSCC{}" lexpr
|
|
HsCoreAnn{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsCoreAnn{}" lexpr
|
|
HsBracket{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsBracket{}" lexpr
|
|
HsRnBracketOut{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsRnBracketOut{}" lexpr
|
|
HsTcBracketOut{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsTcBracketOut{}" lexpr
|
|
HsSpliceE{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsSpliceE{}" lexpr
|
|
HsProc{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsProc{}" lexpr
|
|
HsStatic{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsStatic{}" lexpr
|
|
HsArrApp{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsArrApp{}" lexpr
|
|
HsArrForm{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsArrForm{}" lexpr
|
|
HsTick{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsTick{}" lexpr
|
|
HsBinTick{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsBinTick{}" lexpr
|
|
HsTickPragma{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsTickPragma{}" lexpr
|
|
EWildPat{} -> do
|
|
docLit $ Text.pack "_"
|
|
EAsPat asName asExpr -> do
|
|
docSeq
|
|
[ docLit $ (lrdrNameToText asName) <> Text.pack "@"
|
|
, layoutExpr asExpr
|
|
]
|
|
EViewPat{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "EViewPat{}" lexpr
|
|
ELazyPat{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "ELazyPat{}" lexpr
|
|
HsWrap{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsWrap{}" lexpr
|
|
#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
|
|
HsConLikeOut{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "HsWrap{}" lexpr
|
|
ExplicitSum{} -> do
|
|
-- TODO
|
|
briDocByExactInlineOnly "ExplicitSum{}" lexpr
|
|
#endif
|
|
|
|
|
|
#if MIN_VERSION_ghc(8,2,0) /* ghc-8.2 */
|
|
litBriDoc :: HsLit -> BriDocFInt
|
|
litBriDoc = \case
|
|
HsChar (SourceText t) _c -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ ['\'', c, '\'']
|
|
HsCharPrim (SourceText t) _c -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ ['\'', c, '\'']
|
|
HsString (SourceText t) _fastString -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ FastString.unpackFS fastString
|
|
HsStringPrim (SourceText t) _byteString -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ Data.ByteString.Char8.unpack byteString
|
|
HsInt (SourceText t) _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsIntPrim (SourceText t) _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsWordPrim (SourceText t) _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsInt64Prim (SourceText t) _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsWord64Prim (SourceText t) _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsInteger (SourceText t) _i _type -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsRat (FL t _) _type -> BDFLit $ Text.pack t
|
|
HsFloatPrim (FL t _) -> BDFLit $ Text.pack t
|
|
HsDoublePrim (FL t _) -> BDFLit $ Text.pack t
|
|
_ -> error "litBriDoc: literal with no SourceText"
|
|
|
|
overLitValBriDoc :: OverLitVal -> BriDocFInt
|
|
overLitValBriDoc = \case
|
|
HsIntegral (SourceText t) _ -> BDFLit $ Text.pack t
|
|
HsFractional (FL t _) -> BDFLit $ Text.pack t
|
|
HsIsString (SourceText t) _ -> BDFLit $ Text.pack t
|
|
_ -> error "overLitValBriDoc: literal with no SourceText"
|
|
#else
|
|
litBriDoc :: HsLit -> BriDocFInt
|
|
litBriDoc = \case
|
|
HsChar t _c -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ ['\'', c, '\'']
|
|
HsCharPrim t _c -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ ['\'', c, '\'']
|
|
HsString t _fastString -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ FastString.unpackFS fastString
|
|
HsStringPrim t _byteString -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ Data.ByteString.Char8.unpack byteString
|
|
HsInt t _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsIntPrim t _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsWordPrim t _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsInt64Prim t _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsWord64Prim t _i -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsInteger t _i _type -> BDFLit $ Text.pack t -- BDFLit $ Text.pack $ show i
|
|
HsRat (FL t _) _type -> BDFLit $ Text.pack t
|
|
HsFloatPrim (FL t _) -> BDFLit $ Text.pack t
|
|
HsDoublePrim (FL t _) -> BDFLit $ Text.pack t
|
|
|
|
overLitValBriDoc :: OverLitVal -> BriDocFInt
|
|
overLitValBriDoc = \case
|
|
HsIntegral t _ -> BDFLit $ Text.pack t
|
|
HsFractional (FL t _) -> BDFLit $ Text.pack t
|
|
HsIsString t _ -> BDFLit $ Text.pack t
|
|
#endif
|