config-ini: A library for simple INI-based configuration files.

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The config-ini library is a set of small monadic languages for writing simple configuration languages with convenient, human-readable error messages.

parseConfig :: IniParser (Text, Int, Bool)
parseConfig = section "NETWORK" $ do
  user <- field        "user"
  port <- fieldOf      "port" number
  enc  <- fieldFlagDef "encryption" True
  return (user, port, enc)

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Build doctest modules as well (can be finicky)

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Versions [RSS] 0.1.0.0, 0.1.1.0, 0.1.2.0, 0.1.2.1, 0.2.0.0, 0.2.0.1, 0.2.1.0, 0.2.1.1, 0.2.2.0, 0.2.3.0, 0.2.4.0, 0.2.5.0, 0.2.6.0, 0.2.7.0
Change log CHANGELOG.md
Dependencies base (>=4.8 && <5), containers (>=0.5 && <0.8), megaparsec (>=7 && <10), text (>=1.2.2 && <3), transformers (>=0.4.1 && <0.7), unordered-containers (>=0.2.7 && <0.5) [details]
Tested with ghc ==8.8.4, ghc ==8.10.7, ghc ==9.0.2, ghc ==9.2.4, ghc ==9.4.2, ghc ==9.6.2, ghc ==9.8.1
License BSD-3-Clause
Copyright ©2018 Getty Ritter
Author Getty Ritter <config-ini@infinitenegativeutility.com>
Maintainer Getty Ritter <config-ini@infinitenegativeutility.com>
Revised Revision 1 made by Bodigrim at 2024-03-27T20:39:57Z
Category Configuration
Home page https://github.com/aisamanra/config-ini
Bug tracker https://github.com/aisamanra/config-ini/issues
Source repo head: git clone git://github.com/aisamanra/config-ini.git
Uploaded by gdritter at 2023-11-05T18:06:09Z
Distributions Arch:0.2.6.0, Debian:0.2.4.0, Fedora:0.2.6.0, LTSHaskell:0.2.7.0, NixOS:0.2.7.0, Stackage:0.2.7.0, openSUSE:0.2.7.0
Reverse Dependencies 8 direct, 37 indirect [details]
Downloads 22723 total (157 in the last 30 days)
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Status Docs available [build log]
Last success reported on 2023-11-05 [all 1 reports]

Readme for config-ini-0.2.7.0

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config-ini

Hackage stability: stable

The config-ini library is a Haskell library for doing elementary INI file parsing in a quick and painless way.

Basic Usage

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 section contains its own key-value pairs separated by either = or :. 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 basic INI files. 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"})})

Bidirectional Usage

The above example had an INI file split into two sections (NETWORK and LOCAL) and a data type with a corresponding structure (containing a NetworkConfig and Maybe LocalConfig field), which allowed each section-level parser to construct a chunk of the configuration and then combine them. This works well if our configuration file has the same structure as our data type, but that might not be what we want. Let's imagine we want to construct our Config type as a flat record like this:

data Config = Config
  { _cfHost :: String
  , _cfPort :: Int
  , _cfUser :: Maybe Text
  } deriving (Eq, Show)

In this case, we can't construct a Config value until we've parsed all three fields in two distinct subsections. One way of doing this is to return the intermediate values from our section parsers and construct the Config value at the end, once we have all three of its fields:

configParser :: IniParser Config
configParser = do
  (host, port) <- section "NETWORK" $ do
    h <- fieldOf "host" string
    p <- fieldOf "port" number
    return (h, p)
  user <- section "LOCAL" $ fieldMb "user"
  return (Config host port user)

This is unfortunately awkward and repetitive. An alternative is to flatten it out by repeating invocations of section like below, but this has its own problems, such as unnecessary repetition of the "NETWORK" string literal, unnecessarily repetitive lookups, and general verbosity:

configParser :: IniParser Config
configParser = do
  host <- section "NETWORK" $ fieldOf "host" string
  port <- section "NETWORK" $ fieldOf "port" number
  user <- section "LOCAL" $ fieldMb "user"
  return (Config host port user)

In situations like these, you can instead use the Data.Ini.Config.Bidir module, which provides a slightly different abstraction: the functions exported by this module assume that you start with a default configuration value, and parsing a field allows you to update that configuration with the value of a field. The monads exported by this module have an extra type parameter that represents the type of the value being updated. The easiest way to use this module is by combining lenses with the .= and .=? operators, which take a lens and a description of a field, and produce a SectionSpec value that uses the provided lens to update the underlying type when parsing:

makeLenses ''Config

configParser :: IniSpec Config ()
configParser = do
  section "NETWORK" $ do
    cfHost .=  field "host" string
    cfPort .=  field "port" number
  section "LOCAL" $ do
    cfUser .=? field "user"

In order to use this as a parser, we will need to provide an existing value of Config so we can apply our updates to it. We combine the IniSpec defined above with a default config

configIni :: Ini Config
configIni =
  let defConfig = Config "localhost" 8080 Nothing
  in ini defConfig configParser

myParseIni :: Text -> Either String Config
myParseIni t = fmap getIniValue (parseIni t configIni)

This approach gives us other advantages, too. Each of the defined fields can be associated with some various pieces of metadata, marking them as optional for the purpose of parsing or associating a comment with them.


configParser' :: IniSpec Config ()
configParser' = do
  section "NETWORK" $ do
    cfHost .=  field "host" string
      & comment ["The desired hostname"]
      & optional
    cfPort .=  field "port" number
      & comment ["The port for the server"]
  section "LOCAL" $ do
    cfUser .=? field "user"
      & comment ["The username"]

When we create an ini from this IniSpec, we can serialize it directly to get a "default" INI file, one which contains the supplied comments on each field. This is useful if our application wants to produce a default configuration from the same declarative specification as before.

This approach also enables another, much more powerful feature: this enables us to perform a diff-minimal update. You'll notice that our parseIni function here doesn't give us back the value directly, but rather yet another Ini value from which we had to extract the value. This is because the Ini value also records incidental formatting choices of the input file: whitespace, comments, specifics of capitalization, and so forth. When we serialize an INI file that was returned by parseIni, we will get out literally the same file that we put in, complete with incidental formatting choices retained.

But we can also use that file and update it using the updateIni function: this takes a configuration value and a previous Ini value and builds a new Ini value such that as much structure as possible is retained from the original Ini. This means that if we parse a file, update a single field, and reserialize, that file should differ only in the field we changed and that's it: fields will stay in the same order (with new fields being added to the end of sections), comments will be retained, incidental whitespace will stay as it is.

This is a useful tool if you're building an application that has both a human-readable configuration as well the ability to set configuration values from within the application itself. This will allow you to rewrite the configuration file while minimizing lossy changes to a possibly-hand-edited possibly-checked-into-git configuration file.

Combinators and Conventions

There are several variations on the same basic functionality that appear in config-ini. All functions that start with section are for parsing section-level chunks of an INI file, while all functions that start with field are for parsing key-value pairs within a section. Because it's reasonably common, there are also special fieldFlag functions which return Bool values, parsed in a relatively loose way.

All functions which end in Mb return a Maybe value, returning Nothing if the section or key was not found. All functions which end in Def take an additional default value, returning it if the section or key was not found. All functions which contain Of take a function of the type Text -> Either String a, which is used to attempt to decode or parse the extracted value.

In total, there are three section-level parsers (section, sectionMb, and sectionDef) and eight field-level parsers (field, fieldOf, fieldMb, fieldMbOf, fieldDef, fieldDefOf, fieldFlag, fieldFlagDef). For the _Of functions, config-ini also provides several built-in parser functions which provide nice error messages on failure.