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ghc-exactprint-1.2.0: src/Language/Haskell/GHC/ExactPrint/Transform.hs

{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ViewPatterns #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  Language.Haskell.GHC.ExactPrint.Transform
--
-- This module is currently under heavy development, and no promises are made
-- about API stability. Use with care.
--
-- We welcome any feedback / contributions on this, as it is the main point of
-- the library.
--
-----------------------------------------------------------------------------
module Language.Haskell.GHC.ExactPrint.Transform
        (
        -- * The Transform Monad
          Transform
        , TransformT(..)
        , hoistTransform
        , runTransform
        , runTransformT
        , runTransformFrom
        , runTransformFromT

        -- * Transform monad operations
        , logTr
        , logDataWithAnnsTr
        , uniqueSrcSpanT

        -- ** Managing declarations, in Transform monad
        , HasTransform (..)
        , HasDecls (..)
        , hsDeclsPatBind, hsDeclsPatBindD
        , replaceDeclsPatBind, replaceDeclsPatBindD
        , modifyDeclsT
        , modifyValD
        -- *** Utility, does not manage layout
        , hsDeclsValBinds, replaceDeclsValbinds
        , WithWhere(..)

        -- ** New gen functions
        , noAnnSrcSpanDP
        , noAnnSrcSpanDP0
        , noAnnSrcSpanDP1
        , noAnnSrcSpanDPn
        , d0, d1, dn
        , m0, m1, mn
        , addComma

        -- ** Managing lists, Transform monad
        , insertAt
        , insertAtStart
        , insertAtEnd
        , insertAfter
        , insertBefore

        -- *** Low level operations used in 'HasDecls'
        , balanceComments
        , balanceCommentsList
        , balanceCommentsList'
        , anchorEof

        -- ** Managing lists, pure functions
        , captureOrder
        , captureLineSpacing
        , captureMatchLineSpacing
        , captureTypeSigSpacing

        -- * Operations
        , isUniqueSrcSpan

        -- * Pure functions
        , setEntryDP
        , transferEntryDP
        , transferEntryDP'
        , wrapSig, wrapDecl
        , decl2Sig, decl2Bind
        ) where

import Language.Haskell.GHC.ExactPrint.Types
import Language.Haskell.GHC.ExactPrint.Utils

import Control.Monad.RWS
import qualified Control.Monad.Fail as Fail

import GHC  hiding (parseModule, parsedSource)
import GHC.Data.Bag
import GHC.Data.FastString

import Data.Generics
import Data.List (sort, sortBy)

import Data.Functor.Identity
import Control.Monad.State


------------------------------------------------------------------------------
-- Transformation of source elements

-- | Monad type for updating the AST and managing the annotations at the same
-- time. The W state is used to generate logging information if required.
type Transform = TransformT Identity

-- |Monad transformer version of 'Transform' monad
newtype TransformT m a = TransformT { unTransformT :: RWST () [String] Int m a }
                deriving (Monad,Applicative,Functor
                         ,MonadReader ()
                         ,MonadWriter [String]
                         ,MonadState Int
                         ,MonadTrans
                         )

instance Fail.MonadFail m => Fail.MonadFail (TransformT m) where
    fail msg = TransformT $ RWST $ \_ _ -> Fail.fail msg

-- | Run a transformation in the 'Transform' monad, returning the updated
-- annotations and any logging generated via 'logTr'
runTransform :: Transform a -> (a,Int,[String])
runTransform f = runTransformFrom 0 f

runTransformT :: TransformT m a -> m (a,Int,[String])
runTransformT f = runTransformFromT 0 f

-- | Run a transformation in the 'Transform' monad, returning the updated
-- annotations and any logging generated via 'logTr', allocating any new
-- SrcSpans from the provided initial value.
runTransformFrom :: Int -> Transform a -> (a,Int,[String])
runTransformFrom seed f = runRWS (unTransformT f) () seed

-- |Run a monad transformer stack for the 'TransformT' monad transformer
runTransformFromT :: Int -> TransformT m a -> m (a,Int,[String])
runTransformFromT seed f = runRWST (unTransformT f) () seed

-- | Change inner monad of 'TransformT'.
hoistTransform :: (forall x. m x -> n x) -> TransformT m a -> TransformT n a
hoistTransform nt (TransformT m) = TransformT (mapRWST nt m)

-- |Log a string to the output of the Monad
logTr :: (Monad m) => String -> TransformT m ()
logTr str = tell [str]

-- |Log a representation of the given AST with annotations to the output of the
-- Monad
logDataWithAnnsTr :: (Monad m) => (Data a) => String -> a -> TransformT m ()
logDataWithAnnsTr str ast = do
  logTr $ str ++ showAst ast

-- ---------------------------------------------------------------------

-- |If we need to add new elements to the AST, they need their own
-- 'SrcSpan' for this.
uniqueSrcSpanT :: (Monad m) => TransformT m SrcSpan
uniqueSrcSpanT = do
  col <- get
  put (col + 1 )
  let pos = mkSrcLoc (mkFastString "ghc-exactprint") (-1) col
  return $ mkSrcSpan pos pos

-- |Test whether a given 'SrcSpan' was generated by 'uniqueSrcSpanT'
isUniqueSrcSpan :: SrcSpan -> Bool
isUniqueSrcSpan ss = srcSpanStartLine' ss == -1

srcSpanStartLine' :: SrcSpan -> Int
srcSpanStartLine' (RealSrcSpan s _) = srcSpanStartLine s
srcSpanStartLine' _ = 0

-- ---------------------------------------------------------------------

-- |If a list has been re-ordered or had items added, capture the new order in
-- the appropriate 'AnnSortKey' attached to the 'Annotation' for the list.
captureOrder :: [LocatedA b] -> AnnSortKey
captureOrder ls = AnnSortKey $ map (rs . getLocA) ls

-- ---------------------------------------------------------------------

captureMatchLineSpacing :: LHsDecl GhcPs -> LHsDecl GhcPs
captureMatchLineSpacing (L l (ValD x (FunBind a b (MG c (L d ms ) e) f)))
                       = L l (ValD x (FunBind a b (MG c (L d ms') e) f))
    where
      ms' :: [LMatch GhcPs (LHsExpr GhcPs)]
      ms' = captureLineSpacing ms
captureMatchLineSpacing d = d

captureLineSpacing :: Monoid t
                   => [LocatedAn t e] -> [GenLocated (SrcSpanAnn' (EpAnn t)) e]
captureLineSpacing [] = []
captureLineSpacing [d] = [d]
captureLineSpacing (de1:d2:ds) = de1:captureLineSpacing (d2':ds)
  where
    (l1,_) = ss2pos $ rs $ getLocA de1
    (l2,_) = ss2pos $ rs $ getLocA d2
    d2' = setEntryDP d2 (deltaPos (l2-l1) 0)

-- ---------------------------------------------------------------------

captureTypeSigSpacing :: LHsDecl GhcPs -> LHsDecl GhcPs
captureTypeSigSpacing (L l (SigD x (TypeSig (EpAnn anc (AnnSig dc rs') cs) ns (HsWC xw ty))))
  = (L l (SigD x (TypeSig (EpAnn anc (AnnSig dc' rs') cs) ns (HsWC xw ty'))))
  where
    -- we want DPs for the distance from the end of the ns to the
    -- AnnDColon, and to the start of the ty
    AddEpAnn kw dca = dc
    rd = case last ns of
      L (SrcSpanAnn EpAnnNotUsed   ll) _ -> realSrcSpan ll
      L (SrcSpanAnn (EpAnn anc' _ _) _) _ -> anchor anc' -- TODO MovedAnchor?
    -- DP (line, col) = ss2delta (ss2pos $ anchor $ getLoc lc) r
    dc' = case dca of
      EpaSpan r -> AddEpAnn kw (EpaDelta $ ss2delta (ss2posEnd rd) r)
      EpaDelta _ -> AddEpAnn kw dca

    -- ---------------------------------

    ty' :: LHsSigType GhcPs
    ty' = case ty of
      (L (SrcSpanAnn EpAnnNotUsed    ll) b)
        -> let
             op = case dca of
               EpaSpan r -> MovedAnchor (ss2delta (ss2posEnd r) (realSrcSpan ll))
               EpaDelta _ -> MovedAnchor (SameLine 1)
           in (L (SrcSpanAnn (EpAnn (Anchor (realSrcSpan ll) op) mempty emptyComments) ll) b)
      (L (SrcSpanAnn (EpAnn (Anchor r op) a c) ll) b)
        -> let
              op' = case op of
                MovedAnchor _ -> op
                _ -> case dca of
                  EpaSpan dcr -> MovedAnchor (ss2delta (ss2posEnd dcr) r)
                  EpaDelta _ -> MovedAnchor (SameLine 1)
           in (L (SrcSpanAnn (EpAnn (Anchor r op') a c) ll) b)

captureTypeSigSpacing s = s

-- ---------------------------------------------------------------------

-- |Pure function to convert a 'LHsDecl' to a 'LHsBind'. This does
-- nothing to any annotations that may be attached to either of the elements.
-- It is used as a utility function in 'replaceDecls'
decl2Bind :: LHsDecl GhcPs -> [LHsBind GhcPs]
decl2Bind (L l (ValD _ s)) = [L l s]
decl2Bind _                      = []

-- |Pure function to convert a 'LSig' to a 'LHsBind'. This does
-- nothing to any annotations that may be attached to either of the elements.
-- It is used as a utility function in 'replaceDecls'
decl2Sig :: LHsDecl GhcPs -> [LSig GhcPs]
decl2Sig (L l (SigD _ s)) = [L l s]
decl2Sig _                = []

-- ---------------------------------------------------------------------

-- |Convert a 'LSig' into a 'LHsDecl'
wrapSig :: LSig GhcPs -> LHsDecl GhcPs
wrapSig (L l s) = L l (SigD NoExtField s)

-- ---------------------------------------------------------------------

-- |Convert a 'LHsBind' into a 'LHsDecl'
wrapDecl :: LHsBind GhcPs -> LHsDecl GhcPs
wrapDecl (L l s) = L l (ValD NoExtField s)

-- ---------------------------------------------------------------------

setEntryDPDecl :: LHsDecl GhcPs -> DeltaPos -> LHsDecl GhcPs
setEntryDPDecl decl@(L _  (ValD x (FunBind a b (MG c (L d ms ) e) f))) dp
                   = L l' (ValD x (FunBind a b (MG c (L d ms') e) f))
    where
      L l' _ = setEntryDP decl dp
      ms' :: [LMatch GhcPs (LHsExpr GhcPs)]
      ms' = case ms of
        [] -> []
        (m0':ms0) -> setEntryDP m0' dp : ms0
setEntryDPDecl d dp = setEntryDP d dp

-- ---------------------------------------------------------------------

-- |Set the true entry 'DeltaPos' from the annotation for a given AST
-- element. This is the 'DeltaPos' ignoring any comments.
setEntryDP :: (Monoid t) => LocatedAn t a -> DeltaPos -> LocatedAn t a
setEntryDP (L (SrcSpanAnn EpAnnNotUsed l) a) dp
  = L (SrcSpanAnn
           (EpAnn (Anchor (realSrcSpan l) (MovedAnchor dp)) mempty emptyComments)
           l) a
setEntryDP (L (SrcSpanAnn (EpAnn (Anchor r _) an (EpaComments [])) l) a) dp
  = L (SrcSpanAnn
           (EpAnn (Anchor r (MovedAnchor dp)) an (EpaComments []))
           l) a
setEntryDP (L (SrcSpanAnn (EpAnn (Anchor r _) an cs) l) a) dp
  = case sort (priorComments cs) of
      [] ->
        L (SrcSpanAnn
               (EpAnn (Anchor r (MovedAnchor dp)) an cs)
               l) a
      (L ca c:cs') ->
        L (SrcSpanAnn
               (EpAnn (Anchor r (MovedAnchor edp)) an cs'')
               l) a
              where
                cs'' = setPriorComments cs (L (Anchor (anchor ca) (MovedAnchor dp)) c:cs')
                lc = head $ reverse $ (L ca c:cs')
                delta = ss2delta (ss2pos $ anchor $ getLoc lc) r
                line = getDeltaLine delta
                col = deltaColumn delta
                -- TODO: this adjustment by 1 happens all over the place. Generalise it
                edp' = if line == 0 then SameLine col
                                    else DifferentLine line col
                edp = edp' `debug` ("setEntryDP :" ++ showGhc (edp', (ss2pos $ anchor $ getLoc lc), r))

-- ---------------------------------------------------------------------

addEpaLocationDelta :: LayoutStartCol -> RealSrcSpan -> EpaLocation -> EpaLocation
addEpaLocationDelta _off _anc (EpaDelta d) = EpaDelta d
addEpaLocationDelta  off  anc (EpaSpan r)
  = EpaDelta (adjustDeltaForOffset 0 off (ss2deltaEnd anc r))

-- Set the entry DP for an element coming after an existing keyword annotation
setEntryDPFromAnchor :: LayoutStartCol -> EpaLocation -> LocatedA t -> LocatedA t
setEntryDPFromAnchor _off (EpaDelta _) (L la a) = L la a
setEntryDPFromAnchor  off (EpaSpan anc) ll@(L la _) = setEntryDP ll dp'
  where
    r = case la of
      (SrcSpanAnn EpAnnNotUsed l) -> realSrcSpan l
      (SrcSpanAnn (EpAnn (Anchor r' _) _ _) _) -> r'
    dp' = adjustDeltaForOffset 0 off (ss2deltaEnd anc r)

-- ---------------------------------------------------------------------

-- |Take the annEntryDelta associated with the first item and associate it with the second.
-- Also transfer any comments occuring before it.
transferEntryDP :: (Monad m, Monoid t) => LocatedAn t a -> LocatedAn t b -> TransformT m (LocatedAn t b)
transferEntryDP (L (SrcSpanAnn EpAnnNotUsed l1) _) (L (SrcSpanAnn EpAnnNotUsed _) b) = do
  logTr $ "transferEntryDP': EpAnnNotUsed,EpAnnNotUsed"
  return (L (SrcSpanAnn EpAnnNotUsed l1) b)
transferEntryDP (L (SrcSpanAnn (EpAnn anc _an cs) _l1) _) (L (SrcSpanAnn EpAnnNotUsed l2) b) = do
  logTr $ "transferEntryDP': EpAnn,EpAnnNotUsed"
  return (L (SrcSpanAnn (EpAnn anc mempty cs) l2) b)
transferEntryDP (L (SrcSpanAnn (EpAnn anc1 _an1 cs1) _l1) _) (L (SrcSpanAnn (EpAnn _anc2 an2 cs2) l2) b) = do
  logTr $ "transferEntryDP': EpAnn,EpAnn"
  -- Problem: if the original had preceding comments, blindly
  -- transferring the location is not correct
  case priorComments cs1 of
    [] -> return (L (SrcSpanAnn (EpAnn anc1 an2 cs2) l2) b)
    -- TODO: what happens if the receiving side already has comments?
    (L anc _:_) -> do
      logDataWithAnnsTr "transferEntryDP':priorComments anc=" anc
      return (L (SrcSpanAnn (EpAnn anc an2 cs2) l2) b)
transferEntryDP (L (SrcSpanAnn EpAnnNotUsed _l1) _) (L (SrcSpanAnn (EpAnn anc2 an2 cs2) l2) b) = do
  logTr $ "transferEntryDP': EpAnnNotUsed,EpAnn"
  return (L (SrcSpanAnn (EpAnn anc2' an2 cs2) l2) b)
    where
      anc2' = case anc2 of
        Anchor _a op   -> Anchor (realSrcSpan l2) op

-- |Take the annEntryDelta associated with the first item and associate it with the second.
-- Also transfer any comments occuring before it.
-- TODO: call transferEntryDP, and use pushDeclDP
transferEntryDP' :: (Monad m) => LHsDecl GhcPs -> LHsDecl GhcPs -> TransformT m (LHsDecl GhcPs)
transferEntryDP' la lb = do
  (L l2 b) <- transferEntryDP la lb
  return (L l2 (pushDeclDP b (SameLine 0)))


pushDeclDP :: HsDecl GhcPs -> DeltaPos -> HsDecl GhcPs
pushDeclDP (ValD x (FunBind a b (MG c (L d  ms ) e) f)) dp
          = ValD x (FunBind a b (MG c (L d' ms') e) f)
    where
      L d' _ = setEntryDP (L d ms) dp
      ms' :: [LMatch GhcPs (LHsExpr GhcPs)]
      ms' = case ms of
        [] -> []
        (m0':ms0) -> setEntryDP m0' dp : ms0
pushDeclDP d _dp = d

-- ---------------------------------------------------------------------

balanceCommentsList :: (Monad m) => [LHsDecl GhcPs] -> TransformT m [LHsDecl GhcPs]
balanceCommentsList [] = return []
balanceCommentsList [x] = return [x]
balanceCommentsList (a:b:ls) = do
  (a',b') <- balanceComments a b
  r <- balanceCommentsList (b':ls)
  return (a':r)

-- |The GHC parser puts all comments appearing between the end of one AST
-- item and the beginning of the next as 'annPriorComments' for the second one.
-- This function takes two adjacent AST items and moves any 'annPriorComments'
-- from the second one to the 'annFollowingComments' of the first if they belong
-- to it instead. This is typically required before deleting or duplicating
-- either of the AST elements.
balanceComments :: (Monad m)
  => LHsDecl GhcPs -> LHsDecl GhcPs
  -> TransformT m (LHsDecl GhcPs, LHsDecl GhcPs)
balanceComments first second = do
  -- ++AZ++ : replace the nested casts with appropriate gmapM
  -- logTr $ "balanceComments entered"
  -- logDataWithAnnsTr "first" first
  case first of
    (L l (ValD x fb@(FunBind{}))) -> do
      (L l' fb',second') <- balanceCommentsFB (L l fb) second
      return (L l' (ValD x fb'), second')
    _ -> balanceComments' first second

-- |Once 'balanceComments' has been called to move trailing comments to a
-- 'FunBind', these need to be pushed down from the top level to the last
-- 'Match' if that 'Match' needs to be manipulated.
balanceCommentsFB :: (Monad m)
  => LHsBind GhcPs -> LocatedA b -> TransformT m (LHsBind GhcPs, LocatedA b)
balanceCommentsFB (L lf (FunBind x n (MG mx (L lm matches) o) t)) second = do
  logTr $ "balanceCommentsFB entered: " ++ showGhc (ss2range $ locA lf)
  matches' <- balanceCommentsList' matches
  let (m,ms) = case reverse matches' of
                 (m':ms') -> (m',ms')
                 _ -> error "balanceCommentsFB"
  (m',second') <- balanceComments' m second
  m'' <- balanceCommentsMatch m'
  logTr $ "balanceCommentsMatch done"
  return (L lf (FunBind x n (MG mx (L lm (reverse (m'':ms))) o) t), second')
balanceCommentsFB f s = balanceComments' f s

-- | Move comments on the same line as the end of the match into the
-- GRHS, prior to the binds
balanceCommentsMatch :: (Monad m)
  => LMatch GhcPs (LHsExpr GhcPs) -> TransformT m (LMatch GhcPs (LHsExpr GhcPs))
balanceCommentsMatch (L l (Match am mctxt pats (GRHSs xg grhss binds))) = do
  logTr $ "balanceCommentsMatch: (loc1)=" ++ showGhc (ss2range (locA l))
  logTr $ "balanceCommentsMatch: (move',stay')=" ++ showAst (move',stay')
  logTr $ "balanceCommentsMatch: (logInfo)=" ++ showAst (logInfo)
  logTr $ "balanceCommentsMatch: (loc1)=" ++ showGhc (ss2range (locA l))
  logTr $ "balanceCommentsMatch: (anc1,cs1f)=" ++ showAst (anc1,cs1f)
  logTr $ "balanceCommentsMatch: (l'', grhss')=" ++ showAst (l'', grhss')
  return (L l'' (Match am mctxt pats (GRHSs xg grhss' binds')))
  where
    simpleBreak (r,_) = r /= 0
    (SrcSpanAnn an1 _loc1) = l
    anc1 = addCommentOrigDeltas $ epAnnComments an1
    cs1f = getFollowingComments anc1
    (move',stay') = break simpleBreak (trailingCommentsDeltas (anchorFromLocatedA (L l ())) cs1f)
    move = map snd move'
    stay = map snd stay'
    (l'', grhss', binds', logInfo)
      = case reverse grhss of
          [] -> (l, [], binds, (EpaComments [], SrcSpanAnn EpAnnNotUsed noSrcSpan))
          (L lg g@(GRHS EpAnnNotUsed _grs _rhs):gs) -> (l, reverse (L lg g:gs), binds, (EpaComments [], SrcSpanAnn EpAnnNotUsed noSrcSpan))
          (L lg (GRHS ag grs rhs):gs) ->
            let
              anc1' = setFollowingComments anc1 stay
              an1' = setCommentsSrcAnn l anc1'

              -- ---------------------------------
              (moved,bindsm) = pushTrailingComments WithWhere (EpaCommentsBalanced [] move) binds
              -- ---------------------------------

              (EpAnn anc an lgc) = ag
              lgc' = splitComments (realSrcSpan lg) $ addCommentOrigDeltas lgc
              ag' = if moved
                      then EpAnn anc an lgc'
                      else EpAnn anc an (lgc' <> (EpaCommentsBalanced [] move))
              -- ag' = EpAnn anc an lgc'

            in (an1', (reverse $ (L lg (GRHS ag' grs rhs):gs)), bindsm, (anc1',an1'))

pushTrailingComments :: WithWhere -> EpAnnComments -> HsLocalBinds GhcPs -> (Bool, HsLocalBinds GhcPs)
pushTrailingComments _ _cs b@EmptyLocalBinds{} = (False, b)
pushTrailingComments _ _cs (HsIPBinds _ _) = error "TODO: pushTrailingComments:HsIPBinds"
pushTrailingComments w cs lb@(HsValBinds an _)
  = (True, HsValBinds an' vb)
  where
    (decls, _, _ws1) = runTransform (hsDeclsValBinds lb)
    (an', decls') = case reverse decls of
      [] -> (addCommentsToEpAnn (spanHsLocaLBinds lb) an cs, decls)
      (L la d:ds) -> (an, L (addCommentsToSrcAnn la cs) d:ds)
    (vb,_ws2) = case runTransform (replaceDeclsValbinds w lb decls') of
      ((HsValBinds _ vb'), _, ws2') -> (vb', ws2')
      _ -> (ValBinds NoAnnSortKey emptyBag [], [])


balanceCommentsList' :: (Monad m) => [LocatedA a] -> TransformT m [LocatedA a]
balanceCommentsList' [] = return []
balanceCommentsList' [x] = return [x]
balanceCommentsList' (a:b:ls) = do
  logTr $ "balanceCommentsList' entered"
  (a',b') <- balanceComments' a b
  r <- balanceCommentsList' (b':ls)
  return (a':r)

-- |Prior to moving an AST element, make sure any trailing comments belonging to
-- it are attached to it, and not the following element. Of necessity this is a
-- heuristic process, to be tuned later. Possibly a variant should be provided
-- with a passed-in decision function.
-- The initial situation is that all comments for a given anchor appear as prior comments
-- Many of these should in fact be following comments for the previous anchor
balanceComments' :: (Monad m) => LocatedA a -> LocatedA b -> TransformT m (LocatedA a, LocatedA b)
balanceComments' la1 la2 = do
  logTr $ "balanceComments': (loc1,loc2)=" ++ showGhc (ss2range loc1,ss2range loc2)
  logTr $ "balanceComments': (anchorFromLocatedA la1)=" ++ showGhc (anchorFromLocatedA la1)
  logTr $ "balanceComments': (sort cs2b)=" ++ showAst (sort cs2b)
  logTr $ "balanceComments': (move',stay')=" ++ showAst (move',stay')
  logTr $ "balanceComments': (move'',stay'')=" ++ showAst (move'',stay'')
  logTr $ "balanceComments': (move,stay)=" ++ showAst (move,stay)
  return (la1', la2')
  where
    simpleBreak n (r,_) = r > n
    L (SrcSpanAnn an1 loc1) f = la1
    L (SrcSpanAnn an2 loc2) s = la2
    anc1 = addCommentOrigDeltas $ epAnnComments an1
    anc2 = addCommentOrigDeltas $ epAnnComments an2
    cs1f = getFollowingComments anc1
    cs2b = priorComments anc2
    (stay'',move') = break (simpleBreak 1) (priorCommentsDeltas (anchorFromLocatedA la2) cs2b)
    -- Need to also check for comments more closely attached to la1,
    -- ie trailing on the same line
    (move'',stay') = break (simpleBreak 0) (trailingCommentsDeltas (anchorFromLocatedA la1) (map snd stay''))
    move = map snd (move'' ++ move')
    stay = map snd stay'
    cs1 = setFollowingComments anc1 (sort $ cs1f ++ move)
    cs2 = setPriorComments anc2 stay

    an1' = setCommentsSrcAnn (getLoc la1) cs1
    an2' = setCommentsSrcAnn (getLoc la2) cs2
    la1' = L an1' f
    la2' = L an2' s

-- | Like commentsDeltas, but calculates the delta from the end of the anchor, not the start
trailingCommentsDeltas :: RealSrcSpan -> [LEpaComment]
               -> [(Int, LEpaComment)]
trailingCommentsDeltas _ [] = []
trailingCommentsDeltas anc (la@(L l _):las)
  = deltaComment anc la : trailingCommentsDeltas (anchor l) las
  where
    deltaComment anc' (L loc c) = (abs(ll - al), L loc c)
      where
        (al,_) = ss2posEnd anc'
        (ll,_) = ss2pos (anchor loc)

-- AZ:TODO: this is identical to commentsDeltas
priorCommentsDeltas :: RealSrcSpan -> [LEpaComment]
                    -> [(Int, LEpaComment)]
priorCommentsDeltas anc cs = go anc (reverse $ sort cs)
  where
    go :: RealSrcSpan -> [LEpaComment] -> [(Int, LEpaComment)]
    go _ [] = []
    go anc' (la@(L l _):las) = deltaComment anc' la : go (anchor l) las

    deltaComment :: RealSrcSpan -> LEpaComment -> (Int, LEpaComment)
    deltaComment anc' (L loc c) = (abs(ll - al), L loc c)
      where
        (al,_) = ss2pos anc'
        (ll,_) = ss2pos (anchor loc)


-- | Split comments into ones occuring before the end of the reference
-- span, and those after it.
splitComments :: RealSrcSpan -> EpAnnComments -> EpAnnComments
splitComments p (EpaComments cs) = cs'
  where
    cmp (L (Anchor l _) _) = ss2pos l < ss2posEnd p
    (before, after) = break cmp cs
    cs' = case after of
      [] -> EpaComments cs
      _ -> EpaCommentsBalanced before after
splitComments p (EpaCommentsBalanced cs ts) = EpaCommentsBalanced cs' ts'
  where
    cmp (L (Anchor l _) _) = ss2pos l < ss2posEnd p
    (before, after) = break cmp cs
    cs' = before
    ts' = after <> ts

-- | A GHC comment includes the span of the preceding (non-comment)
-- token.  Takes an original list of comments, and converts the
-- 'Anchor's to have a have a `MovedAnchor` operation based on the
-- original locations.
commentOrigDeltas :: [LEpaComment] -> [LEpaComment]
commentOrigDeltas [] = []
commentOrigDeltas lcs = map commentOrigDelta lcs

addCommentOrigDeltas :: EpAnnComments -> EpAnnComments
addCommentOrigDeltas (EpaComments cs) = EpaComments (commentOrigDeltas cs)
addCommentOrigDeltas (EpaCommentsBalanced pcs fcs)
  = EpaCommentsBalanced (commentOrigDeltas pcs) (commentOrigDeltas fcs)

addCommentOrigDeltasAnn :: (EpAnn a) -> (EpAnn a)
addCommentOrigDeltasAnn EpAnnNotUsed   = EpAnnNotUsed
addCommentOrigDeltasAnn (EpAnn e a cs) = EpAnn e a (addCommentOrigDeltas cs)

-- TODO: this is replicating functionality in ExactPrint. Sort out the
-- import loop`
anchorFromLocatedA :: LocatedA a -> RealSrcSpan
anchorFromLocatedA (L (SrcSpanAnn an loc) _)
  = case an of
      EpAnnNotUsed    -> realSrcSpan loc
      (EpAnn anc _ _) -> anchor anc

-- | A GHC comment includes the span of the preceding token.  Take an
-- original comment, and convert the 'Anchor to have a have a
-- `MovedAnchor` operation based on the original location, only if it
-- does not already have one.
commentOrigDelta :: LEpaComment -> LEpaComment
commentOrigDelta (L (GHC.Anchor la _) (GHC.EpaComment t pp))
  = (L (GHC.Anchor la op) (GHC.EpaComment t pp))
  where
        (r,c) = ss2posEnd pp
        op' = if r == 0
               then MovedAnchor (ss2delta (r,c+1) la)
               else MovedAnchor (ss2delta (r,c)   la)
        op = if t == EpaEofComment && op' == MovedAnchor (SameLine 0)
               then MovedAnchor (DifferentLine 1 0)
               else op'

-- ---------------------------------------------------------------------

balanceSameLineComments :: (Monad m)
  => LMatch GhcPs (LHsExpr GhcPs) -> TransformT m (LMatch GhcPs (LHsExpr GhcPs))
balanceSameLineComments (L la (Match anm mctxt pats (GRHSs x grhss lb))) = do
  logTr $ "balanceSameLineComments: (la)=" ++ showGhc (ss2range $ locA la)
  logTr $ "balanceSameLineComments: [logInfo]=" ++ showAst logInfo
  return (L la' (Match anm mctxt pats (GRHSs x grhss' lb)))
  where
    simpleBreak n (r,_) = r > n
    (la',grhss', logInfo) = case reverse grhss of
      [] -> (la,grhss,[])
      (L lg g@(GRHS EpAnnNotUsed _gs _rhs):grs) -> (la,reverse $ (L lg g):grs,[])
      (L lg (GRHS ga gs rhs):grs) -> (la'',reverse $ (L lg (GRHS ga' gs rhs)):grs,[(gac,(csp,csf))])
        where
          (SrcSpanAnn an1 _loc1) = la
          anc1 = addCommentOrigDeltas $ epAnnComments an1
          (EpAnn anc an _) = ga :: EpAnn GrhsAnn
          (csp,csf) = case anc1 of
            EpaComments cs -> ([],cs)
            EpaCommentsBalanced p f -> (p,f)
          (move',stay') = break (simpleBreak 0) (trailingCommentsDeltas (anchor anc) csf)
          move = map snd move'
          stay = map snd stay'
          cs1 = EpaCommentsBalanced csp stay

          gac = addCommentOrigDeltas $ epAnnComments ga
          gfc = getFollowingComments gac
          gac' = setFollowingComments gac (sort $ gfc ++ move)
          ga' = (EpAnn anc an gac')

          an1' = setCommentsSrcAnn la cs1
          la'' = an1'

-- ---------------------------------------------------------------------

anchorEof :: ParsedSource -> ParsedSource
anchorEof (L l m@(HsModule an _lo _mn _exps _imps _decls _ _)) = L l (m { hsmodAnn = an' })
  where
    an' = addCommentOrigDeltasAnn an

-- ---------------------------------------------------------------------

-- | Create a @SrcSpanAnn@ with a @MovedAnchor@ operation using the
-- given @DeltaPos@.
noAnnSrcSpanDP :: (Monoid ann) => SrcSpan -> DeltaPos -> SrcSpanAnn' (EpAnn ann)
noAnnSrcSpanDP l dp
  = SrcSpanAnn (EpAnn (Anchor (realSrcSpan l) (MovedAnchor dp)) mempty emptyComments) l

noAnnSrcSpanDP0 :: (Monoid ann) => SrcSpan -> SrcSpanAnn' (EpAnn ann)
noAnnSrcSpanDP0 l = noAnnSrcSpanDP l (SameLine 0)

noAnnSrcSpanDP1 :: (Monoid ann) => SrcSpan -> SrcSpanAnn' (EpAnn ann)
noAnnSrcSpanDP1 l = noAnnSrcSpanDP l (SameLine 1)

noAnnSrcSpanDPn :: (Monoid ann) => SrcSpan -> Int -> SrcSpanAnn' (EpAnn ann)
noAnnSrcSpanDPn l s = noAnnSrcSpanDP l (SameLine s)

d0 :: EpaLocation
d0 = EpaDelta $ SameLine 0

d1 :: EpaLocation
d1 = EpaDelta $ SameLine 1

dn :: Int -> EpaLocation
dn n = EpaDelta $ SameLine n

m0 :: AnchorOperation
m0 = MovedAnchor $ SameLine 0

m1 :: AnchorOperation
m1 = MovedAnchor $ SameLine 1

mn :: Int -> AnchorOperation
mn n = MovedAnchor $ SameLine n

addComma :: SrcSpanAnnA -> SrcSpanAnnA
addComma (SrcSpanAnn EpAnnNotUsed l)
  = (SrcSpanAnn (EpAnn (spanAsAnchor l) (AnnListItem [AddCommaAnn d0]) emptyComments) l)
addComma (SrcSpanAnn (EpAnn anc (AnnListItem as) cs) l)
  = (SrcSpanAnn (EpAnn anc (AnnListItem (AddCommaAnn d0:as)) cs) l)

-- ---------------------------------------------------------------------

-- | Insert a declaration into an AST element having sub-declarations
-- (@HasDecls@) according to the given location function.
insertAt :: (HasDecls ast)
              => (LHsDecl GhcPs
                  -> [LHsDecl GhcPs]
                  -> [LHsDecl GhcPs])
              -> ast
              -> LHsDecl GhcPs
              -> Transform ast
insertAt f t decl = do
  oldDecls <- hsDecls t
  replaceDecls t (f decl oldDecls)

-- |Insert a declaration at the beginning or end of the subdecls of the given
-- AST item
insertAtStart, insertAtEnd :: (HasDecls ast)
              => ast
              -> LHsDecl GhcPs
              -> Transform ast

insertAtStart = insertAt (:)
insertAtEnd   = insertAt (\x xs -> xs ++ [x])

-- |Insert a declaration at a specific location in the subdecls of the given
-- AST item
insertAfter, insertBefore :: (HasDecls (LocatedA ast))
                          => LocatedA old
                          -> LocatedA ast
                          -> LHsDecl GhcPs
                          -> Transform (LocatedA ast)
insertAfter (getLocA -> k) = insertAt findAfter
  where
    findAfter x xs =
      case span (\(L l _) -> locA l /= k) xs of
        ([],[]) -> [x]
        (fs,[]) -> fs++[x]
        (fs, b:bs) -> fs ++ (b : x : bs)
      -- let (fs, b:bs) = span (\(L l _) -> locA l /= k) xs
      -- in fs ++ (b : x : bs)
insertBefore (getLocA -> k) = insertAt findBefore
  where
    findBefore x xs =
      let (fs, bs) = span (\(L l _) -> locA l /= k) xs
      in fs ++ (x : bs)

-- =====================================================================
-- start of HasDecls instances
-- =====================================================================

-- |Provide a means to get and process the immediate child declartions of a
-- given AST element.
class (Data t) => HasDecls t where
-- ++AZ++: TODO: add tests to confirm that hsDecls followed by replaceDecls is idempotent

    -- | Return the 'HsDecl's that are directly enclosed in the
    -- given syntax phrase. They are always returned in the wrapped 'HsDecl'
    -- form, even if orginating in local decls. This is safe, as annotations
    -- never attach to the wrapper, only to the wrapped item.
    hsDecls :: (Monad m) => t -> TransformT m [LHsDecl GhcPs]

    -- | Replace the directly enclosed decl list by the given
    --  decl list. Runs in the 'Transform' monad to be able to update list order
    --  annotations, and rebalance comments and other layout changes as needed.
    --
    -- For example, a call on replaceDecls for a wrapped 'FunBind' having no
    -- where clause will convert
    --
    -- @
    -- -- |This is a function
    -- foo = x -- comment1
    -- @
    -- in to
    --
    -- @
    -- -- |This is a function
    -- foo = x -- comment1
    --   where
    --     nn = 2
    -- @
    replaceDecls :: (Monad m) => t -> [LHsDecl GhcPs] -> TransformT m t

-- ---------------------------------------------------------------------

instance HasDecls ParsedSource where
  hsDecls (L _ (HsModule _ _lo _mn _exps _imps decls _ _)) = return decls
  replaceDecls (L l (HsModule a lo mname exps imps _decls deps haddocks)) decls
    = do
        logTr "replaceDecls LHsModule"
        -- modifyAnnsT (captureOrder m decls)
        return (L l (HsModule a lo mname exps imps decls deps haddocks))

-- ---------------------------------------------------------------------

instance HasDecls (LocatedA (Match GhcPs (LocatedA (HsExpr GhcPs)))) where
  hsDecls (L _ (Match _ _ _ (GRHSs _ _ lb))) = hsDeclsValBinds lb

  replaceDecls (L l (Match xm c p (GRHSs xr rhs binds))) []
    = do
        logTr "replaceDecls LMatch empty decls"
        binds'' <- replaceDeclsValbinds WithoutWhere binds []
        return (L l (Match xm c p (GRHSs xr rhs binds'')))

  replaceDecls m@(L l (Match xm c p (GRHSs xr rhs binds))) newBinds
    = do
        logTr "replaceDecls LMatch nonempty decls"
        -- Need to throw in a fresh where clause if the binds were empty,
        -- in the annotations.
        (l', rhs') <- case binds of
          EmptyLocalBinds{} -> do
            logTr $ "replaceDecls LMatch empty binds"
            -- modifyAnnsT (setPrecedingLines (ghead "LMatch.replaceDecls" newBinds) 1 4)

            -- only move the comment if the original where clause was empty.
            -- toMove <- balanceTrailingComments m m
            -- insertCommentBefore (mkAnnKey m) toMove (matchEpAnn AnnWhere)
            -- TODO: move trailing comments on the same line to before the binds
            logDataWithAnnsTr "Match.replaceDecls:balancing comments:m" m
            L l' m' <- balanceSameLineComments m
            logDataWithAnnsTr "Match.replaceDecls:(m1')" (L l' m')
            return (l', grhssGRHSs $ m_grhss m')
          _ -> return (l, rhs)
        binds'' <- replaceDeclsValbinds WithWhere binds newBinds
        logDataWithAnnsTr "Match.replaceDecls:binds'" binds''
        return (L l' (Match xm c p (GRHSs xr rhs' binds'')))

-- ---------------------------------------------------------------------

instance HasDecls (LocatedA (HsExpr GhcPs)) where
  hsDecls (L _ (HsLet _ decls _ex)) = hsDeclsValBinds decls
  hsDecls _                         = return []

  replaceDecls (L ll (HsLet x binds ex)) newDecls
    = do
        logTr "replaceDecls HsLet"
        let lastAnc = realSrcSpan $ spanHsLocaLBinds binds
        -- TODO: may be an intervening comment, take account for lastAnc
        let (x', ex',newDecls') = case x of
              EpAnnNotUsed -> (x, ex, newDecls)
              (EpAnn a (AnnsLet l i) cs) ->
                let
                  off = case l of
                          (EpaSpan r) -> LayoutStartCol $ snd $ ss2pos r
                          (EpaDelta (SameLine _)) -> LayoutStartCol 0
                          (EpaDelta (DifferentLine _ c)) -> LayoutStartCol c
                  ex'' = setEntryDPFromAnchor off i ex
                  newDecls'' = case newDecls of
                    [] -> newDecls
                    (d:ds) -> setEntryDPDecl d (SameLine 0) : ds
                in ( EpAnn a (AnnsLet l (addEpaLocationDelta off lastAnc i)) cs
                   , ex''
                   , newDecls'')
        binds' <- replaceDeclsValbinds WithoutWhere binds newDecls'
        return (L ll (HsLet x' binds' ex'))

  -- TODO: does this make sense? Especially as no hsDecls for HsPar
  replaceDecls (L l (HsPar x e)) newDecls
    = do
        logTr "replaceDecls HsPar"
        e' <- replaceDecls e newDecls
        return (L l (HsPar x e'))
  replaceDecls old _new = error $ "replaceDecls (LHsExpr GhcPs) undefined for:" ++ showGhc old

-- ---------------------------------------------------------------------

-- | Extract the immediate declarations for a 'PatBind' wrapped in a 'ValD'. This
-- cannot be a member of 'HasDecls' because a 'FunBind' is not idempotent
-- for 'hsDecls' \/ 'replaceDecls'. 'hsDeclsPatBindD' \/ 'replaceDeclsPatBindD' is
-- idempotent.
hsDeclsPatBindD :: (Monad m) => LHsDecl GhcPs -> TransformT m [LHsDecl GhcPs]
hsDeclsPatBindD (L l (ValD _ d)) = hsDeclsPatBind (L l d)
hsDeclsPatBindD x = error $ "hsDeclsPatBindD called for:" ++ showGhc x

-- | Extract the immediate declarations for a 'PatBind'. This
-- cannot be a member of 'HasDecls' because a 'FunBind' is not idempotent
-- for 'hsDecls' \/ 'replaceDecls'. 'hsDeclsPatBind' \/ 'replaceDeclsPatBind' is
-- idempotent.
hsDeclsPatBind :: (Monad m) => LHsBind GhcPs -> TransformT m [LHsDecl GhcPs]
hsDeclsPatBind (L _ (PatBind _ _ (GRHSs _ _grhs lb) _)) = hsDeclsValBinds lb
hsDeclsPatBind x = error $ "hsDeclsPatBind called for:" ++ showGhc x

-- -------------------------------------

-- | Replace the immediate declarations for a 'PatBind' wrapped in a 'ValD'. This
-- cannot be a member of 'HasDecls' because a 'FunBind' is not idempotent
-- for 'hsDecls' \/ 'replaceDecls'. 'hsDeclsPatBindD' \/ 'replaceDeclsPatBindD' is
-- idempotent.
replaceDeclsPatBindD :: (Monad m) => LHsDecl GhcPs -> [LHsDecl GhcPs]
                     -> TransformT m (LHsDecl GhcPs)
replaceDeclsPatBindD (L l (ValD x d)) newDecls = do
  (L _ d') <- replaceDeclsPatBind (L l d) newDecls
  return (L l (ValD x d'))
replaceDeclsPatBindD x _ = error $ "replaceDeclsPatBindD called for:" ++ showGhc x

-- | Replace the immediate declarations for a 'PatBind'. This
-- cannot be a member of 'HasDecls' because a 'FunBind' is not idempotent
-- for 'hsDecls' \/ 'replaceDecls'. 'hsDeclsPatBind' \/ 'replaceDeclsPatBind' is
-- idempotent.
replaceDeclsPatBind :: (Monad m) => LHsBind GhcPs -> [LHsDecl GhcPs]
                    -> TransformT m (LHsBind GhcPs)
replaceDeclsPatBind (L l (PatBind x a (GRHSs xr rhss binds) b)) newDecls
    = do
        logTr "replaceDecls PatBind"
        binds'' <- replaceDeclsValbinds WithWhere binds newDecls
        return (L l (PatBind x a (GRHSs xr rhss binds'') b))
replaceDeclsPatBind x _ = error $ "replaceDeclsPatBind called for:" ++ showGhc x

-- ---------------------------------------------------------------------

instance HasDecls (LocatedA (Stmt GhcPs (LocatedA (HsExpr GhcPs)))) where
  hsDecls (L _ (LetStmt _ lb))      = hsDeclsValBinds lb
  hsDecls (L _ (LastStmt _ e _ _))  = hsDecls e
  hsDecls (L _ (BindStmt _ _pat e)) = hsDecls e
  hsDecls (L _ (BodyStmt _ e _ _))  = hsDecls e
  hsDecls _                         = return []

  replaceDecls (L l (LetStmt x lb)) newDecls
    = do
        -- modifyAnnsT (captureOrder s newDecls)
        lb'' <- replaceDeclsValbinds WithWhere lb newDecls
        -- let lb' = L (getLoc lb) lb''
        return (L l (LetStmt x lb''))
  replaceDecls (L l (LastStmt x e d se)) newDecls
    = do
        e' <- replaceDecls e newDecls
        return (L l (LastStmt x e' d se))
  replaceDecls (L l (BindStmt x pat e)) newDecls
    = do
      e' <- replaceDecls e newDecls
      return (L l (BindStmt x pat e'))

  replaceDecls (L l (BodyStmt x e a b)) newDecls
    = do
      e' <- replaceDecls e newDecls
      return (L l (BodyStmt x e' a b))
  replaceDecls x _newDecls = return x

-- =====================================================================
-- end of HasDecls instances
-- =====================================================================

-- ---------------------------------------------------------------------

-- |Look up the annotated order and sort the decls accordingly
-- TODO:AZ: this should be pure
orderedDecls :: (Monad m)
             => AnnSortKey -> [LHsDecl GhcPs] -> TransformT m [LHsDecl GhcPs]
orderedDecls sortKey decls = do
  case sortKey of
    NoAnnSortKey -> do
      -- return decls
      return $ sortBy (\a b -> compare (realSrcSpan $ getLocA a) (realSrcSpan $ getLocA b)) decls
    AnnSortKey keys -> do
      let ds = map (\s -> (rs $ getLocA s,s)) decls
          ordered = map snd $ orderByKey ds keys
      return ordered

-- ---------------------------------------------------------------------

hsDeclsValBinds :: (Monad m) => HsLocalBinds GhcPs -> TransformT m [LHsDecl GhcPs]
hsDeclsValBinds lb = case lb of
    HsValBinds _ (ValBinds sortKey bs sigs) -> do
      let
        bds = map wrapDecl (bagToList bs)
        sds = map wrapSig sigs
      orderedDecls sortKey (bds ++ sds)
    HsValBinds _ (XValBindsLR _) -> error $ "hsDecls.XValBindsLR not valid"
    HsIPBinds {}       -> return []
    EmptyLocalBinds {} -> return []

data WithWhere = WithWhere
               | WithoutWhere
               deriving (Eq,Show)

-- | Utility function for returning decls to 'HsLocalBinds'. Use with
-- care, as this does not manage the declaration order, the
-- ordering should be done by the calling function from the 'HsLocalBinds'
-- context in the AST.
replaceDeclsValbinds :: (Monad m)
                     => WithWhere
                     -> HsLocalBinds GhcPs -> [LHsDecl GhcPs]
                     -> TransformT m (HsLocalBinds GhcPs)
replaceDeclsValbinds _ _ [] = do
  return (EmptyLocalBinds NoExtField)
replaceDeclsValbinds w b@(HsValBinds a _) new
    = do
        logTr "replaceDeclsValbinds"
        let oldSpan = spanHsLocaLBinds b
        an <- oldWhereAnnotation a w (realSrcSpan oldSpan)
        let decs = listToBag $ concatMap decl2Bind new
        let sigs = concatMap decl2Sig new
        let sortKey = captureOrder new
        return (HsValBinds an (ValBinds sortKey decs sigs))
replaceDeclsValbinds _ (HsIPBinds {}) _new    = error "undefined replaceDecls HsIPBinds"
replaceDeclsValbinds w (EmptyLocalBinds _) new
    = do
        logTr "replaceDecls HsLocalBinds"
        an <- newWhereAnnotation w
        let newBinds = concatMap decl2Bind new
            newSigs  = concatMap decl2Sig  new
        let decs = listToBag $ newBinds
        let sigs = newSigs
        let sortKey = captureOrder new
        return (HsValBinds an (ValBinds sortKey decs sigs))

oldWhereAnnotation :: (Monad m)
  => EpAnn AnnList -> WithWhere -> RealSrcSpan -> TransformT m (EpAnn AnnList)
oldWhereAnnotation EpAnnNotUsed ww _oldSpan = do
  newSpan <- uniqueSrcSpanT
  let w = case ww of
        WithWhere -> [AddEpAnn AnnWhere (EpaDelta (SameLine 0))]
        WithoutWhere -> []
  let anc2' = Anchor (rs newSpan) (MovedAnchor (SameLine 1))
  (anc, anc2) <- do
          newSpan' <- uniqueSrcSpanT
          return ( Anchor (rs newSpan') (MovedAnchor (DifferentLine 1 2))
                 , anc2')
  let an = EpAnn anc
                  (AnnList (Just anc2) Nothing Nothing w [])
                  emptyComments
  return an
oldWhereAnnotation (EpAnn anc an cs) ww _oldSpan = do
  -- TODO: when we set DP (0,0) for the HsValBinds EpEpaLocation, change the AnnList anchor to have the correct DP too
  let (AnnList ancl o c _r t) = an
  let w = case ww of
        WithWhere -> [AddEpAnn AnnWhere (EpaDelta (SameLine 0))]
        WithoutWhere -> []
  (anc', ancl') <- do
        case ww of
          WithWhere -> return (anc, ancl)
          WithoutWhere -> return (anc, ancl)
  let an' = EpAnn anc'
                  (AnnList ancl' o c w t)
                  cs
  return an'

newWhereAnnotation :: (Monad m) => WithWhere -> TransformT m (EpAnn AnnList)
newWhereAnnotation ww = do
  newSpan <- uniqueSrcSpanT
  let anc  = Anchor (rs newSpan) (MovedAnchor (DifferentLine 1 3))
  let anc2 = Anchor (rs newSpan) (MovedAnchor (DifferentLine 1 5))
  let w = case ww of
        WithWhere -> [AddEpAnn AnnWhere (EpaDelta (SameLine 0))]
        WithoutWhere -> []
  let an = EpAnn anc
                  (AnnList (Just anc2) Nothing Nothing w [])
                  emptyComments
  return an

-- ---------------------------------------------------------------------

type Decl  = LHsDecl GhcPs
type PMatch = LMatch GhcPs (LHsExpr GhcPs)

-- |Modify a 'LHsBind' wrapped in a 'ValD'. For a 'PatBind' the
-- declarations are extracted and returned after modification. For a
-- 'FunBind' the supplied 'SrcSpan' is used to identify the specific
-- 'Match' to be transformed, for when there are multiple of them.
modifyValD :: forall m t. (HasTransform m)
                => SrcSpan
                -> Decl
                -> (PMatch -> [Decl] -> m ([Decl], Maybe t))
                -> m (Decl,Maybe t)
modifyValD p pb@(L ss (ValD _ (PatBind {} ))) f =
  if (locA ss) == p
     then do
       ds <- liftT $ hsDeclsPatBindD pb
       (ds',r) <- f (error "modifyValD.PatBind should not touch Match") ds
       pb' <- liftT $ replaceDeclsPatBindD pb ds'
       return (pb',r)
     else return (pb,Nothing)
modifyValD p ast f = do
  (ast',r) <- runStateT (everywhereM (mkM doModLocal) ast) Nothing
  return (ast',r)
  where
    doModLocal :: PMatch -> StateT (Maybe t) m PMatch
    doModLocal  (match@(L ss _) :: PMatch) = do
         if (locA ss) == p
           then do
             ds <- lift $ liftT $ hsDecls match
             (ds',r) <- lift $ f match ds
             put r
             match' <- lift $ liftT $ replaceDecls match ds'
             return match'
           else return match

-- ---------------------------------------------------------------------

-- |Used to integrate a @Transform@ into other Monad stacks
class (Monad m) => (HasTransform m) where
  liftT :: Transform a -> m a

instance Monad m => HasTransform (TransformT m) where
  liftT = hoistTransform (return . runIdentity)

-- ---------------------------------------------------------------------

-- | Apply a transformation to the decls contained in @t@
modifyDeclsT :: (HasDecls t,HasTransform m)
             => ([LHsDecl GhcPs] -> m [LHsDecl GhcPs])
             -> t -> m t
modifyDeclsT action t = do
  decls <- liftT $ hsDecls t
  decls' <- action decls
  liftT $ replaceDecls t decls'

-- ---------------------------------------------------------------------