HaRe-0.8.1.1: src/Language/Haskell/Refact/Refactoring/Renaming.hs
module Language.Haskell.Refact.Refactoring.Renaming (rename) where
import qualified Data.Generics.Schemes as SYB
import qualified Data.Generics.Aliases as SYB
import qualified GHC.SYB.Utils as SYB
import qualified GHC
import qualified Name as GHC
import qualified RdrName as GHC
import Control.Monad
import Data.List
import qualified Language.Haskell.GhcMod as GM (Options(..))
import Language.Haskell.Refact.API
import System.Directory
{-This refactoring renames an indentifier to a user-specified name.
Conditions:
a: the indentifier to be renamed should be defined in the current module.
b. the user provided name should be a valid name with regard to the name
space of the identifier.
c. the new name should not change the semantics of the program, and
should not cause any name clash/conflict/ambiguity problem in the
program.
Attention:
a. To select an identifier, stop the cursor at the beginning position of
any occurrence of the identifier.
b. Renaming a qualified name will not change the qualifier;
c. In current module, an unqualified name won't become qualified after
renaming; but, in client modules, an unqualified name might become
qualified after renaming to avoid ambiguity prolem. In case the new
name, say 'f', will cause ambiguous occurrence in the current module
(this is because the identifier 'f' is imported from other modules),
the user will be prompted to choose another new name or qualify the
use of 'f' before doing renaming.
-}
{-In the current implementation, we assume that module name is same as
the file name, but we should keep in mind that people also use unnamed
modules.
-}
-- | Rename the given identifier.
rename :: RefactSettings -> GM.Options
-> FilePath -> String -> SimpPos
-> IO [FilePath]
rename settings opts fileName newName (row,col) = do
absFileName <- canonicalizePath fileName
runRefacSession settings opts (comp absFileName newName (row,col))
-- | Body of the refactoring
comp :: FilePath -> String -> SimpPos -> RefactGhc [ApplyRefacResult]
comp fileName newName (row,col) = do
logm $ "Renaming.comp: (fileName,newName,(row,col))=" ++ show (fileName,newName,(row,col))
parseSourceFileGhc fileName
renamed <- getRefactRenamed
parsed <- getRefactParsed
modu <- getModule
targetModule <- getRefactTargetModule
let modName = case getModuleName parsed of
Just (mn,_) -> mn
Nothing -> GHC.mkModuleName "Main"
let maybePn = locToName (row, col) renamed
logm $ "Renamed.comp:maybePn=" ++ showGhc maybePn -- ++AZ++
case maybePn of
Just pn@(GHC.L _ n) -> do
logm $ "Renaming:(n,modu)=" ++ showGhc (n,modu)
let (GHC.L _ rdrName) = gfromJust "Renaming.comp.2" $ locToRdrName (row, col) parsed
let rdrNameStr = GHC.occNameString $ GHC.rdrNameOcc rdrName
logm $ "Renaming: rdrName=" ++ SYB.showData SYB.Parser 0 rdrName
logm $ "Renaming: occname rdrName=" ++ show (GHC.occNameString $ GHC.rdrNameOcc rdrName)
unless (nameToString n /= newName) $ error "The new name is same as the old name"
unless (isValidNewName n rdrNameStr newName) $ error $ "Invalid new name:" ++ newName ++ "!"
logm $ "Renaming.comp: before GHC.nameModule,n=" ++ showGhc n
let defineMod = case GHC.nameModule_maybe n of
Just mn -> GHC.moduleName mn
Nothing -> modName
-- TODO: why do we have this restriction?
unless (defineMod == modName ) ( error ("This identifier is defined in module " ++ GHC.moduleNameString defineMod ++
", please do renaming in that module!"))
logm $ "Renaming.comp:(isMainModule modu,pn)=" ++ (showGhcQual (isMainModule modu,pn))
if isMainModule modu && showGhcQual pn == "Main.main"
then error "The 'main' function defined in a 'Main' module should not be renamed!"
else do
logm $ "Renaming.comp: not main module"
newNameGhc <- mkNewGhcName (Just modu) newName
(refactoredMod,nIsExported) <- applyRefac (doRenaming pn rdrNameStr newName newNameGhc modName) RSAlreadyLoaded
logm $ "Renaming:nIsExported=" ++ show nIsExported
if nIsExported --no matter whether this pn is used or not.
then do clients <- clientModsAndFiles targetModule
logm ("Renaming: clients=" ++ show clients) -- ++AZ++ debug
refactoredClients <- mapM (renameInClientMod n newName newNameGhc) clients
return $ refactoredMod:(concat refactoredClients)
else return [refactoredMod]
Nothing -> error "Invalid cursor position!"
-- |Actually do the renaming, split into the various things that can
-- be renamed. Returns True if the name is exported
doRenaming :: GHC.Located GHC.Name -> String -> String -> GHC.Name -> GHC.ModuleName -> RefactGhc Bool
--------Rename a value variable name--------------------------------
doRenaming pn@(GHC.L _ oldn) rdrNameStr newNameStr newNameGhc modName = do
logm $ "doRenaming:(pn,rdrNameStr,newNameStr) = " ++ (showGhc (pn,rdrNameStr,newNameStr))
renamed <- getRefactRenamed
void $ SYB.everywhereM (SYB.mkM renameInMod
) renamed
logm "doRenaming done"
nIsExported <- isExported oldn
return nIsExported
where
-- 1. The name is declared in a module(top level name)
renameInMod :: GHC.RenamedSource -> RefactGhc GHC.RenamedSource
renameInMod ren
| True = do
logm $ "renameInMod"
renameTopLevelVarName oldn newNameStr newNameGhc modName ren True True
renameTopLevelVarName :: GHC.Name -> String -> GHC.Name -> GHC.ModuleName -> GHC.RenamedSource
-> Bool -> Bool -> RefactGhc GHC.RenamedSource
renameTopLevelVarName oldPN newName newNameGhc modName renamed existChecking exportChecking = do
logm $ "renameTopLevelVarName:(existChecking,exportChecking)=" ++ (show (existChecking,exportChecking))
causeAmbiguity <- causeAmbiguityInExports oldPN newNameGhc
-- f' contains names imported from other modules;
-- d' contains the top level names declared in this module;
(f',d') <- hsFDsFromInside renamed
--filter those qualified free variables in f'
-- let (f,d) = ((nub.map pNtoName.filter (not.isQualifiedPN)) f', (nub.map pNtoName) d')
let (f,d) = (map nameToString f',map nameToString d')
logm $ "renameTopLevelVarName:f=" ++ (show f)
logm $ "renameTopLevelVarName:d=" ++ (show d)
let newNameStr = nameToString newNameGhc
logm $ "renameTopLevelVarName:(newName,newNameStr)=" ++ (show (newName,newNameStr))
scopeClashNames <- inScopeNames newName
logm $ "renameTopLevelVarName:(f')=" ++ (showGhc f')
logm $ "renameTopLevelVarName:(scopeClashNames,intersection)=" ++ (showGhc (scopeClashNames,intersect scopeClashNames f'))
logm $ "renameTopLevelVarName:(oldPN,modName)=" ++ (showGhc (oldPN,modName))
if (nonEmptyList $ intersect scopeClashNames f')
then error ("The new name will cause ambiguous occurrence problem,"
++" please select another new name or qualify the use of ' "
++ newName ++ "' before renaming!\n") -- Another implementation option is to add the qualifier
-- to newName automatically.
else if existChecking && elem newNameStr (d \\ [nameToString oldPN]) --only check the declared names here.
then error ("Name '"++newName++"' already existed\n") --the same name has been declared in this module.
else if exportChecking && causeNameClashInExports oldPN newNameGhc modName renamed
then error ("The new name will cause conflicting exports, please select another new name!")
else if exportChecking && causeAmbiguity -- causeAmbiguityInExports oldPN newNameGhc {- inscps -} renamed
then error $"The new name will cause ambiguity in the exports of module "++ show modName ++ ", please select another name!"
else do -- get all of those declared names visible to oldPN at where oldPN is used.
logm $ "renameTopLevelVarName:basic tests done"
isInScopeUnqual <- isInScopeAndUnqualifiedGhc newName (Just newNameGhc)
logm $ "renameTopLevelVarName:after isInScopeUnqual"
logm $ "renameTopLevelVarName:oldPN=" ++ showGhc oldPN
ds <- hsVisibleNames oldPN renamed
logm $ "renameTopLevelVarName:ds computed=" ++ (show ds)
if existChecking && elem newName ((nub (ds `union` f)) \\[nameToString oldPN])
then error ("Name '"++newName++"' already existed, or rename '"
++nameToString oldPN++ "' to '"++newName++
"' will change the program's semantics!\n")
else if exportChecking && isInScopeUnqual -- isInScopeAndUnqualifiedGhc newName Nothing
then do
logm $ "renameTopLevelVarName start..:should have qualified"
parsed <- getRefactParsed
parsed' <- renamePN oldPN newNameGhc True parsed
putRefactParsed parsed' mempty
logm $ "renameTopLevelVarName done:should have qualified"
r' <- getRefactRenamed
return r'
else do
logm $ "renameTopLevelVarName start.."
parsed <- getRefactParsed
parsed' <- renamePN oldPN newNameGhc False parsed
putRefactParsed parsed' mempty
logm $ "renameTopLevelVarName done"
r' <- getRefactRenamed
return r'
-- ---------------------------------------------------------------------
renameInClientMod :: GHC.Name -> String -> GHC.Name -> TargetModule
-> RefactGhc [ApplyRefacResult]
renameInClientMod oldPN newName newNameGhc targetModule = do
logm $ "renameInClientMod:(oldPN,newNameGhc,targetModule)=" ++ (showGhc (oldPN,newNameGhc,targetModule)) -- ++AZ++
logm $ "renameInClientMod:(newNameGhc module)=" ++ (showGhc (GHC.nameModule newNameGhc)) -- ++AZ++
getTargetGhc targetModule
renamed <- getRefactRenamed
modName <- getRefactModuleName
-- We need to find the old name in the module, and get it as a
-- GHC.Name to know what to look for in the call to renamePN', as it
-- checks the GHC.nameUnique value.
-- gnames <- GHC.getNamesInScope
-- let clientModule = GHC.nameModule oldPN
-- let clientInscopes = filter (\n -> clientModule == GHC.nameModule n) gnames
-- logm $ "renameInClientMod:(clientInscopes)=" ++ showGhcQual (clientInscopes)
-- let newNames = filter (\n -> showGhcQual n == showGhcQual oldPN) clientInscopes
newNames <- equivalentNameInNewMod oldPN
logm $ "renameInClientMod:(newNames)=" ++ showGhcQual (newNames)
-- newNames <- inScopeNames (showGhcQual oldPN)
-- newNamesUnqual <- inScopeNames (showGhc oldPN)
-- logm $ "renameInClientMod:(newNamesUnqual,oldPN)=" ++ showGhcQual (newNamesUnqual,oldPN)
-- logm $ "renameInClientMod:(newNames,oldPN)=" ++ showGhcQual (newNames,oldPN)
-- logm $ "renameInClientMod:(uniques:newNames,oldPN)=" ++ showGhcQual (map GHC.nameUnique newNames,GHC.nameUnique oldPN)
case newNames of
[] -> return []
[oldName] ->
if findPN oldName renamed
then doRenameInClientMod oldName modName renamed
else do
logm $ "renameInClientMod:name not present in module, returning"
return []
ns -> error $ "HaRe:renameInClientMod:could not find name to replace,got:" ++ showGhcQual ns
where
doRenameInClientMod oldNameGhc modName renamed = do
-- There are two different tests we need to do here
-- 1. Does the new name clash with some existing name in the
-- client mod, in which case it must be qualified
-- 2. Is the new name module imported qualified, and so needs to
-- be qualified in the replacement, according to the import
isInScopeUnqual <- isInScopeAndUnqualifiedGhc (nameToString oldPN) Nothing
isInScopeUnqualNew <- isInScopeAndUnqualifiedGhc newName Nothing
logm $ "renameInClientMod: (isInScopeAndUnqual,isInScopeUnqualNew)=" ++ (show (isInScopeUnqual,isInScopeUnqualNew)) -- ++AZ++
if isInScopeUnqualNew -- ++AZ++: should this be negated?
then
do
-- (refactoredMod,_) <- applyRefac (refactRenameSimple oldPN newName newNameGhc True) RSAlreadyLoaded
(refactoredMod,_) <- applyRefac (refactRenameSimple oldNameGhc newName newNameGhc True) RSAlreadyLoaded
return [refactoredMod]
else
do
if causeNameClashInExports oldPN newNameGhc modName renamed
then error $"The new name will cause conflicting exports in module "++ show newName ++ ", please select another name!"
else do
-- (refactoredMod,_) <- applyRefac (refactRenameComplex oldPN newName newNameGhc) RSAlreadyLoaded
(refactoredMod,_) <- applyRefac (refactRenameComplex oldNameGhc newName newNameGhc) RSAlreadyLoaded
-- TODO: implement rest of this
return [refactoredMod]
refactRenameSimple :: GHC.Name -> String -> GHC.Name -> Bool -> RefactGhc ()
refactRenameSimple old newStr new useQual = do
logm $ "refactRenameSimple:(old,newStr,new,useQual)=" ++ showGhc (old,newStr,new,useQual)
qualifyTopLevelVar newStr
parsed <- getRefactParsed
parsed' <- renamePN old new useQual parsed
putRefactParsed parsed' mempty
return ()
refactRenameComplex :: GHC.Name -> String -> GHC.Name -> RefactGhc ()
refactRenameComplex old new newGhc = do
logm $ "refactRenameComplex:(old,new,newGhc)=" ++ showGhc (old,new,newGhc)
qualifyTopLevelVar new
worker old new newGhc
qualifyTopLevelVar :: String -> RefactGhc ()
qualifyTopLevelVar new = do
toQualify <- inScopeNames new
logm $ "renameInClientMod.qualifyTopLevelVar:new:toQualify=" ++ (show new) ++ ":" ++ (showGhc toQualify)
mapM_ qualifyToplevelName toQualify
return ()
worker :: GHC.Name -> String -> GHC.Name -> RefactGhc ()
worker oldPN' newName' newNameGhc' = do
logm $ "renameInClientMod.worker:(oldPN',newName',newNameGhc')=" ++ showGhc (oldPN',newName',newNameGhc')
renamed <- getRefactRenamed
parsed <- getRefactParsed
isInScopeUnqualNew <- isInScopeAndUnqualifiedGhc newName' Nothing
vs <- hsVisibleNames oldPN' renamed --Does this check names other than variable names?
logm $ "renameInClientMod.worker:(vs,oldPN',isInScopeUnqualNew)=" ++ showGhc (vs,oldPN',isInScopeUnqualNew)
parsed' <- if elem newName' ((nub vs) \\ [nameToString oldPN']) || isInScopeUnqualNew
then renamePN oldPN' newNameGhc' True parsed --rename to qualified Name
else renamePN oldPN' newNameGhc' False parsed -- do not qualify
putRefactParsed parsed' mempty
return ()
causeAmbiguityInExports :: GHC.Name -> GHC.Name -> RefactGhc Bool
causeAmbiguityInExports old newName {- inscps -} = do
(GHC.L _ (GHC.HsModule _ exps _imps _decls _ _)) <- getRefactParsed
isInScopeUnqual <- isInScopeAndUnqualifiedGhc (nameToString old) Nothing
let usedUnqual = usedWithoutQualR newName exps
logm $ "causeAmbiguityInExports:(isInScopeUnqual,usedUnqual)" ++ (show (isInScopeUnqual,usedUnqual))
return (isInScopeUnqual && usedUnqual)
isValidNewName :: GHC.Name -> String -> String -> Bool
isValidNewName oldName rdrNameStr newName = res
where
doTest :: Bool -> Bool -> String -> Bool
doTest isCategory isRightType errStr =
if isCategory
then if isRightType
then True
else error errStr
else True
tyconOk = doTest (GHC.isTyConName oldName)
(isConId newName)
"Invalid type constructor/class name!"
dataConOk = doTest (GHC.isDataConName oldName)
(isConId newName)
"Invalid data constructor name!"
tyVarOk = doTest (GHC.isTyVarName oldName)
(isVarId newName)
"Invalid type variable name!"
oldName' = rdrNameStr
matchNamesOk
| {- GHC.isValName oldName || -} GHC.isVarName oldName
= if isVarId oldName' && not (isVarId newName)
then error "The new name should be an identifier!"
else if isOperator oldName' && not (isOperator newName)
then error "The new name should be an operator!"
else if (isVarId oldName' && isVarId newName) ||
(isOperator oldName' && isOperator newName)
then True
-- else error "Invalid new name!"
else error $ "Invalid new name!" ++ (show (oldName',newName,isVarId oldName',isVarId newName,isOperator oldName',isOperator newName))
| otherwise = True
res = tyconOk && dataConOk {- && fieldOk && instanceOk -} &&
tyVarOk && matchNamesOk
-- EOF