TOML Parser
This package implements a validating parser for TOML 1.0.0.
This package uses an alex-generated
lexer and happy-generated parser.
It also provides a pair of classes for serializing into and out of TOML.
Package Structure
---
title: Package Structure
---
stateDiagram-v2
classDef important font-weight:bold;
TOML:::important --> ApplicationTypes:::important : decode
ApplicationTypes --> TOML : encode
TOML --> [Token]: Toml.Lexer
[Token] --> [Expr]: Toml.Parser
[Expr] --> Table : Toml.Semantics
Table --> ApplicationTypes : Toml.FromValue
ApplicationTypes --> Table : Toml.ToValue
Table --> TOML : Toml.Pretty
The highest-level interface to this package is to define FromValue
and ToTable
instances for your application-specific datatypes. These can be used with encode
and decode
to convert to and from TOML.
For low-level access to the TOML format, the lexer, parser, and validator are available
for direct use. The diagram above shows how the different modules enable you to
advance through the increasingly high-level TOML representations.
Examples
This file uses markdown-unlit
to ensure that its code typechecks and stays in sync with the rest of the package.
import GHC.Generics (Generic)
import QuoteStr (quoteStr)
import Test.Hspec (Spec, hspec, it, shouldBe)
import Toml (parse, decode, encode, Value(..))
import Toml.FromValue (Result(Success), FromValue(fromValue), parseTableFromValue, reqKey)
import Toml.FromValue.Generic (genericParseTable)
import Toml.ToValue (ToValue(toValue), ToTable(toTable), defaultTableToValue, table, (.=))
import Toml.ToValue.Generic (genericToTable)
main :: IO ()
main = hspec (parses >> decodes >> encodes)
Using the raw parser
Consider this sample TOML text from the TOML specification.
fruitStr :: String
fruitStr = [quoteStr|
[[fruits]]
name = "apple"
[fruits.physical] # subtable
color = "red"
shape = "round"
[[fruits.varieties]] # nested array of tables
name = "red delicious"
[[fruits.varieties]]
name = "granny smith"
[[fruits]]
name = "banana"
[[fruits.varieties]]
name = "plantain"
|]
Parsing using this package generates the following value
parses :: Spec
parses = it "parses" $
parse fruitStr
`shouldBe`
Right (table [
("fruits", Array [
Table (table [
("name", String "apple"),
("physical", Table (table [
("color", String "red"),
("shape", String "round")])),
("varieties", Array [
Table (table [("name", String "red delicious")]),
Table (table [("name", String "granny smith")])])]),
Table (table [
("name", String "banana"),
("varieties", Array [
Table (table [("name", String "plantain")])])])])])
Using decoding classes
Here's an example of defining datatypes and deserializers for the TOML above.
The FromValue
typeclass is used to encode each datatype into a TOML value.
Instances can be derived for simple record types. More complex examples can
be manually derived.
newtype Fruits = Fruits { fruits :: [Fruit] }
deriving (Eq, Show, Generic)
data Fruit = Fruit { name :: String, physical :: Maybe Physical, varieties :: [Variety] }
deriving (Eq, Show, Generic)
data Physical = Physical { color :: String, shape :: String }
deriving (Eq, Show, Generic)
newtype Variety = Variety String
deriving (Eq, Show, Generic)
instance FromValue Fruits where
fromValue = parseTableFromValue genericParseTable
instance FromValue Fruit where
fromValue = parseTableFromValue genericParseTable
instance FromValue Physical where
fromValue = parseTableFromValue (Physical <$> reqKey "color" <*> reqKey "shape")
instance FromValue Variety where
fromValue = parseTableFromValue (Variety <$> reqKey "name")
We can run this example on the original value to deserialize it into domain-specific datatypes.
decodes :: Spec
decodes = it "decodes" $
decode fruitStr
`shouldBe`
Success [] (Fruits [
Fruit
"apple"
(Just (Physical "red" "round"))
[Variety "red delicious", Variety "granny smith"],
Fruit "banana" Nothing [Variety "plantain"]])
Using encoding classes
The ToValue
class is for all datatypes that can be encoded into TOML.
The more specialized ToTable
class is for datatypes that encode into
tables and are thus elligible to be top-level types (all TOML documents
are tables at the top-level).
Generics can be used to derive ToTable
for simple record types.
Manually defined instances are available for the more complex cases.
instance ToValue Fruits where toValue = defaultTableToValue
instance ToValue Fruit where toValue = defaultTableToValue
instance ToValue Physical where toValue = defaultTableToValue
instance ToValue Variety where toValue = defaultTableToValue
instance ToTable Fruits where toTable = genericToTable
instance ToTable Fruit where toTable = genericToTable
instance ToTable Physical where toTable x = table ["color" .= color x, "shape" .= shape x]
instance ToTable Variety where toTable (Variety x) = table ["name" .= x]
encodes :: Spec
encodes = it "encodes" $
show (encode (Fruits [Fruit
"apple"
(Just (Physical "red" "round"))
[Variety "red delicious", Variety "granny smith"]]))
`shouldBe` [quoteStr|
[[fruits]]
name = "apple"
[fruits.physical]
color = "red"
shape = "round"
[[fruits.varieties]]
name = "red delicious"
[[fruits.varieties]]
name = "granny smith"|]
More Examples
A demonstration of using this package at a more realistic scale
can be found in HieDemoSpec. The various unit
test files demonstrate what you can do with this library and what
outputs you can expect.
See the low-level operations used to build a TOML syntax highlighter
in TomlHighlighter.