package serde_debug
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=14c12871e403a531994acc99ca9d140ea00ea4f6a794d38f01f606eb33615dbd
sha512=fea87f5067ed2c27b76dcb0ff96c6d39c939f62aecced8cd19790e20af794fbfaa99d727c04461e42ab115c97f39d0fe68f93f016ed2cb1471d8cc0d55b19b10
Description
Published: 25 Aug 2023
README
serde.ml
A serialization framework for OCaml inspired by serde-rs.
The main goals for serde.ml
are:
Serialization -- take arbitary data structures from the user and turn them into specific formats with maximum efficiency.
Deserialization -- read arbitrary data that you parse into data structures of the user's choice with maximum efficiency.
type rank = Captain | Chief_petty_officer [@@deriving serializer, deserializer]
type t = { name : string; rank : rank } [@@deriving serializer, deserializer]
let obrien = { name = "Miles O'Brien"; rank = Chief_petty_officer }
let sisko = { name = "Benjamin Sisko"; rank = Captain }
> Serde_json.to_string_pretty (serialize_t) obrien
Ok "{ \"name\": \"Miles O'Brien\", \"rank\": \"Chief_petty_officer\" }"
> Serde_json.of_string (deserialize_t) "{ \"name\": \"Miles O'Brien\", \"rank\": \"Chief_petty_officer\" }"
Ok {name = "Miles O'Brien"; rank = Chief_petty_officer}
> Serde_sexpr.to_string_pretty (serialize_t) obrien;;
Ok "(\"Miles O'Brien\" :Chief_petty_officer)"
> Serde_sexpr.of_string (deserialize_t) "(\"Miles O'Brien\" :Chief_petty_officer)";;
Ok {name = "Miles O'Brien"; rank = Chief_petty_officer}
Usage
Set up the serde_derive
ppx, and bring in any data format modules you want to use. Here we bring s-expressions and json.
(library
(name my_lib)
(preprocess (pps serde_derive))
(libraries serde serde_derive serde_sexpr serde_json))
Tag your data structures with deriving (serializer, deserializer)
.
open Serde
type t =
| Hello
| Tuple1 of string
| Tuple2 of string * bool
| Record3 of { name : string; favorite_number : int; location : string }
[@@deriving (serializer, deserializer)]
Now you have a serialize_{typeName}
and deserialize_{typeName}
functions that you can pass into the different data format modules.
To read data, use deserialize_t
like this:
let sexpr = "(:Record3 (\"Benjamin Sisko\" 9 \"Bajor\"))" in
let* t = Serde_sexpr.of_string deserialize_t sexpr in
t = (Record3 { name = "Benjamin Sisko"; favorite_number = 9; location = "Bajor" })
To render data, use serialize_t
like this:
let t = (Record3 { name = "Benjamin Sisko"; favorite_number = 9; location = "Bajor" }) in
let* sexpr = Serde_sexpr.to_string_pretty serialize_t t in
sexpr = "(:Record3 (\"Benjamin Sisko\" 9 \"Bajor\"))"
To transcode data across formats, switch the data module:
(* read sexpr *)
let sexpr = "(:Record3 (\"Benjamin Sisko\" 9 \"Bajor\"))" in
let* t = Serde_sexpr.of_string deserialize_t sexpr in
(* write json *)
let* json = Serde_json.to_string_pretty serialize_t t in
json = "{
\"t#Record3\": {
\"name\": \"Benjamin Sisko\",
\"favorite_number\": 9,
\"location\": \"Deep Space 9\"
}
}"
Contributing
Check the CONTRIBUTING.md for a small guide on how to implement new data formats.
Advanced Use: Custom Serializer/Deserializer
Serde.ml is capable of deriving the right serializer/deserializer for your types (and it if doesn't, that's a bug!) but in some cases you want to fit some external data format into an existing internal representation without having to add an extra layer.
In those cases, you can implement a Serde Visitor and customize absolutely everything about it. You can get started by using serde_derive
and dune describe pp
to expand the derivation. This will give you a solid starting point for your data type, where you can see how the generated Visitor drives the Deserializer by asking it to deserialize specific datatypes.
Dependencies (4)
-
serde_derive
= version
-
serde
= version
-
ocaml
>= "4.14.0"
-
dune
>= "3.5"
Dev Dependencies (1)
-
odoc
with-doc
Used by
None
Conflicts
None