package toml
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=dd123c49769fe649f752a19ae5cb7ce63754c1bcca40fa019f8bffca969d6f44
sha512=99f65dbd4a249deffe982e52f412279f0993d914fe5f006785f4daff2be39c228dc80ae18b9d5c4e7d7a5e1ec88aaf7486d52bb1cf7e0508f3e58729fdc6dce6
Description
The toml library provides a parser and serializer for Tom's Obvious Minimal Language v0.4.0, a minimal configuration file format. Helpful getters to retrieve data as OCaml primitive types are also supplied
Published: 18 Dec 2020
README
toml
Documentation
Have a look at the online documentation. Otherwise, here's a quickstart guide.
Reading TOML data
utop # (* This will return either `Ok $tomltable or `Error $error_with_location *)
let ok_or_error = Toml.Parser.from_string "key=[1,2]";;
val ok_or_error : Toml.Parser.result = `Ok <abstr>
utop # (* You can use the 'unsafe' combinator to get the result directly, or an
exception if a parsing error occurred *)
let parsed_toml = Toml.Parser.(from_string "key=[1,2]" |> unsafe);;
val parsed_toml : Toml.Types.table = <abstr>
utop # (* Use simple pattern matching to read the value *)
Toml.Types.Table.find (Toml.Min.key "key") parsed_toml;;
- : Toml.Types.value = Toml.Types.TArray (Toml.Types.NodeInt [1; 2])
Writing TOML data
utop # let toml_data = Toml.of_key_values [
Toml.key "ints", Toml.Types.TArray (Toml.Types.NodeInt [1; 2]);
Toml.key "string", Toml.Types.TString "string value";
];;
val toml_data : Toml.Types.table = <abstr>
utop # Toml.Printer.string_of_table toml_data;;
- : bytes = "ints = [1, 2]\nstring = \"string value\"\n"
Lenses
Through lenses, it is possible to read/write deeply nested data with ease. The Toml.Lenses module provides partial lenses (that is, lenses returning option types) to manipulate TOML data structures.
utop # let toml_data = Toml.Parser.(from_string "
[this.is.a.deeply.nested.table]
answer=42" |> unsafe);;
val toml_data : Toml.Types.table = <abstr>
utop # Toml.Lenses.(get toml_data (
key "this" |-- table
|-- key "is" |-- table
|-- key "a" |-- table
|-- key "deeply" |-- table
|-- key "nested" |-- table
|-- key "table" |-- table
|-- key "answer"|-- int ));;
- : int option = Some 42
utop # let maybe_toml_data' = Toml.Lenses.(set 2015 toml_data (
key "this" |-- table
|-- key "is" |-- table
|-- key "a" |-- table
|-- key "deeply" |-- table
|-- key "nested" |-- table
|-- key "table" |-- table
|-- key "answer"|-- int ));;
val maybe_toml_data' : Toml.Types.table option = Some <abstr>
utop # Toml.Printer.string_of_table toml_data';;
- : bytes = "[this.is.a.deeply.nested.table]\nanswer = 2015\n"
toml_cconv
A second library, toml_cconv for encoding/decoding with cconv can be installed if cconv is present.
toml supports ppx via cconv:
utop # #require "cconv.ppx";;
utop # #require "toml.cconv";;
utop # type t = { ints : int list; string : string } [@@deriving cconv];;
type t = { ints : int list; string : string; }
val encode : t CConv.Encode.encoder = {CConv.Encode.emit = <fun>}
val decode : t CConv.Decode.decoder =
{CConv.Decode.dec =
{CConv.Decode.accept_unit = <fun>; accept_bool = <fun>;
accept_float = <fun>; accept_int = <fun>; accept_int32 = <fun>;
accept_int64 = <fun>; accept_nativeint = <fun>; accept_char = <fun>;
accept_string = <fun>; accept_list = <fun>; accept_option = <fun>;
accept_record = <fun>; accept_tuple = <fun>; accept_sum = <fun>}}
utop # let toml = Toml.Parser.(from_string "ints = [1, 2]\nstring = \"string value\"\n"
|> unsafe);;
val toml : Toml.Types.table = <abstr>
utop # Toml_cconv.decode_exn decode toml;;
- : t = {ints = [1; 2]; string = "string value"}
Limitations
Keys don't quite follow the TOML standard. Both section keys (eg,
[key1.key2]) and ordinary keys (key=...) may not contain the following characters: space,\t,\n,\r,.,[,],"and#.
Projects using toml
If you want to add your project, feel free to open a PR.