module GF.Infra.Option
(
Options,
Flags(..),
Mode(..), Phase(..), Verbosity(..),
OutputFormat(..),
SISRFormat(..), Optimization(..), CFGTransform(..), HaskellOption(..),
Dump(..), Pass(..), Recomp(..),
outputFormatsExpl,
parseOptions, parseModuleOptions, fixRelativeLibPaths,
optionsGFO,
optionsPGF,
addOptions, concatOptions, noOptions,
modifyFlags,
helpMessage,
flag, cfgTransform, haskellOption, readOutputFormat,
isLexicalCat, isLiteralCat, renameEncoding, getEncoding, defaultEncoding,
setOptimization, setCFGTransform,
verbAtLeast, dump
) where
import Control.Monad
import Data.Char (toLower, isDigit)
import Data.List
import Data.Maybe
import GF.Infra.Ident
import GF.Infra.GetOpt
import GF.Grammar.Predef
import System.FilePath
import GF.Data.Operations(Err,ErrorMonad(..),liftErr)
import Data.Set (Set)
import qualified Data.Set as Set
import PGF.Internal(Literal(..))
usageHeader :: String
usageHeader = unlines
["Usage: gf [OPTIONS] [FILE [...]]",
"",
"How each FILE is handled depends on the file name suffix:",
"",
".gf Normal or old GF source, will be compiled.",
".gfo Compiled GF source, will be loaded as is.",
".gfe Example-based GF source, will be converted to .gf and compiled.",
".ebnf Extended BNF format, will be converted to .gf and compiled.",
".cf Context-free (BNF) format, will be converted to .gf and compiled.",
"",
"If multiple FILES are given, they must be normal GF source, .gfo or .gfe files.",
"For the other input formats, only one file can be given.",
"",
"Command-line options:"]
helpMessage :: String
helpMessage = usageInfo usageHeader optDescr
errors :: ErrorMonad err => [String] -> err a
errors = raise . unlines
data Mode = ModeVersion | ModeHelp
| ModeInteractive | ModeRun
| ModeInteractive2 | ModeRun2
| ModeCompiler
| ModeServer Int
deriving (Show,Eq,Ord)
data Verbosity = Quiet | Normal | Verbose | Debug
deriving (Show,Eq,Ord,Enum,Bounded)
data Phase = Preproc | Convert | Compile | Link
deriving (Show,Eq,Ord)
data OutputFormat = FmtPGFPretty
| FmtJavaScript
| FmtPython
| FmtHaskell
| FmtProlog
| FmtLambdaProlog
| FmtByteCode
| FmtBNF
| FmtEBNF
| FmtRegular
| FmtNoLR
| FmtSRGS_XML
| FmtSRGS_XML_NonRec
| FmtSRGS_ABNF
| FmtSRGS_ABNF_NonRec
| FmtJSGF
| FmtGSL
| FmtVoiceXML
| FmtSLF
| FmtRegExp
| FmtFA
deriving (Eq,Ord)
data SISRFormat =
SISR_WD20030401
| SISR_1_0
deriving (Show,Eq,Ord)
data Optimization = OptStem | OptCSE | OptExpand | OptParametrize
deriving (Show,Eq,Ord)
data CFGTransform = CFGNoLR
| CFGRegular
| CFGTopDownFilter
| CFGBottomUpFilter
| CFGStartCatOnly
| CFGMergeIdentical
| CFGRemoveCycles
deriving (Show,Eq,Ord)
data HaskellOption = HaskellNoPrefix | HaskellGADT | HaskellLexical
| HaskellConcrete | HaskellVariants
deriving (Show,Eq,Ord)
data Warning = WarnMissingLincat
deriving (Show,Eq,Ord)
newtype Dump = Dump Pass deriving (Show,Eq,Ord)
data Pass = Source | Rebuild | Extend | Rename | TypeCheck | Refresh | Optimize | Canon
deriving (Show,Eq,Ord)
data Recomp = AlwaysRecomp | RecompIfNewer | NeverRecomp
deriving (Show,Eq,Ord)
data Flags = Flags {
optMode :: Mode,
optStopAfterPhase :: Phase,
optVerbosity :: Verbosity,
optShowCPUTime :: Bool,
optOutputFormats :: [OutputFormat],
optSISR :: Maybe SISRFormat,
optHaskellOptions :: Set HaskellOption,
optLexicalCats :: Set String,
optLiteralCats :: Set Ident,
optGFODir :: Maybe FilePath,
optOutputDir :: Maybe FilePath,
optGFLibPath :: Maybe FilePath,
optDocumentRoot :: Maybe FilePath,
optRecomp :: Recomp,
optProbsFile :: Maybe FilePath,
optRetainResource :: Bool,
optName :: Maybe String,
optPreprocessors :: [String],
optEncoding :: Maybe String,
optPMCFG :: Bool,
optOptimizations :: Set Optimization,
optOptimizePGF :: Bool,
optSplitPGF :: Bool,
optCFGTransforms :: Set CFGTransform,
optLibraryPath :: [FilePath],
optStartCat :: Maybe String,
optSpeechLanguage :: Maybe String,
optLexer :: Maybe String,
optUnlexer :: Maybe String,
optWarnings :: [Warning],
optDump :: [Dump],
optTagsOnly :: Bool,
optHeuristicFactor :: Maybe Double,
optCaseSensitive :: Bool,
optPlusAsBind :: Bool,
optJobs :: Maybe (Maybe Int),
optTrace :: Bool
}
deriving (Show)
newtype Options = Options (Flags -> Flags)
instance Show Options where
show (Options o) = show (o defaultFlags)
parseOptions :: ErrorMonad err =>
[String]
-> err (Options, [FilePath])
parseOptions args
| not (null errs) = errors errs
| otherwise = do opts <- concatOptions `fmap` liftErr (sequence optss)
return (opts, files)
where
(optss, files, errs) = getOpt RequireOrder optDescr args
parseModuleOptions :: ErrorMonad err =>
[String]
-> err Options
parseModuleOptions args = do
(opts,nonopts) <- parseOptions args
if null nonopts
then return opts
else errors $ map ("Non-option among module options: " ++) nonopts
fixRelativeLibPaths curr_dir lib_dir (Options o) = Options (fixPathFlags . o)
where
fixPathFlags f@(Flags{optLibraryPath=path}) = f{optLibraryPath=concatMap (\dir -> [curr_dir </> dir, lib_dir </> dir]) path}
optionsGFO :: Options -> [(String,Literal)]
optionsGFO opts = optionsPGF opts
++ [("coding", LStr (getEncoding opts))]
optionsPGF :: Options -> [(String,Literal)]
optionsPGF opts =
maybe [] (\x -> [("language",LStr x)]) (flag optSpeechLanguage opts)
++ maybe [] (\x -> [("startcat",LStr x)]) (flag optStartCat opts)
++ maybe [] (\x -> [("heuristic_search_factor",LFlt x)]) (flag optHeuristicFactor opts)
++ (if flag optCaseSensitive opts then [] else [("case_sensitive",LStr "off")])
flag :: (Flags -> a) -> Options -> a
flag f (Options o) = f (o defaultFlags)
addOptions :: Options -> Options -> Options
addOptions (Options o1) (Options o2) = Options (o2 . o1)
noOptions :: Options
noOptions = Options id
concatOptions :: [Options] -> Options
concatOptions = foldr addOptions noOptions
modifyFlags :: (Flags -> Flags) -> Options
modifyFlags = Options
getEncoding :: Options -> String
getEncoding = renameEncoding . maybe defaultEncoding id . flag optEncoding
defaultEncoding = "UTF-8"
defaultFlags :: Flags
defaultFlags = Flags {
optMode = ModeInteractive,
optStopAfterPhase = Compile,
optVerbosity = Normal,
optShowCPUTime = False,
optOutputFormats = [],
optSISR = Nothing,
optHaskellOptions = Set.empty,
optLiteralCats = Set.fromList [cString,cInt,cFloat,cVar],
optLexicalCats = Set.empty,
optGFODir = Nothing,
optOutputDir = Nothing,
optGFLibPath = Nothing,
optDocumentRoot = Nothing,
optRecomp = RecompIfNewer,
optProbsFile = Nothing,
optRetainResource = False,
optName = Nothing,
optPreprocessors = [],
optEncoding = Nothing,
optPMCFG = True,
optOptimizations = Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize],
optOptimizePGF = False,
optSplitPGF = False,
optCFGTransforms = Set.fromList [CFGRemoveCycles, CFGBottomUpFilter,
CFGTopDownFilter, CFGMergeIdentical],
optLibraryPath = [],
optStartCat = Nothing,
optSpeechLanguage = Nothing,
optLexer = Nothing,
optUnlexer = Nothing,
optWarnings = [],
optDump = [],
optTagsOnly = False,
optHeuristicFactor = Nothing,
optCaseSensitive = True,
optPlusAsBind = False,
optJobs = Nothing,
optTrace = False
}
optDescr :: [OptDescr (Err Options)]
optDescr =
[
Option ['?','h'] ["help"] (NoArg (mode ModeHelp)) "Show help message.",
Option ['V'] ["version"] (NoArg (mode ModeVersion)) "Display GF version number.",
Option ['v'] ["verbose"] (OptArg verbosity "N") "Set verbosity (default 1). -v alone is the same as -v 2.",
Option ['q','s'] ["quiet"] (NoArg (verbosity (Just "0"))) "Quiet, same as -v 0.",
Option [] ["batch"] (NoArg (mode ModeCompiler)) "Run in batch compiler mode.",
Option ['j'] ["jobs"] (OptArg jobs "N") "Compile N modules in parallel with -batch (default 1).",
Option [] ["interactive"] (NoArg (mode ModeInteractive)) "Run in interactive mode (default).",
Option [] ["run"] (NoArg (mode ModeRun)) "Run in interactive mode, showing output only (no other messages).",
Option [] ["cshell"] (NoArg (mode ModeInteractive2)) "Start the C run-time shell.",
Option [] ["crun"] (NoArg (mode ModeRun2)) "Start the C run-time shell, showing output only (no other messages).",
Option [] ["server"] (OptArg modeServer "port") $
"Run in HTTP server mode on given port (default "++show defaultPort++").",
Option [] ["document-root"] (ReqArg gfDocuRoot "DIR")
"Overrides the default document root for --server mode.",
Option [] ["tags"] (NoArg (set $ \o -> o{optMode = ModeCompiler, optTagsOnly = True})) "Build TAGS file and exit.",
Option ['E'] [] (NoArg (phase Preproc)) "Stop after preprocessing (with --preproc).",
Option ['C'] [] (NoArg (phase Convert)) "Stop after conversion to .gf.",
Option ['c'] [] (NoArg (phase Compile)) "Stop after compiling to .gfo (default) .",
Option [] ["make"] (NoArg (liftM2 addOptions (mode ModeCompiler) (phase Link))) "Build .pgf file and other output files and exit.",
Option [] ["cpu"] (NoArg (cpu True)) "Show compilation CPU time statistics.",
Option [] ["no-cpu"] (NoArg (cpu False)) "Don't show compilation CPU time statistics (default).",
Option [] ["gfo-dir"] (ReqArg gfoDir "DIR") "Directory to put .gfo files in (default = '.').",
Option ['f'] ["output-format"] (ReqArg outFmt "FMT")
(unlines ["Output format. FMT can be one of:",
"Multiple concrete: pgf (default), js, pgf_pretty, prolog, python, ...",
"Single concrete only: bnf, ebnf, fa, gsl, jsgf, regexp, slf, srgs_xml, srgs_abnf, vxml, ....",
"Abstract only: haskell, ..."]),
Option [] ["sisr"] (ReqArg sisrFmt "FMT")
(unlines ["Include SISR tags in generated speech recognition grammars.",
"FMT can be one of: old, 1.0"]),
Option [] ["haskell"] (ReqArg hsOption "OPTION")
("Turn on an optional feature when generating Haskell data types. OPTION = "
++ concat (intersperse " | " (map fst haskellOptionNames))),
Option [] ["lexical"] (ReqArg lexicalCat "CAT[,CAT[...]]")
"Treat CAT as a lexical category.",
Option [] ["literal"] (ReqArg literalCat "CAT[,CAT[...]]")
"Treat CAT as a literal category.",
Option ['D'] ["output-dir"] (ReqArg outDir "DIR")
"Save output files (other than .gfo files) in DIR.",
Option [] ["gf-lib-path"] (ReqArg gfLibPath "DIR")
"Overrides the value of GF_LIB_PATH.",
Option [] ["src","force-recomp"] (NoArg (recomp AlwaysRecomp))
"Always recompile from source.",
Option [] ["gfo","recomp-if-newer"] (NoArg (recomp RecompIfNewer))
"(default) Recompile from source if the source is newer than the .gfo file.",
Option [] ["gfo","no-recomp"] (NoArg (recomp NeverRecomp))
"Never recompile from source, if there is already .gfo file.",
Option [] ["retain"] (NoArg (set $ \o -> o { optRetainResource = True })) "Retain opers.",
Option [] ["probs"] (ReqArg probsFile "file.probs") "Read probabilities from file.",
Option ['n'] ["name"] (ReqArg name "NAME")
(unlines ["Use NAME as the name of the output. This is used in the output file names, ",
"with suffixes depending on the formats, and, when relevant, ",
"internally in the output."]),
Option ['i'] [] (ReqArg addLibDir "DIR") "Add DIR to the library search path.",
Option [] ["path"] (ReqArg setLibPath "DIR:DIR:...") "Set the library search path.",
Option [] ["preproc"] (ReqArg preproc "CMD")
(unlines ["Use CMD to preprocess input files.",
"Multiple preprocessors can be used by giving this option multiple times."]),
Option [] ["coding"] (ReqArg coding "ENCODING")
("Character encoding of the source grammar, ENCODING = utf8, latin1, cp1251, ..."),
Option [] ["startcat"] (ReqArg startcat "CAT") "Grammar start category.",
Option [] ["language"] (ReqArg language "LANG") "Set the speech language flag to LANG in the generated grammar.",
Option [] ["lexer"] (ReqArg lexer "LEXER") "Use lexer LEXER.",
Option [] ["unlexer"] (ReqArg unlexer "UNLEXER") "Use unlexer UNLEXER.",
Option [] ["pmcfg"] (NoArg (pmcfg True)) "Generate PMCFG (default).",
Option [] ["no-pmcfg"] (NoArg (pmcfg False)) "Don't generate PMCFG (useful for libraries).",
Option [] ["optimize"] (ReqArg optimize "OPT")
"Select an optimization package. OPT = all | values | parametrize | none",
Option [] ["optimize-pgf"] (NoArg (optimize_pgf True))
"Enable or disable global grammar optimization. This could significantly reduce the size of the final PGF file",
Option [] ["split-pgf"] (NoArg (splitPGF True))
"Split the PGF into one file per language. This allows the runtime to load only individual languages",
Option [] ["stem"] (onOff (toggleOptimize OptStem) True) "Perform stem-suffix analysis (default on).",
Option [] ["cse"] (onOff (toggleOptimize OptCSE) True) "Perform common sub-expression elimination (default on).",
Option [] ["cfg"] (ReqArg cfgTransform "TRANS") "Enable or disable specific CFG transformations. TRANS = merge, no-merge, bottomup, no-bottomup, ...",
Option [] ["heuristic_search_factor"] (ReqArg (readDouble (\d o -> o { optHeuristicFactor = Just d })) "FACTOR") "Set the heuristic search factor for statistical parsing",
Option [] ["case_sensitive"] (onOff (\v -> set $ \o -> o{optCaseSensitive=v}) True) "Set the parser in case-sensitive/insensitive mode [sensitive by default]",
Option [] ["plus-as-bind"] (NoArg (set $ \o -> o{optPlusAsBind=True})) "Uses of (+) with runtime variables automatically generate BIND (experimental feature).",
dumpOption "source" Source,
dumpOption "rebuild" Rebuild,
dumpOption "extend" Extend,
dumpOption "rename" Rename,
dumpOption "tc" TypeCheck,
dumpOption "refresh" Refresh,
dumpOption "opt" Optimize,
dumpOption "canon" Canon
]
where phase x = set $ \o -> o { optStopAfterPhase = x }
mode x = set $ \o -> o { optMode = x }
defaultPort = 41296
modeServer = maybe (ms defaultPort) readPort
where
ms = mode . ModeServer
readPort p = maybe err ms (readMaybe p)
where err = fail $ "Bad server port: "++p
jobs = maybe (setjobs Nothing) number
where
number s = maybe err (setjobs . Just) (readMaybe s)
where err = fail $ "Bad number of jobs: " ++ s
setjobs j = set $ \ o -> o { optJobs = Just j }
verbosity mv = case mv of
Nothing -> set $ \o -> o { optVerbosity = Verbose }
Just v -> case readMaybe v >>= toEnumBounded of
Just i -> set $ \o -> o { optVerbosity = i }
Nothing -> fail $ "Bad verbosity: " ++ show v
cpu x = set $ \o -> o { optShowCPUTime = x }
gfoDir x = set $ \o -> o { optGFODir = Just x }
outFmt x = readOutputFormat x >>= \f ->
set $ \o -> o { optOutputFormats = optOutputFormats o ++ [f] }
sisrFmt x = case x of
"old" -> set $ \o -> o { optSISR = Just SISR_WD20030401 }
"1.0" -> set $ \o -> o { optSISR = Just SISR_1_0 }
_ -> fail $ "Unknown SISR format: " ++ show x
hsOption x = case lookup x haskellOptionNames of
Just p -> set $ \o -> o { optHaskellOptions = Set.insert p (optHaskellOptions o) }
Nothing -> fail $ "Unknown Haskell option: " ++ x
++ " Known: " ++ show (map fst haskellOptionNames)
literalCat x = set $ \o -> o { optLiteralCats = foldr Set.insert (optLiteralCats o) ((map identS . splitBy (==',')) x) }
lexicalCat x = set $ \o -> o { optLexicalCats = foldr Set.insert (optLexicalCats o) (splitBy (==',') x) }
outDir x = set $ \o -> o { optOutputDir = Just x }
gfLibPath x = set $ \o -> o { optGFLibPath = Just x }
gfDocuRoot x = set $ \o -> o { optDocumentRoot = Just x }
recomp x = set $ \o -> o { optRecomp = x }
probsFile x = set $ \o -> o { optProbsFile = Just x }
name x = set $ \o -> o { optName = Just x }
addLibDir x = set $ \o -> o { optLibraryPath = x:optLibraryPath o }
setLibPath x = set $ \o -> o { optLibraryPath = splitInModuleSearchPath x }
preproc x = set $ \o -> o { optPreprocessors = optPreprocessors o ++ [x] }
coding x = set $ \o -> o { optEncoding = Just x }
startcat x = set $ \o -> o { optStartCat = Just x }
language x = set $ \o -> o { optSpeechLanguage = Just x }
lexer x = set $ \o -> o { optLexer = Just x }
unlexer x = set $ \o -> o { optUnlexer = Just x }
pmcfg x = set $ \o -> o { optPMCFG = x }
optimize x = case lookup x optimizationPackages of
Just p -> set $ \o -> o { optOptimizations = p }
Nothing -> fail $ "Unknown optimization package: " ++ x
optimize_pgf x = set $ \o -> o { optOptimizePGF = x }
splitPGF x = set $ \o -> o { optSplitPGF = x }
toggleOptimize x b = set $ setOptimization' x b
cfgTransform x = let (x', b) = case x of
'n':'o':'-':rest -> (rest, False)
_ -> (x, True)
in case lookup x' cfgTransformNames of
Just t -> set $ setCFGTransform' t b
Nothing -> fail $ "Unknown CFG transformation: " ++ x'
++ " Known: " ++ show (map fst cfgTransformNames)
readDouble f x = case reads x of
[(d,"")] -> set $ f d
_ -> fail "A floating point number is expected"
dumpOption s d = Option [] ["dump-"++s] (NoArg (set $ \o -> o { optDump = Dump d:optDump o})) ("Dump output of the " ++ s ++ " phase.")
set = return . Options
outputFormats :: [(String,OutputFormat)]
outputFormats = map fst outputFormatsExpl
outputFormatsExpl :: [((String,OutputFormat),String)]
outputFormatsExpl =
[(("pgf_pretty", FmtPGFPretty),"human-readable pgf"),
(("js", FmtJavaScript),"JavaScript (whole grammar)"),
(("python", FmtPython),"Python (whole grammar)"),
(("haskell", FmtHaskell),"Haskell (abstract syntax)"),
(("prolog", FmtProlog),"Prolog (whole grammar)"),
(("lambda_prolog",FmtLambdaProlog),"LambdaProlog (abstract syntax)"),
(("lp_byte_code", FmtByteCode),"Bytecode for Teyjus (abstract syntax, experimental)"),
(("bnf", FmtBNF),"BNF (context-free grammar)"),
(("ebnf", FmtEBNF),"Extended BNF"),
(("regular", FmtRegular),"* regular grammar"),
(("nolr", FmtNoLR),"* context-free with no left recursion"),
(("srgs_xml", FmtSRGS_XML),"SRGS speech recognition format in XML"),
(("srgs_xml_nonrec", FmtSRGS_XML_NonRec),"SRGS XML, recursion eliminated"),
(("srgs_abnf", FmtSRGS_ABNF),"SRGS speech recognition format in ABNF"),
(("srgs_abnf_nonrec", FmtSRGS_ABNF_NonRec),"SRGS ABNF, recursion eliminated"),
(("jsgf", FmtJSGF),"JSGF speech recognition format"),
(("gsl", FmtGSL),"Nuance speech recognition format"),
(("vxml", FmtVoiceXML),"Voice XML based on abstract syntax"),
(("slf", FmtSLF),"SLF speech recognition format"),
(("regexp", FmtRegExp),"regular expression"),
(("fa", FmtFA),"finite automaton in graphviz format")
]
instance Show OutputFormat where
show = lookupShow outputFormats
instance Read OutputFormat where
readsPrec = lookupReadsPrec outputFormats
optimizationPackages :: [(String, Set Optimization)]
optimizationPackages =
[("all", Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
("values", Set.fromList [OptStem,OptCSE,OptExpand]),
("noexpand", Set.fromList [OptStem,OptCSE]),
("all_subs", Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
("parametrize", Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
("none", Set.fromList [OptStem,OptCSE,OptExpand])
]
cfgTransformNames :: [(String, CFGTransform)]
cfgTransformNames =
[("nolr", CFGNoLR),
("regular", CFGRegular),
("topdown", CFGTopDownFilter),
("bottomup", CFGBottomUpFilter),
("startcatonly", CFGStartCatOnly),
("merge", CFGMergeIdentical),
("removecycles", CFGRemoveCycles)]
haskellOptionNames :: [(String, HaskellOption)]
haskellOptionNames =
[("noprefix", HaskellNoPrefix),
("gadt", HaskellGADT),
("lexical", HaskellLexical),
("concrete", HaskellConcrete),
("variants", HaskellVariants)]
renameEncoding :: String -> String
renameEncoding "utf8" = "UTF-8"
renameEncoding "latin1" = "CP1252"
renameEncoding ('c':'p':s) | all isDigit s = 'C':'P':s
renameEncoding s = s
lookupShow :: Eq a => [(String,a)] -> a -> String
lookupShow xs z = fromMaybe "lookupShow" $ lookup z [(y,x) | (x,y) <- xs]
lookupReadsPrec :: [(String,a)] -> Int -> ReadS a
lookupReadsPrec xs _ s = [(z,rest) | (x,rest) <- lex s, (y,z) <- xs, y == x]
onOff :: Monad m => (Bool -> m a) -> Bool -> ArgDescr (m a)
onOff f def = OptArg g "[on,off]"
where g ma = maybe (return def) readOnOff ma >>= f
readOnOff x = case map toLower x of
"on" -> return True
"off" -> return False
_ -> fail $ "Expected [on,off], got: " ++ show x
readOutputFormat :: Monad m => String -> m OutputFormat
readOutputFormat s =
maybe (fail $ "Unknown output format: " ++ show s) return $ lookup s outputFormats
splitInModuleSearchPath :: String -> [FilePath]
splitInModuleSearchPath s = case break isPathSep s of
(f,_:cs) -> f : splitInModuleSearchPath cs
(f,_) -> [f]
where
isPathSep :: Char -> Bool
isPathSep c = c == ':' || c == ';'
verbAtLeast :: Options -> Verbosity -> Bool
verbAtLeast opts v = flag optVerbosity opts >= v
dump :: Options -> Dump -> Bool
dump opts d = flag ((d `elem`) . optDump) opts
cfgTransform :: Options -> CFGTransform -> Bool
cfgTransform opts t = Set.member t (flag optCFGTransforms opts)
haskellOption :: Options -> HaskellOption -> Bool
haskellOption opts o = Set.member o (flag optHaskellOptions opts)
isLiteralCat :: Options -> Ident -> Bool
isLiteralCat opts c = Set.member c (flag optLiteralCats opts)
isLexicalCat :: Options -> String -> Bool
isLexicalCat opts c = Set.member c (flag optLexicalCats opts)
setOptimization :: Optimization -> Bool -> Options
setOptimization o b = modifyFlags (setOptimization' o b)
setOptimization' :: Optimization -> Bool -> Flags -> Flags
setOptimization' o b f = f { optOptimizations = toggle o b (optOptimizations f)}
setCFGTransform :: CFGTransform -> Bool -> Options
setCFGTransform t b = modifyFlags (setCFGTransform' t b)
setCFGTransform' :: CFGTransform -> Bool -> Flags -> Flags
setCFGTransform' t b f = f { optCFGTransforms = toggle t b (optCFGTransforms f) }
toggle :: Ord a => a -> Bool -> Set a -> Set a
toggle o True = Set.insert o
toggle o False = Set.delete o
readMaybe :: Read a => String -> Maybe a
readMaybe s = case reads s of
[(x,"")] -> Just x
_ -> Nothing
toEnumBounded :: (Bounded a, Enum a, Ord a) => Int -> Maybe a
toEnumBounded i = let mi = minBound
ma = maxBound `asTypeOf` mi
in if i >= fromEnum mi && i <= fromEnum ma
then Just (toEnum i `asTypeOf` mi)
else Nothing
splitBy :: (a -> Bool) -> [a] -> [[a]]
splitBy _ [] = []
splitBy p s = case break p s of
(l, _ : t@(_ : _)) -> l : splitBy p t
(l, _) -> [l]
instance Functor OptDescr where
fmap f (Option cs ss d s) = Option cs ss (fmap f d) s
instance Functor ArgDescr where
fmap f (NoArg x) = NoArg (f x)
fmap f (ReqArg g s) = ReqArg (f . g) s
fmap f (OptArg g s) = OptArg (f . g) s