hackport-0.8.3.0: src/Merge.hs
{-|
Module : Merge
License : GPL-3+
Maintainer : haskell@gentoo.org
Core functionality of the @merge@ command of @HackPort@.
-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ViewPatterns #-}
module Merge
( merge
, mergeGenericPackageDescription
) where
import Control.Applicative
import Control.Monad
import Control.Exception.Lifted
import qualified Data.Text as T
import qualified Data.Text.IO as T
import Data.Function (on)
import qualified Data.Map.Strict as Map
import Data.Maybe
import qualified Data.List as L
import qualified Data.Set as S
import qualified Data.Time.Clock as TC
-- cabal
import qualified Distribution.Package as Cabal
import qualified Distribution.Version as Cabal
import qualified Distribution.PackageDescription as Cabal
import qualified Distribution.Simple.Utils as Cabal
import qualified Distribution.PackageDescription.PrettyPrint as Cabal (showPackageDescription)
import qualified Distribution.Solver.Types.SourcePackage as CabalInstall
import qualified Distribution.Solver.Types.PackageIndex as CabalInstall
import Distribution.Pretty (prettyShow)
-- cabal-install
import Distribution.Client.IndexUtils ( getSourcePackages )
import qualified Distribution.Client.GlobalFlags as CabalInstall
import Distribution.Client.Types
-- others
import Control.Parallel.Strategies
import qualified Data.List.Split as DLS
import System.Directory ( getCurrentDirectory
, setCurrentDirectory
, createDirectoryIfMissing
, doesFileExist
, listDirectory
)
import System.Process
import System.FilePath ((</>),(<.>))
import System.Exit (ExitCode(ExitSuccess), exitSuccess)
-- hackport
import qualified AnsiColor as A
import qualified Cabal2Ebuild as C2E
import qualified Portage.EBuild as E
import qualified Portage.EMeta as EM
import Error as E
import qualified Portage.Cabal as Portage
import qualified Portage.PackageId as Portage
import qualified Portage.Version as Portage
import qualified Portage.Metadata as Portage
import qualified Portage.Overlay as Overlay
import qualified Portage.Resolve as Portage
import qualified Portage.Dependency as Portage
import qualified Portage.Use as Portage
import qualified Portage.GHCCore as GHCCore
import qualified Merge.Dependencies as Merge
import qualified Merge.Utils as Merge
import Util
import Overlays (getOverlayPath)
import Hackport.Env
{-
Requested features:
* Add files to git?
-}
-- | Call @diff@ between two ebuilds.
diffEbuilds :: FilePath -> Portage.PackageId -> Portage.PackageId -> IO ()
diffEbuilds fp a b = do _ <- system $ "diff -u --color=auto "
++ fp </> Portage.packageIdToFilePath a ++ " "
++ fp </> Portage.packageIdToFilePath b
exitSuccess
-- | Given a list of available packages, and maybe a preferred version,
-- return the available package with that version. Latest version is chosen
-- if no preference.
resolveVersion :: [UnresolvedSourcePackage] -> Maybe Cabal.Version -> Maybe UnresolvedSourcePackage
resolveVersion avails Nothing = Just $ L.maximumBy (Cabal.comparing (Cabal.pkgVersion . CabalInstall.srcpkgPackageId)) avails
resolveVersion avails (Just ver) = listToMaybe (filter match avails)
where
match avail = ver == Cabal.pkgVersion (CabalInstall.srcpkgPackageId avail)
-- | This function is executed by the @merge@ command of @HackPort@.
-- Its functionality is as follows:
--
-- 1. Feed user input to 'readPackageString'
-- 2. Look for a matching package on the @hackage@ database
-- 3. Run 'mergeGenericPackageDescription' with the supplied information
-- 4. Generate a coloured diff between the old and new ebuilds.
--
-- Various information is printed in between these steps depending on the
-- 'Verbosity'.
merge
:: WritesMetadata env
=> CabalInstall.RepoContext
-> String
-> Maybe String
-> Env env ()
merge repoContext packageString users_cabal_flags
= askGlobalEnv >>= \(GlobalEnv verbosity _ _) -> do
overlayPath <- getOverlayPath
(m_category, user_pName, m_version) <-
case Merge.readPackageString packageString of
Left err -> throw err
Right (c,p,m_v) ->
case m_v of
Nothing -> return (c,p,Nothing)
Just v -> case Portage.toCabalVersion v of
Nothing -> throw (ArgumentError "illegal version")
Just ver -> return (c,p,Just ver)
debug $ "Category: " ++ show m_category
debug $ "Package: " ++ show user_pName
debug $ "Version: " ++ show m_version
let user_pname_str = Cabal.unPackageName user_pName
overlay <- liftIO $ Overlay.loadLazy overlayPath
-- portage_path <- Host.portage_dir `fmap` Host.getInfo
-- portage <- Overlay.loadLazy portage_path
index <- fmap packageIndex $ liftIO $ getSourcePackages verbosity repoContext
-- find all packages that maches the user specified package name
availablePkgs <-
case map snd (CabalInstall.searchByName index user_pname_str) of
[] -> throw (PackageNotFound user_pname_str)
[pkg] -> return pkg
pkgs -> do let cabal_pkg_to_pn pkg = Cabal.unPackageName $ Cabal.pkgName (CabalInstall.srcpkgPackageId pkg)
names = map (cabal_pkg_to_pn . L.head) pkgs
notice $ "Ambiguous names: " ++ L.intercalate ", " names
forM_ pkgs $ \ps ->
do let p_name = (cabal_pkg_to_pn . L.head) ps
notice $ p_name ++ ": " ++ (L.intercalate ", " $ map (prettyShow . Cabal.pkgVersion . CabalInstall.srcpkgPackageId) ps)
return $ concat pkgs
-- select a single package taking into account the user specified version
selectedPkg <- liftIO $
case resolveVersion availablePkgs m_version of
Nothing -> do
putStrLn "No such version for that package, available versions:"
forM_ availablePkgs $ \ avail ->
putStrLn (prettyShow . CabalInstall.srcpkgPackageId $ avail)
throw (ArgumentError "no such version for that package")
Just avail -> return avail
-- print some info
info "Selecting package:"
forM_ availablePkgs $ \ avail -> do
let match_text | CabalInstall.srcpkgPackageId avail == CabalInstall.srcpkgPackageId selectedPkg = "* "
| otherwise = "- "
info $ match_text ++ (prettyShow . CabalInstall.srcpkgPackageId $ avail)
let cabal_pkgId = CabalInstall.srcpkgPackageId selectedPkg
norm_pkgName = Cabal.packageName (Portage.normalizeCabalPackageId cabal_pkgId)
cat <- liftIO $ maybe (Portage.resolveCategory verbosity overlay norm_pkgName) return m_category
mergeGenericPackageDescription
cat
(CabalInstall.srcpkgDescription selectedPkg)
True
users_cabal_flags
-- Maybe generate a diff
let pkgPath = overlayPath </> (Portage.unCategory cat) </> (Cabal.unPackageName norm_pkgName)
newPkgId = Portage.fromCabalPackageId cat cabal_pkgId
pkgDir <- liftIO $ listDirectory pkgPath
case Merge.getPreviousPackageId pkgDir newPkgId of
Just validPkg -> do info "Generating a diff..."
liftIO $ diffEbuilds overlayPath validPkg newPkgId
_ -> info "Nothing to diff!"
-- used to be FlagAssignment in Cabal but now it's an opaque type
type CabalFlags = [(Cabal.FlagName, Bool)]
-- | Generate an ebuild from a 'Cabal.GenericPackageDescription'.
mergeGenericPackageDescription
:: WritesMetadata env
=> Portage.Category
-> Cabal.GenericPackageDescription
-> Bool
-> Maybe String
-> Env env ()
mergeGenericPackageDescription cat pkgGenericDesc fetch users_cabal_flags = do
overlayPath <- getOverlayPath
overlay <- liftIO $ Overlay.loadLazy overlayPath
let merged_cabal_pkg_name = Cabal.pkgName (Cabal.package (Cabal.packageDescription pkgGenericDesc))
merged_PN = Portage.cabal_pn_to_PN merged_cabal_pkg_name
pkgdir = overlayPath </> Portage.unCategory cat </> merged_PN
existing_meta <- liftIO $ EM.findExistingMeta pkgdir
let requested_cabal_flags = users_cabal_flags <|> EM.cabal_flags existing_meta
-- accepts things, like: "cabal_flag:iuse_name", "+cabal_flag", "-cabal_flag"
read_fas :: Maybe String -> (CabalFlags, [(String, String)])
read_fas Nothing = ([], [])
read_fas (Just user_fas_s) = (user_fas, user_renames)
where user_fas = [ (cf, b)
| ((cf, _), Just b) <- cn_in_mb
]
user_renames = [ (cfn, ein)
| ((cabal_cfn, ein), Nothing) <- cn_in_mb
, let cfn = Cabal.unFlagName cabal_cfn
]
cn_in_mb = map read_fa $ DLS.splitOn "," user_fas_s
read_fa :: String -> ((Cabal.FlagName, String), Maybe Bool)
read_fa [] = error $ "read_fas: empty flag?"
read_fa (op:flag) =
case op of
'+' -> (get_rename flag, Just True)
'-' -> (get_rename flag, Just False)
_ -> (get_rename (op:flag), Nothing)
where get_rename :: String -> (Cabal.FlagName, String)
get_rename s =
case DLS.splitOn ":" s of
[cabal_flag_name] -> (Cabal.mkFlagName cabal_flag_name, cabal_flag_name)
[cabal_flag_name, iuse_name] -> (Cabal.mkFlagName cabal_flag_name, iuse_name)
_ -> error $ "get_rename: too many components" ++ show (s)
(user_specified_fas, cf_to_iuse_rename) = read_fas requested_cabal_flags
debug "searching for minimal suitable ghc version"
(compiler_info, ghc_packages, pkgDesc0, _flags, pix) <- case GHCCore.minimumGHCVersionToBuildPackage pkgGenericDesc (Cabal.mkFlagAssignment user_specified_fas) of
Just v -> return v
Nothing -> let pn = prettyShow merged_cabal_pkg_name
cn = prettyShow cat
in error $ unlines [ "mergeGenericPackageDescription: failed to find suitable GHC for " ++ pn
, " You can try to merge the package manually:"
, " $ cabal unpack " ++ pn
, " $ cd " ++ pn ++ "*/"
, " # fix " ++ pn ++ ".cabal"
, " $ hackport make-ebuild " ++ cn ++ " " ++ pn ++ ".cabal"
]
--
let (accepted_deps, skipped_deps) = Portage.partition_depends ghc_packages merged_cabal_pkg_name
(Merge.exeAndLibDeps pkgDesc0)
pkgDesc = Merge.RetroPackageDescription pkgDesc0 accepted_deps
cabal_flag_descs = Cabal.genPackageFlags pkgGenericDesc
all_flags = map Cabal.flagName cabal_flag_descs
make_fas :: [Cabal.PackageFlag] -> [CabalFlags]
make_fas [] = [[]]
make_fas (f:rest) = [ (fn, is_enabled) : fas
| fas <- make_fas rest
, let fn = Cabal.flagName f
users_choice = lookup fn user_specified_fas
, is_enabled <- maybe [False, True]
(\b -> [b])
users_choice
]
all_possible_flag_assignments :: [CabalFlags]
all_possible_flag_assignments = make_fas cabal_flag_descs
pp_fa :: CabalFlags -> String
pp_fa fa = L.intercalate ", " [ (if b then '+' else '-') : f
| (cabal_f, b) <- fa
, let f = Cabal.unFlagName cabal_f
]
cfn_to_iuse :: String -> String
cfn_to_iuse cfn =
case lookup cfn cf_to_iuse_rename of
Nothing -> Merge.mangle_iuse cfn
Just ein -> ein
-- key idea is to generate all possible list of flags
deps1 :: [(CabalFlags, Merge.EDep)]
deps1 = [ ( f `updateFa` Cabal.unFlagAssignment fr
, cabal_to_emerge_dep pkgDesc_filtered_bdeps)
| f <- all_possible_flag_assignments
, Right (pkgDesc1,fr) <- [GHCCore.finalizePD (Cabal.mkFlagAssignment f)
GHCCore.defaultComponentRequestedSpec
(GHCCore.dependencySatisfiable pix)
GHCCore.platform
compiler_info
[]
pkgGenericDesc]
-- drop circular deps and shipped deps
, let (ad, _sd) = Portage.partition_depends ghc_packages merged_cabal_pkg_name
(Merge.exeAndLibDeps pkgDesc1)
-- TODO: drop ghc libraries from tests depends as well
-- (see deepseq in hackport-0.3.5 as an example)
, let pkgDesc_filtered_bdeps = Merge.RetroPackageDescription pkgDesc1 ad
] `using` parList rdeepseq
where
updateFa :: CabalFlags -> CabalFlags -> CabalFlags
updateFa [] _ = []
updateFa (x:xs) y = case lookup (fst x) y of
-- TODO: when does this code get triggered?
Nothing -> x : updateFa xs y
Just y' -> (fst x,y') : updateFa xs y
-- then remove all flags that can't be changed
successfully_resolved_flag_assignments = map fst deps1
common_fa = L.foldl1' L.intersect successfully_resolved_flag_assignments
common_flags = map fst common_fa
active_flags = all_flags L.\\ common_flags
active_flag_descs = filter (\x -> Cabal.flagName x `elem` active_flags) cabal_flag_descs
irresolvable_flag_assignments = all_possible_flag_assignments L.\\ successfully_resolved_flag_assignments
-- flags, not guarding any dependency variation, like:
-- if flag(foo)
-- ghc-options: -O2
(irrelevant_flags, deps1') = L.foldl' drop_irrelevant ([], deps1) active_flags
where drop_irrelevant :: ([Cabal.FlagName], [(CabalFlags, Merge.EDep)]) -> Cabal.FlagName -> ([Cabal.FlagName], [(CabalFlags, Merge.EDep)])
drop_irrelevant (ifs, ds) f =
case fenabled_ds' == fdisabled_ds' of
True -> (f:ifs, fenabled_ds')
False -> ( ifs, ds)
where (fenabled_ds', fdisabled_ds') = ( L.sort $ map drop_f fenabled_ds
, L.sort $ map drop_f fdisabled_ds
)
drop_f :: (CabalFlags, Merge.EDep) -> (CabalFlags, Merge.EDep)
drop_f (fas, d) = (filter ((f /=) . fst) fas, d)
(fenabled_ds, fdisabled_ds) = L.partition is_fe ds
is_fe :: (CabalFlags, Merge.EDep) -> Bool
is_fe (fas, _d) =
case lookup f fas of
Just v -> v
-- should not happen
Nothing -> error $ unwords [ "ERROR: drop_irrelevant: searched for missing flag"
, show f
, "in assignment"
, show fas
]
-- and finally prettify all deps:
leave_only_dynamic_fa :: CabalFlags -> CabalFlags
leave_only_dynamic_fa fa = filter (\(fn, _) -> all (fn /=) irrelevant_flags) $ fa L.\\ common_fa
-- build roughly balanced complete dependency tree instead of skewed one
bimerge :: [Merge.EDep] -> Merge.EDep
bimerge deps = case go deps of
[] -> mempty
[r] -> r
_ -> error "bimerge: something bad happened"
where go deps' =
case deps' of
(d1:d2:ds) -> go (mappend d1 d2 : go ds)
_ -> deps'
tdeps :: Merge.EDep
tdeps = bimerge $ map set_fa_to_ed deps1'
set_fa_to_ed :: (CabalFlags, Merge.EDep) -> Merge.EDep
set_fa_to_ed (fa, ed) = ed { Merge.rdep = liftFlags (leave_only_dynamic_fa fa) $ Merge.rdep ed
, Merge.dep = liftFlags (leave_only_dynamic_fa fa) $ Merge.dep ed
}
liftFlags :: CabalFlags -> Portage.Dependency -> Portage.Dependency
liftFlags fs e = let k = foldr (\(y,b) x -> Portage.mkUseDependency (b, Portage.Use . cfn_to_iuse . Cabal.unFlagName $ y) . x)
id fs
in k e
cabal_to_emerge_dep :: Merge.RetroPackageDescription -> Merge.EDep
cabal_to_emerge_dep cabal_pkg = Merge.resolveDependencies overlay cabal_pkg compiler_info ghc_packages merged_cabal_pkg_name
-- When there are lots of package flags, computation of every possible flag combination
-- can take a while (e.g., 12 package flags = 2^12 possible flag combinations).
-- Warn the user about this if there are at least 12 package flags. 'cabal_flag_descs'
-- is usually an overestimation since it includes flags that hackport will strip out,
-- but using it instead of 'active_flag_descs' avoids forcing the very computation we
-- are trying to warn the user about.
when (length cabal_flag_descs >= 12) $
notice $ "There are up to " ++
A.bold (show (2^(length cabal_flag_descs) :: Int)) ++
" possible flag combinations.\n" ++
A.inColor A.Yellow True A.Default "This may take a while."
debug $ "buildDepends pkgDesc0 raw: " ++ Cabal.showPackageDescription pkgDesc0
debug $ "buildDepends pkgDesc0: " ++ show (map prettyShow (Merge.exeAndLibDeps pkgDesc0))
debug $ "buildDepends pkgDesc: " ++ show (map prettyShow (Merge.buildDepends pkgDesc))
notice $ "Accepted depends: " ++ show (map prettyShow accepted_deps)
notice $ "Skipped depends: " ++ show (map prettyShow skipped_deps)
notice $ "Dead flags: " ++ show (map pp_fa irresolvable_flag_assignments)
notice $ "Dropped flags: " ++ show (map (Cabal.unFlagName.fst) common_fa)
notice $ "Active flags: " ++ show (map Cabal.unFlagName active_flags)
notice $ "Irrelevant flags: " ++ show (map Cabal.unFlagName irrelevant_flags)
-- mapM_ print tdeps
forM_ ghc_packages $
\name -> info $ "Excluded packages (comes with ghc): " ++ Cabal.unPackageName name
-- We only add the current arch to KEYWORDS
thisArch <- run_cmd "portageq envvar ARCH" >>=
maybe
(die "Error running 'portageq envvar ARCH'")
(pure . head . lines)
let pp_fn (cabal_fn, yesno) = b yesno ++ Cabal.unFlagName cabal_fn
where b True = ""
b False = "-"
-- appends 's' to each line except the last one
-- handy to build multiline shell expressions
icalate _s [] = []
icalate _s [x] = [x]
icalate s (x:xs) = (x ++ s) : icalate s xs
build_configure_call :: [String] -> [String]
build_configure_call [] = []
build_configure_call conf_args = icalate " \\" $
"haskell-cabal_src_configure" :
map ('\t':) conf_args
-- returns list USE-parameters to './setup configure'
selected_flags :: ([Cabal.FlagName], CabalFlags) -> [String]
selected_flags ([], []) = []
selected_flags (active_fns, users_fas) = map snd (L.sortBy (compare `on` fst) flag_pairs)
where flag_pairs :: [(String, String)]
flag_pairs = active_pairs ++ users_pairs
active_pairs = map (\fn -> (fn, "$(cabal_flag " ++ cfn_to_iuse fn ++ " " ++ fn ++ ")")) $ map Cabal.unFlagName active_fns
users_pairs = map (\fa -> ((Cabal.unFlagName . fst) fa, "--flag=" ++ pp_fn fa)) users_fas
to_iuse x = let fn = Cabal.unFlagName $ Cabal.flagName x
p = if Cabal.flagDefault x then "+" else ""
in p ++ cfn_to_iuse fn
ebuild = (\e -> e { E.iuse = E.iuse e ++ map to_iuse active_flag_descs })
. ( case requested_cabal_flags of
Nothing -> id
Just ucf -> (\e -> e { E.used_options = E.used_options e ++ [("flags", ucf)] }))
$ (C2E.cabal2ebuild cat (Merge.packageDescription pkgDesc))
{ E.depend = Merge.dep tdeps
, E.depend_extra = S.toList $ Merge.dep_e tdeps
, E.rdepend = Merge.rdep tdeps
, E.rdepend_extra = S.toList $ Merge.rdep_e tdeps
, E.src_configure = build_configure_call $
selected_flags (active_flags, user_specified_fas)
, E.keywords = [ '~' : thisArch ]
}
let active_flag_descs_renamed =
(\f -> f { Cabal.flagName = Cabal.mkFlagName . cfn_to_iuse . Cabal.unFlagName
. Cabal.flagName $ f }) <$> active_flag_descs
iuse_flag_descs <- liftIO $ Merge.dropIfUseExpands active_flag_descs_renamed
mergeEbuild existing_meta pkgdir ebuild iuse_flag_descs
when fetch $ do
let cabal_pkgId = Cabal.packageId (Merge.packageDescription pkgDesc)
norm_pkgName = Cabal.packageName (Portage.normalizeCabalPackageId cabal_pkgId)
fetchDigestAndCheck (overlayPath </> prettyShow cat </> prettyShow norm_pkgName)
$ Portage.fromCabalPackageId cat cabal_pkgId
-- | Run @ebuild@ and @pkgcheck@ commands in the directory of the
-- newly-generated ebuild.
--
-- This will ensure well-formed ebuilds and @metadata.xml@, and will update (if possible)
-- the @Manifest@ file.
fetchDigestAndCheck
:: FilePath -- ^ directory of ebuild
-> Portage.PackageId -- ^ newest ebuild
-> Env env ()
fetchDigestAndCheck ebuildDir pkgId = do
let ebuild = prettyShow (Portage.cabalPkgName . Portage.packageId $ pkgId)
++ "-" ++ prettyShow (Portage.pkgVersion pkgId) <.> "ebuild"
withWorkingDirectory ebuildDir $ do
notice "Recalculating digests..."
emEx <- liftIO $ system $ "ebuild " ++ ebuild ++ " manifest > /dev/null 2>&1"
when (emEx /= ExitSuccess) $
notice "ebuild manifest failed horribly. Do something about it!"
notice $ "Running " ++ A.bold "pkgcheck scan..."
(psEx,psOut,_) <- liftIO $ readCreateProcessWithExitCode (shell "pkgcheck scan --color True") ""
when (psEx /= ExitSuccess) $ -- this should never be true, even with QA issues.
notice $ A.inColor A.Red True A.Default "pkgcheck scan failed."
notice psOut
withWorkingDirectory :: FilePath -> Env env a -> Env env a
withWorkingDirectory newDir action = do
oldDir <- liftIO $ getCurrentDirectory
bracket
(liftIO $ setCurrentDirectory newDir)
(\_ -> liftIO $ setCurrentDirectory oldDir)
(\_ -> action)
-- | Write the ebuild (and sometimes a new @metadata.xml@) to its directory.
mergeEbuild
:: forall env. WritesMetadata env
=> EM.EMeta
-> FilePath
-> E.EBuild
-> [Cabal.PackageFlag]
-> Env env ()
mergeEbuild existing_meta pkgdir ebuild flags = do
cmdEnv :: env <- askEnv
let edir = pkgdir
elocal = E.name ebuild ++"-"++ E.version ebuild <.> "ebuild"
epath = edir </> elocal
emeta = "metadata.xml"
mpath = edir </> emeta
yet_meta <- liftIO $ doesFileExist mpath
-- Get the current metadata.xml contents if it exists. If it does, try to
-- parse it as well.
currentMetaState :: Maybe (T.Text, Portage.Metadata) <-
if yet_meta
then do
t <- liftIO $ T.readFile mpath
case Portage.parseMetadataXML t of
Just m -> pure $ Just (t, m)
Nothing -> die "Could not parse the existing metadata.xml"
else pure Nothing
let
-- Break the currentMetaState into it's individual components
currentMetaText = fst <$> currentMetaState
currentMeta = snd <$> currentMetaState
-- Update the current metadata with info from 'ebuild' and 'flags'. If
-- the current metadata doesn't exist, this will build off a template.
updatedMeta = Portage.updateMetadata cmdEnv ebuild flags currentMeta
-- Write the updated meta file to a Text buffer
updatedMetaText = Portage.printMetadata updatedMeta
-- Create a 'Map.Map' of USE flags with updated descriptions.
new_flags = Map.differenceWith (\new old -> if (new /= old)
then Just $ old ++ A.bold (" -> " ++ new)
else Nothing)
(Merge.metaFlags flags)
(Portage.metadataUseFlags updatedMeta)
liftIO $ createDirectoryIfMissing True edir
now <- liftIO $ TC.getCurrentTime
let existing_license = EM.license existing_meta
new_license = either (\err -> maybe (Left err)
Right
existing_license)
Right
(E.license ebuild)
ebuild' = ebuild { E.license = new_license
}
s_ebuild' = E.showEBuild now ebuild'
notice $ "Current license: " ++ show existing_license ++ " -> " ++ show new_license
notice $ "Writing " ++ elocal
length s_ebuild' `seq` liftIO (T.writeFile epath (T.pack s_ebuild'))
metadataNeedsWriting <-
case currentMetaText of
Just t
-- If the metadata.xml exists and our updated version is identical,
-- we don't need to write it
| t == updatedMetaText -> pure False
| otherwise -> do
notice $ A.bold $ "Default and current " ++ emeta ++ " differ."
if (new_flags /= Map.empty)
then notice $ "New or updated USE flags:\n" ++
unlines (Portage.prettyPrintFlagsHuman (Portage.stripGlobalUseFlags new_flags))
else notice "No new USE flags."
pure True
Nothing -> pure True
when metadataNeedsWriting $ do
notice $ "Writing " ++ emeta
liftIO $ T.writeFile mpath updatedMetaText