bison (formerly gleam_bson)
bson encoder and decoder for gleam
Quick start
gleam test # Run the tests
gleam shell # Run an Erlang shell
Installation
gleam add bison
Roadmap
- support encoding and decoding basic bson types (null, string, int32, int64, double, boolean, objectId, array, document).
- support encoding and decoding min, max, timestamp, datetime, javascript and regex bson types.
- support encoding and decoding the generic, md5, uuid and user-defined binary subtypes.
- support generating new object-ids
- support encoding and decoding decimal128 bson type.
- support encoding and decoding encrypted binary subtype.
Usage
Encoding
import gleam/list
import gleam/result
import bison/md5
import bison/bson
import bison.{encode}
import bison/object_id
fn calf_to_bson(calf: Calf) -> Result(BitString, Nil) {
use id <- result.then(object_id.from_string(calf.id))
use checksum <- result.then(md5.from_string(calf.checksum))
Ok(encode([
#("id", bson.ObjectId(id)),
#("name", bson.Str(calf.name)),
#("lives", bson.Int32(calf.lives)),
#("nicknames", bson.Array(list.map(calf.nicknames, bson.Str))),
#("checksum", bson.Binary(bson.MD5(checksum))),
#("name_pattern", bson.Regex(#("[a-z][a-z0-9]+", ""))),
]))
}
Decoding
import gleam/list
import gleam/result
import bison/md5
import bison/bson
import bison.{decode}
import bison/object_id
fn calf_from_bson(data: BitString) -> Result(Calf, Nil) {
use doc <- result.then(decode(data))
let [
#("id", bson.ObjectId(id)),
#("name", bson.Str(name)),
#("lives", bson.Int32(lives)),
#("nicknames", bson.Array(nicknames)),
#("checksum", bson.Binary(bson.MD5(checksum))),
#("name_pattern", bson.Regex(#(pattern, options))),
] = doc
Ok(Calf(
id: object_id.to_string(id),
name: name,
lives: lives,
nicknames: list.map(
nicknames,
fn(n) {
let assert bson.Str(n) = n
n
},
),
checksum: md5.to_string(checksum),
))
}