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aeon

Another Erlang to Object Notation translator

What it is

A validating / type-enforcing Erlang record <=> JSON converter built on top of JSX supporting deeply nested types.

aeon bridges the gap between records and Erlang <=> JSON mapping libraries like jsx. jsx can convert many Erlang terms to/from JSON, but cannot deal with Erlang records or tuples. aeon can take an Erlang record and turn it into a form that JSX can then turn into JSON. It can then do the reverse, taking the JSX-generated terms and re-assemble them into a record.

aeon can do the same with arbitrary tuples as long as they follow a defined -type.

Roundtripping is important. Any valid Erlang term with an external representation (meaning no funs) should be able to roundtrip to JSON and back. Numbers, binaries, strings, atoms, records, tuples and lists in any combination should have no problems. Caveats of unicode strings and numbers mentioned in the JSX docs apply.

How it works

aeon uses a parse transform to store the record and type information defined in a module and retrieve it at runtime. This type information is used to drive the construction of the record(s) and validate field types along the way. exprecs, part of parse_trans is used to create records and get/set fields. aeon uses parse_trans to accomplish it's parse transformation.

Dependencies

Modules defining the types to be translated must be compiled with the runtime_types (part of aeon) and exprecs (part of parse_trans) parse transforms.

jsx, or any library using the same JSON <=> Erlang mapping, is a runtime dependency. aeon does not handle JSON directly.

Examples

In a module "test.erl", define a 'user' record.

-module(test).

-compile({parse_transform, runtime_types}).
-compile({parse_transform, exprecs}).

-type privilege() :: login | create | delete | grant.

-record(user, {
          name :: binary(),
          age :: integer(),
          height :: float(),
          birthday :: {Year :: integer(),
                       Month :: integer(),
                       Day :: integer()},
          privileges :: [privilege()]
         }).

-export_type([privilege/0]).
-export_records([user]).

Breaking this down, here's what's going on:

  • line 3 tells the compiler to use a parse_transform that makes the type information available at runtime. Usually it is discarded during compliation.

  • line 4 tell the compiler to use a parse_transform that creates functions for introspecting and manipulating records, in this case the 'user' record

  • line 6 defines a type, 'privilege' that will be used later. In this case, privilege is an attribute of the user record.

  • lines 8-16 define the user record and, importantly, the type of each field. aeon will use this type information to convert the JSON into the record, and ensure that the record matches the specified types. If the JSON type can be converted into the specified type, it will be. For example, JSON does not distinguish between integer and float. JSON doesn't have atoms either, but aeon will try to convert JSON strings into atoms, as long as the atom already exists. Since we've defined the privilege type, the atoms 'login', 'create', 'delete' and 'grant' already exist. If the JSON had a string like "update" in the "privileges" field, the conversion would fail since it doesn't match the specification.

  • line 18 exports the defined privilege type. aeon does not need the type defined in order to use it, but you may want to use this type elsewhere.

  • line 19 exports the 'user' record. This is required for aeon to encode and decode the 'user' record.

Now that everything is set up, here's how you could use this to actually do something. Here is how to turn a record into JSON, which could then be sent to a browser.

User = #user{
          name = <<"Garret Smith">>,
          age = 34,
          height = 6.0,
          birthday = {1982, 06, 29},
          privileges = [login, create, delete, grant]
         },
Json = jsx:encode(aeon:record_to_jsx(User, test)),
io:fwrite("~s~n", [Json]),

This would print the JSON string:

{"name":"Garret Smith","age":34,"height":6.0,"birthday":[1982,6,29],"privileges":["login","create","delete","grant"]}

How about the other direction? Validating input is extremely important. Never trust that the data you receive back from a browser. If it isn't correct, it could make your program behave strangley sometime down the road. To turn some JSON back into an Erlang record, asserting that the record matches the specified type information:

User1 = aeon:to_record(jsx:decode(Json), test, user),
User = User1,

The record created from the JSON, User1, exactly matches the original User record.

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