Copyright | (c) Getty Ritter 2017 |
---|---|
License | BSD |
Maintainer | Getty Ritter <config-ini@infinitenegativeutility.com> |
Stability | experimental |
Safe Haskell | Safe-Inferred |
Language | Haskell2010 |
The 'config-ini' library exports some simple monadic functions to
make parsing INI-like configuration easier. INI files have a
two-level structure: the top-level named chunks of configuration,
and the individual key-value pairs contained within those chunks.
For example, the following INI file has two sections, NETWORK
and LOCAL
, and each contains its own key-value pairs. Comments,
which begin with #
or ;
, are ignored:
[NETWORK] host = example.com port = 7878 # here is a comment [LOCAL] user = terry
The combinators provided here are designed to write quick and
idiomatic parsers for files of this form. Sections are parsed by
IniParser
computations, like section
and its variations,
while the fields within sections are parsed by SectionParser
computations, like field
and its variations. If we want to
parse an INI file like the one above, treating the entire
LOCAL
section as optional, we can write it like this:
data Config = Config { cfNetwork :: NetworkConfig, cfLocal :: Maybe LocalConfig } deriving (Eq, Show) data NetworkConfig = NetworkConfig { netHost :: String, netPort :: Int } deriving (Eq, Show) data LocalConfig = LocalConfig { localUser :: Text } deriving (Eq, Show) configParser :: IniParser Config configParser = do netCf <- section "NETWORK" $ do host <- fieldOf "host" string port <- fieldOf "port" number return NetworkConfig { netHost = host, netPort = port } locCf <- sectionMb "LOCAL" $ LocalConfig <$> field "user" return Config { cfNetwork = netCf, cfLocal = locCf }
We can run our computation with parseIniFile
, which,
when run on our example file above, would produce the
following:
>>>
parseIniFile example configParser
Right (Config {cfNetwork = NetworkConfig {netHost = "example.com", netPort = 7878}, cfLocal = Just (LocalConfig {localUser = "terry"})})
Synopsis
- parseIniFile :: Text -> IniParser a -> Either String a
- data IniParser a
- data SectionParser a
- section :: Text -> SectionParser a -> IniParser a
- sections :: Text -> SectionParser a -> IniParser (Seq a)
- sectionOf :: (Text -> Maybe b) -> (b -> SectionParser a) -> IniParser a
- sectionsOf :: (Text -> Maybe b) -> (b -> SectionParser a) -> IniParser (Seq a)
- sectionMb :: Text -> SectionParser a -> IniParser (Maybe a)
- sectionDef :: Text -> a -> SectionParser a -> IniParser a
- field :: Text -> SectionParser Text
- fieldOf :: Text -> (Text -> Either String a) -> SectionParser a
- fieldMb :: Text -> SectionParser (Maybe Text)
- fieldMbOf :: Text -> (Text -> Either String a) -> SectionParser (Maybe a)
- fieldDef :: Text -> Text -> SectionParser Text
- fieldDefOf :: Text -> (Text -> Either String a) -> a -> SectionParser a
- fieldFlag :: Text -> SectionParser Bool
- fieldFlagDef :: Text -> Bool -> SectionParser Bool
- readable :: forall a. (Read a, Typeable a) => Text -> Either String a
- number :: (Num a, Read a, Typeable a) => Text -> Either String a
- string :: IsString a => Text -> Either String a
- flag :: Text -> Either String Bool
- listWithSeparator :: IsList l => Text -> (Text -> Either String (Item l)) -> Text -> Either String l
Parsing Files
Parser Types
An IniParser
value represents a computation for parsing entire
INI-format files.
data SectionParser a Source #
A SectionParser
value represents a computation for parsing a single
section of an INI-format file.
Instances
Section-Level Parsing
section :: Text -> SectionParser a -> IniParser a Source #
Find a named section in the INI file and parse it with the provided section parser, failing if the section does not exist. In order to support classic INI files with capitalized section names, section lookup is case-insensitive.
>>>
parseIniFile "[ONE]\nx = hello\n" $ section "ONE" (field "x")
Right "hello">>>
parseIniFile "[ONE]\nx = hello\n" $ section "TWO" (field "x")
Left "No top-level section named \"TWO\""
sections :: Text -> SectionParser a -> IniParser (Seq a) Source #
Find multiple named sections in the INI file and parse them all with the provided section parser. In order to support classic INI files with capitalized section names, section lookup is case-insensitive.
>>>
parseIniFile "[ONE]\nx = hello\n[ONE]\nx = goodbye\n" $ sections "ONE" (field "x")
Right (fromList ["hello","goodbye"])>>>
parseIniFile "[ONE]\nx = hello\n" $ sections "TWO" (field "x")
Right (fromList [])
sectionOf :: (Text -> Maybe b) -> (b -> SectionParser a) -> IniParser a Source #
A call to sectionOf f
will apply f
to each section name and,
if f
produces a Just value, pass the extracted value in order
to get the SectionParser to use for that section. This will
find at most one section, and will produce an error if no section
exists.
>>>
parseIniFile "[FOO]\nx = hello\n" $ sectionOf (T.stripSuffix "OO") (\ l -> fmap ((,) l) (field "x"))
Right ("F","hello")>>>
parseIniFile "[BAR]\nx = hello\n" $ sectionOf (T.stripSuffix "OO") (\ l -> fmap ((,) l) (field "x"))
Left "No matching top-level section"
sectionsOf :: (Text -> Maybe b) -> (b -> SectionParser a) -> IniParser (Seq a) Source #
A call to sectionsOf f
will apply f
to each section name and,
if f
produces a Just
value, pass the extracted value in order
to get the SectionParser to use for that section. This will
return every section for which the call to f
produces a Just
value.
>>>
parseIniFile "[FOO]\nx = hello\n[BOO]\nx = goodbye\n" $ sectionsOf (T.stripSuffix "OO") (\ l -> fmap ((,) l) (field "x"))
Right (fromList [("F","hello"),("B","goodbye")])>>>
parseIniFile "[BAR]\nx = hello\n" $ sectionsOf (T.stripSuffix "OO") (\ l -> fmap ((,) l) (field "x"))
Right (fromList [])
sectionMb :: Text -> SectionParser a -> IniParser (Maybe a) Source #
Find a named section in the INI file and parse it with the provided
section parser, returning Nothing
if the section does not exist.
In order to
support classic INI files with capitalized section names, section
lookup is case-insensitive.
>>>
parseIniFile "[ONE]\nx = hello\n" $ sectionMb "ONE" (field "x")
Right (Just "hello")>>>
parseIniFile "[ONE]\nx = hello\n" $ sectionMb "TWO" (field "x")
Right Nothing
sectionDef :: Text -> a -> SectionParser a -> IniParser a Source #
Find a named section in the INI file and parse it with the provided section parser, returning a default value if the section does not exist. In order to support classic INI files with capitalized section names, section lookup is case-insensitive.
>>>
parseIniFile "[ONE]\nx = hello\n" $ sectionDef "ONE" "def" (field "x")
Right "hello">>>
parseIniFile "[ONE]\nx = hello\n" $ sectionDef "TWO" "def" (field "x")
Right "def"
Field-Level Parsing
field :: Text -> SectionParser Text Source #
Retrieve a field, failing if it doesn't exist, and return its raw value.
>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (field "x")
Right "hello">>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (field "y")
Left "Missing field \"y\" in section \"MAIN\""
fieldOf :: Text -> (Text -> Either String a) -> SectionParser a Source #
Retrieve a field and use the supplied parser to parse it as a value, failing if the field does not exist, or if the parser fails to produce a value.
>>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldOf "x" number)
Right 72>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldOf "x" number)
Left "Line 2, in section \"MAIN\": Unable to parse \"hello\" as a value of type Integer">>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldOf "y" number)
Left "Missing field \"y\" in section \"MAIN\""
fieldMb :: Text -> SectionParser (Maybe Text) Source #
Retrieve a field, returning a Nothing
value if it does not exist.
>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldMb "x")
Right (Just "hello")>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldMb "y")
Right Nothing
fieldMbOf :: Text -> (Text -> Either String a) -> SectionParser (Maybe a) Source #
Retrieve a field and parse it according to the given parser, returning
Nothing
if it does not exist. If the parser fails, then this will
fail.
>>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldMbOf "x" number)
Right (Just 72)>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldMbOf "x" number)
Left "Line 2, in section \"MAIN\": Unable to parse \"hello\" as a value of type Integer">>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldMbOf "y" number)
Right Nothing
fieldDef :: Text -> Text -> SectionParser Text Source #
Retrieve a field and supply a default value for if it doesn't exist.
>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldDef "x" "def")
Right "hello">>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldDef "y" "def")
Right "def"
fieldDefOf :: Text -> (Text -> Either String a) -> a -> SectionParser a Source #
Retrieve a field, parsing it according to the given parser, and returning a default value if it does not exist. If the parser fails, then this will fail.
>>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldDefOf "x" number 99)
Right 72>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldDefOf "x" number 99)
Left "Line 2, in section \"MAIN\": Unable to parse \"hello\" as a value of type Integer">>>
parseIniFile "[MAIN]\nx = 72\n" $ section "MAIN" (fieldDefOf "y" number 99)
Right 99
fieldFlag :: Text -> SectionParser Bool Source #
Retrieve a field and treat it as a boolean, failing if it does not exist.
>>>
parseIniFile "[MAIN]\nx = yes\n" $ section "MAIN" (fieldFlag "x")
Right True>>>
parseIniFile "[MAIN]\nx = yes\n" $ section "MAIN" (fieldFlag "y")
Left "Missing field \"y\" in section \"MAIN\""
fieldFlagDef :: Text -> Bool -> SectionParser Bool Source #
Retrieve a field and treat it as a boolean, subsituting a default value if it doesn't exist.
>>>
parseIniFile "[MAIN]\nx = yes\n" $ section "MAIN" (fieldFlagDef "x" False)
Right True>>>
parseIniFile "[MAIN]\nx = hello\n" $ section "MAIN" (fieldFlagDef "x" False)
Left "Line 2, in section \"MAIN\": Unable to parse \"hello\" as a boolean">>>
parseIniFile "[MAIN]\nx = yes\n" $ section "MAIN" (fieldFlagDef "y" False)
Right False
Reader Functions
readable :: forall a. (Read a, Typeable a) => Text -> Either String a Source #
Try to use the Read instance for a type to parse a value, failing with a human-readable error message if reading fails.
>>>
readable "(5, 7)" :: Either String (Int, Int)
Right (5,7)>>>
readable "hello" :: Either String (Int, Int)
Left "Unable to parse \"hello\" as a value of type (Int,Int)"
number :: (Num a, Read a, Typeable a) => Text -> Either String a Source #
Try to use the Read instance for a numeric type to parse a value, failing with a human-readable error message if reading fails.
>>>
number "5" :: Either String Int
Right 5>>>
number "hello" :: Either String Int
Left "Unable to parse \"hello\" as a value of type Int"
string :: IsString a => Text -> Either String a Source #
Convert a textual value to the appropriate string type. This will never fail.
>>>
string "foo" :: Either String String
Right "foo"
flag :: Text -> Either String Bool Source #
Convert a string that represents a boolean to a proper boolean. This
is case-insensitive, and matches the words true
, false
, yes
,
no
, as well as single-letter abbreviations for all of the above.
If the input does not match, then this will fail with a human-readable
error message.
>>>
flag "TRUE"
Right True>>>
flag "y"
Right True>>>
flag "no"
Right False>>>
flag "F"
Right False>>>
flag "That's a secret!"
Left "Unable to parse \"That's a secret!\" as a boolean"
listWithSeparator :: IsList l => Text -> (Text -> Either String (Item l)) -> Text -> Either String l Source #
Convert a reader for a value into a reader for a list of those values, separated by a chosen separator. This will split apart the string on that separator, get rid of leading and trailing whitespace on the individual chunks, and then attempt to parse each of them according to the function provided, turning the result into a list.
This is overloaded with the IsList typeclass, so it can be used transparently to parse other list-like types.
>>>
listWithSeparator "," number "2, 3, 4" :: Either String [Int]
Right [2,3,4]>>>
listWithSeparator " " number "7 8 9" :: Either String [Int]
Right [7,8,9]>>>
listWithSeparator ":" string "/bin:/usr/bin" :: Either String [FilePath]
Right ["/bin","/usr/bin"]>>>
listWithSeparator "," number "7 8 9" :: Either String [Int]
Left "Unable to parse \"7 8 9\" as a value of type Int"