243 lines
11 KiB
Haskell
243 lines
11 KiB
Haskell
{-# LANGUAGE CPP #-}
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module Language.Haskell.GhcMod.CaseSplit (
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splits
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) where
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import CoreMonad (liftIO)
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import Data.Function (on)
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import Data.List (find, intercalate, sortBy)
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import Data.Maybe (isJust)
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import qualified Data.Text as T
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import qualified Data.Text.IO as T (readFile)
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import qualified DataCon as Ty
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import Exception (ghandle, SomeException(..))
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import GHC (GhcMonad, LPat, Id, ParsedModule(..), TypecheckedModule(..), DynFlags, SrcSpan, Type, GenLocated(L))
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import qualified GHC as G
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import Language.Haskell.GhcMod.Convert
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import qualified Language.Haskell.GhcMod.Gap as Gap
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import Language.Haskell.GhcMod.Monad
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import Language.Haskell.GhcMod.SrcUtils
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import Outputable (ppr, PprStyle)
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import qualified TyCon as Ty
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import qualified Type as Ty
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import Debug.Trace
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import Language.Haskell.GhcMod.Doc
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import ErrUtils
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----------------------------------------------------------------
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-- CASE SPLITTING
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----------------------------------------------------------------
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data SplitInfo = SplitInfo G.Name SrcSpan (SrcSpan, Type) [SrcSpan]
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| TySplitInfo G.Name SrcSpan (SrcSpan, Ty.Kind)
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data SplitToTextInfo = SplitToTextInfo { sVarName :: String
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, sBindingSpan :: SrcSpan
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, sVarSpan :: SrcSpan
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, sTycons :: [String]
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}
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-- | Splitting a variable in a equation.
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splits :: IOish m
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=> FilePath -- ^ A target file.
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-> Int -- ^ Line number.
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-> Int -- ^ Column number.
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-> GhcModT m String
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splits file lineNo colNo = ghandle handler body
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where
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body = inModuleContext file $ \dflag style -> do
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opt <- options
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modSum <- Gap.fileModSummary file
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whenFound' opt (getSrcSpanTypeForSplit dflag style modSum lineNo colNo) $ \x -> case x of
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(SplitInfo varName bndLoc (varLoc,varT) _matches) -> do
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let varName' = showName dflag style varName -- Convert name to string
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text <- genCaseSplitTextFile file (SplitToTextInfo varName' bndLoc varLoc $
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getTyCons dflag style varName varT)
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return (fourInts bndLoc, text)
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(TySplitInfo varName bndLoc (varLoc,varT)) -> do
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let varName' = showName dflag style varName -- Convert name to string
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text <- genCaseSplitTextFile file (SplitToTextInfo varName' bndLoc varLoc $
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getTyCons dflag style varName varT)
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return (fourInts bndLoc, text)
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handler (SomeException e) = trace (show e) $ emptyResult =<< options
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----------------------------------------------------------------
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-- a. Code for getting the information of the variable
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getSrcSpanTypeForSplit :: GhcMonad m => DynFlags -> PprStyle -> G.ModSummary -> Int -> Int -> m (Maybe SplitInfo)
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getSrcSpanTypeForSplit dflag style modSum lineNo colNo = do
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fn <- getSrcSpanTypeForFnSplit modSum lineNo colNo
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if isJust fn
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then return fn
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else getSrcSpanTypeForTypeSplit dflag style modSum lineNo colNo
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-- Information for a function case split
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getSrcSpanTypeForFnSplit :: GhcMonad m => G.ModSummary -> Int -> Int -> m (Maybe SplitInfo)
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getSrcSpanTypeForFnSplit modSum lineNo colNo = do
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p@ParsedModule{pm_parsed_source = pms} <- G.parseModule modSum
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tcm@TypecheckedModule{tm_typechecked_source = tcs} <- G.typecheckModule p
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let varPat = find isPatternVar $ listifySpans tcs (lineNo, colNo) :: Maybe (LPat Id)
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match:_ = listifyParsedSpans pms (lineNo, colNo) :: [Gap.GLMatch]
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case varPat of
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Nothing -> return Nothing
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Just varPat' -> do
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varT <- Gap.getType tcm varPat' -- Finally we get the type of the var
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case varT of
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Just varT' ->
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let (L matchL (G.Match _ _ (G.GRHSs rhsLs _))) = match
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in return $ Just (SplitInfo (getPatternVarName varPat') matchL varT' (map G.getLoc rhsLs) )
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_ -> return Nothing
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isPatternVar :: LPat Id -> Bool
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isPatternVar (L _ (G.VarPat _)) = True
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isPatternVar _ = False
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getPatternVarName :: LPat Id -> G.Name
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getPatternVarName (L _ (G.VarPat vName)) = G.getName vName
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getPatternVarName _ = error "This should never happened"
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-- Information for a type family case split
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getSrcSpanTypeForTypeSplit :: GhcMonad m => DynFlags -> PprStyle -> G.ModSummary -> Int -> Int -> m (Maybe SplitInfo)
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getSrcSpanTypeForTypeSplit dflag style modSum lineNo colNo = do
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p <- G.parseModule modSum
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TypecheckedModule{tm_renamed_source = Just rs
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,tm_checked_module_info = modinfo} <- G.typecheckModule p
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case listifyRenamedSpans rs (lineNo, colNo) :: [G.LTyFamInstEqn G.Name] of
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[L loc (G.TyFamInstEqn (L _ name) _ _)] -> do
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-- We found a type family instance declaration
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let lst = listifyRenamedSpans rs (lineNo, colNo) :: [G.LHsType G.Name]
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hsTypes = sortBy (cmp `on` G.getLoc) lst
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(L varLoc (G.HsTyVar varName)):_ = trace (showOneLine dflag style $ ppr hsTypes) $ hsTypes
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tcResult <- G.lookupName varName
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case trace (showOneLine dflag style $ ppr tcResult) $ tcResult of
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Just _ -> return $ Nothing -- Just (TySplitInfo name loc (varLoc, tcKi))
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_ -> return Nothing
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_ -> return Nothing
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----------------------------------------------------------------
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-- b. Code for getting the possible constructors
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getTyCons :: DynFlags -> PprStyle -> G.Name -> G.Type -> [String]
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getTyCons dflag style name ty | Just (tyCon, _) <- Ty.splitTyConApp_maybe ty =
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let name' = showName dflag style name -- Convert name to string
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in getTyCon dflag style name' tyCon
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getTyCons dflag style name _ = [showName dflag style name]
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-- Write cases for one type
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getTyCon :: DynFlags -> PprStyle -> String -> Ty.TyCon -> [String]
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-- 1. Non-matcheable type constructors
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getTyCon _ _ name tyCon | isNotMatcheableTyCon tyCon = [name]
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-- 2. Special cases
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-- 2.1. Tuples
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getTyCon _ _ name tyCon | Ty.isTupleTyCon tyCon =
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let [uniqueDataCon] = Ty.tyConDataCons tyCon
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tupleArity = Ty.dataConSourceArity uniqueDataCon
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-- Deal with both boxed and unboxed tuples
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isUnboxed = Ty.isUnboxedTupleTyCon tyCon
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startSign = if isUnboxed then "(#" else "("
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endSign = if isUnboxed then "#)" else ")"
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in [ startSign ++ intercalate "," (map (\n -> name ++ show n) [1 .. tupleArity]) ++ endSign ]
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-- 3. General case
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getTyCon dflag style name tyCon = map (getDataCon dflag style name) (Ty.tyConDataCons tyCon)
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-- These type constructors should not be matched against
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isNotMatcheableTyCon :: Ty.TyCon -> Bool
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isNotMatcheableTyCon ty = Ty.isPrimTyCon ty -- Primitive types, such as Int#
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|| Ty.isFunTyCon ty -- Function types
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-- Write case for one constructor
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getDataCon :: DynFlags -> PprStyle -> String -> Ty.DataCon -> String
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-- 1. Infix constructors
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getDataCon dflag style vName dcon | Ty.dataConIsInfix dcon =
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let dName = showName dflag style $ Ty.dataConName dcon
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in case Ty.dataConSourceArity dcon of
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0 -> dName
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1 -> vName ++ dName
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n -> if dName == ":" -- Special case for lists
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then vName ++ ":" ++ vName ++ "s"
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else newVar vName 1 ++ " " ++ dName ++ " " ++ newVars vName 2 (n-1)
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-- 2. Non-record, non-infix syntax
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getDataCon dflag style vName dcon | [] <- Ty.dataConFieldLabels dcon =
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let dName = showName dflag style $ Ty.dataConName dcon
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in if last dName == '#' -- Special case for I#, C# and so on
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then vName
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else case Ty.dataConSourceArity dcon of
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0 -> dName
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_ -> dName ++ " " ++ newVarsSpecialSingleton vName 1 (Ty.dataConSourceArity dcon)
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-- 3. Records
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getDataCon dflag style vName dcon =
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let dName = showName dflag style $ Ty.dataConName dcon
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flds = Ty.dataConFieldLabels dcon
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in dName ++ " { " ++ showFieldNames dflag style vName flds ++ " }"
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-- Create a new variable by adjoining a number
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newVar :: String -> Int -> String
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newVar v n = v ++ show n
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-- Create a list of variables which start with the same prefix
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newVars :: String -> Int -> Int -> String
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newVars _ _ 0 = ""
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newVars v s 1 = newVar v s
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newVars v s m = newVar v s ++ " " ++ newVars v (s+1) (m-1)
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-- Create a list of variables which start with the same prefix
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-- Special case for a single variable, in which case no number is adjoint
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newVarsSpecialSingleton :: String -> Int -> Int -> String
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newVarsSpecialSingleton v _ 1 = v
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newVarsSpecialSingleton v start n = newVars v start n
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showFieldNames :: DynFlags -> PprStyle -> String -> [G.Name] -> String
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showFieldNames _ _ _ [] = "" -- This should never happen
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showFieldNames dflag style v (x:xs) = let fName = showName dflag style x
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fAcc = fName ++ " = " ++ v ++ "_" ++ fName
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in case xs of
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[] -> fAcc
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_ -> fAcc ++ ", " ++ showFieldNames dflag style v xs
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----------------------------------------------------------------
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-- c. Code for performing the case splitting
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genCaseSplitTextFile :: GhcMonad m => FilePath -> SplitToTextInfo -> m String
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genCaseSplitTextFile file info = liftIO $ do
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text <- T.readFile file
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return $ getCaseSplitText (T.lines text) info
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getCaseSplitText :: [T.Text] -> SplitToTextInfo -> String
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getCaseSplitText text (SplitToTextInfo { sVarName = sVN, sBindingSpan = sBS
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, sVarSpan = sVS, sTycons = sT }) =
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let bindingText = getBindingText text sBS
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difference = srcSpanDifference sBS sVS
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replaced = concatMap (replaceVarWithTyCon bindingText difference sVN) sT
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in T.unpack $ T.intercalate (T.pack "\n") replaced
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getBindingText :: [T.Text] -> SrcSpan -> [T.Text]
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getBindingText text srcSpan =
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let Just (sl,sc,el,ec) = Gap.getSrcSpan srcSpan
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lines_ = drop (sl - 1) $ take el text
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in if sl == el
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then -- only one line
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[T.drop (sc - 1) $ T.take ec $ head lines_]
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else -- several lines
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let (first,rest,last_) = (head lines_, tail $ init lines_, last lines_)
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in T.drop (sc - 1) first : rest ++ [T.take ec last_]
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srcSpanDifference :: SrcSpan -> SrcSpan -> (Int,Int,Int,Int)
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srcSpanDifference b v =
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let Just (bsl,bsc,_ ,_) = Gap.getSrcSpan b
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Just (vsl,vsc,vel,vec) = Gap.getSrcSpan v
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in (vsl - bsl, vsc - bsc, vel - bsl, vec - bsc) -- assume variable in one line
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replaceVarWithTyCon :: [T.Text] -> (Int,Int,Int,Int) -> String -> String -> [T.Text]
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replaceVarWithTyCon text (vsl,vsc,_,vec) varname tycon =
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let tycon' = if ' ' `elem` tycon || ':' `elem` tycon then "(" ++ tycon ++ ")" else tycon
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lengthDiff = length tycon' - length varname
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tycon'' = T.pack $ if lengthDiff < 0 then tycon' ++ replicate (-lengthDiff) ' ' else tycon'
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spacesToAdd = if lengthDiff < 0 then 0 else lengthDiff
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in zipWith (\n line -> if n < vsl
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then line -- before variable starts
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else if n == vsl
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then T.take vsc line `T.append` tycon'' `T.append` T.drop vec line
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else T.replicate spacesToAdd (T.pack " ") `T.append` line)
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[0 ..] text
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