ghc-exactprint-0.5.8.2: ExactPrint for GHC

Safe HaskellNone
LanguageHaskell2010

Language.Haskell.GHC.ExactPrint.Transform

Contents

Description

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.

Synopsis

The Transform Monad

type Transform = TransformT Identity Source #

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.

newtype TransformT m a Source #

Monad transformer version of Transform monad

Constructors

TransformT 

Fields

Instances
MonadTrans TransformT Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

lift :: Monad m => m a -> TransformT m a #

Monad m => MonadReader () (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

ask :: TransformT m () #

local :: (() -> ()) -> TransformT m a -> TransformT m a #

reader :: (() -> a) -> TransformT m a #

Monad m => Monad (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

(>>=) :: TransformT m a -> (a -> TransformT m b) -> TransformT m b #

(>>) :: TransformT m a -> TransformT m b -> TransformT m b #

return :: a -> TransformT m a #

fail :: String -> TransformT m a #

Functor m => Functor (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

fmap :: (a -> b) -> TransformT m a -> TransformT m b #

(<$) :: a -> TransformT m b -> TransformT m a #

Monad m => Applicative (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

pure :: a -> TransformT m a #

(<*>) :: TransformT m (a -> b) -> TransformT m a -> TransformT m b #

liftA2 :: (a -> b -> c) -> TransformT m a -> TransformT m b -> TransformT m c #

(*>) :: TransformT m a -> TransformT m b -> TransformT m b #

(<*) :: TransformT m a -> TransformT m b -> TransformT m a #

HasTransform (TransformT Identity) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Monad m => MonadWriter [String] (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

writer :: (a, [String]) -> TransformT m a #

tell :: [String] -> TransformT m () #

listen :: TransformT m a -> TransformT m (a, [String]) #

pass :: TransformT m (a, [String] -> [String]) -> TransformT m a #

Monad m => MonadState (Anns, Int) (TransformT m) Source # 
Instance details

Defined in Language.Haskell.GHC.ExactPrint.Transform

Methods

get :: TransformT m (Anns, Int) #

put :: (Anns, Int) -> TransformT m () #

state :: ((Anns, Int) -> (a, (Anns, Int))) -> TransformT m a #

runTransform :: Anns -> Transform a -> (a, (Anns, Int), [String]) Source #

Run a transformation in the Transform monad, returning the updated annotations and any logging generated via logTr

runTransformFrom :: Int -> Anns -> Transform a -> (a, (Anns, Int), [String]) Source #

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.

runTransformFromT :: Int -> Anns -> TransformT m a -> m (a, (Anns, Int), [String]) Source #

Run a monad transformer stack for the TransformT monad transformer

Transform monad operations

logTr :: Monad m => String -> TransformT m () Source #

Log a string to the output of the Monad

logDataWithAnnsTr :: Monad m => Data a => String -> a -> TransformT m () Source #

Log a representation of the given AST with annotations to the output of the Monad

getAnnsT :: Monad m => TransformT m Anns Source #

Access the Anns being modified in this transformation

putAnnsT :: Monad m => Anns -> TransformT m () Source #

Replace the Anns after any changes

modifyAnnsT :: Monad m => (Anns -> Anns) -> TransformT m () Source #

Change the stored Anns

uniqueSrcSpanT :: Monad m => TransformT m SrcSpan Source #

Once we have Anns, a SrcSpan is used purely as part of an AnnKey to index into the Anns. If we need to add new elements to the AST, they need their own SrcSpan for this.

cloneT :: (Data a, Monad m) => a -> TransformT m (a, [(SrcSpan, SrcSpan)]) Source #

Make a copy of an AST element, replacing the existing SrcSpans with new ones, and duplicating the matching annotations.

graftT :: (Data a, Monad m) => Anns -> a -> TransformT m a Source #

Slightly more general form of cloneT

setEntryDPT :: (Data a, Monad m) => Located a -> DeltaPos -> TransformT m () Source #

Transform monad version of getEntryDP

transferEntryDPT :: (Data a, Data b, Monad m) => Located a -> Located b -> TransformT m () Source #

Transform monad version of transferEntryDP

addSimpleAnnT :: (Data a, Monad m) => Located a -> DeltaPos -> [(KeywordId, DeltaPos)] -> TransformT m () Source #

Create a simple Annotation without comments, and attach it to the first parameter.

addTrailingCommaT :: (Data a, Monad m) => Located a -> TransformT m () Source #

Add a trailing comma annotation, unless there is already one

removeTrailingCommaT :: (Data a, Monad m) => Located a -> TransformT m () Source #

Remove a trailing comma annotation, if there is one one

Managing declarations, in Transform monad

class Monad m => HasTransform m where Source #

Used to integrate a Transform into other Monad stacks

Minimal complete definition

liftT

Methods

liftT :: Transform a -> m a Source #

class Data t => HasDecls t where Source #

Provide a means to get and process the immediate child declartions of a given AST element.

Minimal complete definition

hsDecls, replaceDecls

Methods

hsDecls :: Monad m => t -> TransformT m [LHsDecl GhcPs] Source #

Return the HsDecls 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.

replaceDecls :: Monad m => t -> [LHsDecl GhcPs] -> TransformT m t Source #

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

hasDeclsSybTransform Source #

Arguments

:: (Data t2, Monad m) 
=> (forall t. HasDecls t => t -> m t)

Worker function for the general case

-> (LHsBind GhcPs -> m (LHsBind GhcPs))

Worker function for FunBind/PatBind

-> t2

Item to be updated

-> m t2 

Do a transformation on an AST fragment by providing a function to process the general case and one specific for a LHsBind. This is required because a FunBind may have multiple Match items, so we cannot gurantee that replaceDecls after hsDecls is idempotent.

hsDeclsGeneric :: (Data t, Monad m) => t -> TransformT m [LHsDecl GhcPs] Source #

A FunBind wraps up one or more Match items. hsDecls cannot return anything for these as there is not meaningful replaceDecls for it. This function provides a version of hsDecls that returns the FunBind decls too, where they are needed for analysis only.

hsDeclsPatBind :: Monad m => LHsBind GhcPs -> TransformT m [LHsDecl GhcPs] Source #

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.

hsDeclsPatBindD :: Monad m => LHsDecl GhcPs -> TransformT m [LHsDecl GhcPs] Source #

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.

replaceDeclsPatBind :: Monad m => LHsBind GhcPs -> [LHsDecl GhcPs] -> TransformT m (LHsBind GhcPs) Source #

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.

replaceDeclsPatBindD :: Monad m => LHsDecl GhcPs -> [LHsDecl GhcPs] -> TransformT m (LHsDecl GhcPs) Source #

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.

modifyDeclsT :: (HasDecls t, HasTransform m) => ([LHsDecl GhcPs] -> m [LHsDecl GhcPs]) -> t -> m t Source #

Apply a transformation to the decls contained in t

modifyValD :: forall m t. HasTransform m => SrcSpan -> Decl -> (Match -> [Decl] -> m ([Decl], Maybe t)) -> m (Decl, Maybe t) Source #

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.

Utility, does not manage layout

hsDeclsValBinds :: Monad m => HsLocalBinds GhcPs -> TransformT m [LHsDecl GhcPs] Source #

Utility function for extracting decls from HsLocalBinds. Use with care, as this does not necessarily return the declarations in order, the ordering should be done by the calling function from the HsLocalBinds context in the AST.

replaceDeclsValbinds :: Monad m => HsLocalBinds GhcPs -> [LHsDecl GhcPs] -> TransformT m (HsLocalBinds GhcPs) Source #

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.

Managing lists, Transform monad

insertAtStart :: HasDecls (Located ast) => Located ast -> LHsDecl GhcPs -> Transform (Located ast) Source #

Insert a declaration at the beginning or end of the subdecls of the given AST item

insertAtEnd :: HasDecls (Located ast) => Located ast -> LHsDecl GhcPs -> Transform (Located ast) Source #

Insert a declaration at the beginning or end of the subdecls of the given AST item

insertAfter :: HasDecls (Located ast) => Located old -> Located ast -> LHsDecl GhcPs -> Transform (Located ast) Source #

Insert a declaration at a specific location in the subdecls of the given AST item

insertBefore :: HasDecls (Located ast) => Located old -> Located ast -> LHsDecl GhcPs -> Transform (Located ast) Source #

Insert a declaration at a specific location in the subdecls of the given AST item

Low level operations used in HasDecls

balanceComments :: (Data a, Data b, Monad m) => Located a -> Located b -> TransformT m () Source #

The relatavise phase 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.

balanceTrailingComments :: Monad m => (Data a, Data b) => Located a -> Located b -> TransformT m [(Comment, DeltaPos)] Source #

After moving an AST element, make sure any comments that may belong with the following element in fact do. Of necessity this is a heuristic process, to be tuned later. Possibly a variant should be provided with a passed-in decision function.

moveTrailingComments :: (Data a, Data b) => Located a -> Located b -> Transform () Source #

Move any annFollowingComments values from the Annotation associated to the first parameter to that of the second.

Managing lists, pure functions

captureOrder :: Data a => Located a -> [Located b] -> Anns -> Anns Source #

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 first parameter.

captureOrderAnnKey :: AnnKey -> [Located b] -> Anns -> Anns Source #

If a list has been re-ordered or had items added, capture the new order in the appropriate annSortKey item of the supplied AnnKey

Operations

isUniqueSrcSpan :: SrcSpan -> Bool Source #

Test whether a given SrcSpan was generated by uniqueSrcSpanT

Pure functions

mergeAnns :: Anns -> Anns -> Anns Source #

Left bias pair union

mergeAnnList :: [Anns] -> Anns Source #

Combine a list of annotations

setPrecedingLinesDecl :: LHsDecl GhcPs -> Int -> Int -> Anns -> Anns Source #

Unwrap a HsDecl and call setPrecedingLines on it ++AZ++ TODO: get rid of this, it is a synonym only

setPrecedingLines :: Data a => Located a -> Int -> Int -> Anns -> Anns Source #

Adjust the entry annotations to provide an n line preceding gap

getEntryDP :: Data a => Anns -> Located a -> DeltaPos Source #

Return the true entry DeltaPos from the annotation for a given AST element. This is the DeltaPos ignoring any comments.

setEntryDP :: Data a => Located a -> DeltaPos -> Anns -> Anns Source #

Set the true entry DeltaPos from the annotation for a given AST element. This is the DeltaPos ignoring any comments.

transferEntryDP :: (Data a, Data b) => Located a -> Located b -> Anns -> Anns Source #

Take the annEntryDelta associated with the first item and associate it with the second. Also transfer any comments occuring before it.

decl2Sig :: LHsDecl name -> [LSig name] Source #

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

decl2Bind :: LHsDecl name -> [LHsBind name] Source #

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