{%html: <div style="display: flex; justify-content:space-between"><div>%}{{!"good-practices"}< Good practices}{%html: </div><div>%}{%html: </div></div>%}

{0 Examples}

This section is here to allow viewing complete examples of PPXs written using [ppxlib] directly in the documentation. However, they are not "complete" in the sense that the overall organization, such as the [dune] files, is not included.

In order to see a fully working complete example of a PPX written using [ppxlib], that you can compile, modify and test, go to the {{:https://github.com/ocaml-ppx/ppxlib/tree/main/examples}examples} folder of ppxlib sources.

{1 [ppx_deriving_accesors]}

The fully complete, ready-to-compile [ppx_deriving_accesors] example is accessible in [ppxlib]'s {{:https://github.com/ocaml-ppx/ppxlib/tree/main/examples/simple-deriver}sources}.

This deriver will generate accessors for record fields, from the record type
definition.

For example, this code:

{@ocaml[
type t =
  { a : string
  ; b : int
  }
  [@@deriving accessors]
]}

will generate the following, appended after the type definition:

{@ocaml[
let a x = x.a
let b x = x.b
]}

The entire code is:

{@ocaml[
open Ppxlib
module List = ListLabels
open Ast_builder.Default

let accessor_impl (ld : label_declaration) =
  let loc = ld.pld_loc in
  pstr_value ~loc Nonrecursive
    [
      {
        pvb_pat = ppat_var ~loc ld.pld_name;
        pvb_expr =
          pexp_fun ~loc Nolabel None
            (ppat_var ~loc { loc; txt = "x" })
            (pexp_field ~loc
               (pexp_ident ~loc { loc; txt = lident "x" })
               { loc; txt = lident ld.pld_name.txt });
        pvb_attributes = [];
        pvb_loc = loc;
      };
    ]

let accessor_intf ~ptype_name (ld : label_declaration) =
  let loc = ld.pld_loc in
  psig_value ~loc
    {
      pval_name = ld.pld_name;
      pval_type =
        ptyp_arrow ~loc Nolabel
          (ptyp_constr ~loc { loc; txt = lident ptype_name.txt } [])
          ld.pld_type;
      pval_attributes = [];
      pval_loc = loc;
      pval_prim = [];
    }

let generate_impl ~ctxt (_rec_flag, type_declarations) =
  let loc = Expansion_context.Deriver.derived_item_loc ctxt in
  List.map type_declarations ~f:(fun (td : type_declaration) ->
      match td with
      | {
       ptype_kind = Ptype_abstract | Ptype_variant _ | Ptype_open;
       ptype_loc;
       _;
      } ->
          let ext =
            Location.error_extensionf ~loc:ptype_loc
              "Cannot derive accessors for non record types"
          in
          [ Ast_builder.Default.pstr_extension ~loc ext [] ]
      | { ptype_kind = Ptype_record fields; _ } ->
          List.map fields ~f:accessor_impl)
  |> List.concat

let generate_intf ~ctxt (_rec_flag, type_declarations) =
  let loc = Expansion_context.Deriver.derived_item_loc ctxt in
  List.map type_declarations ~f:(fun (td : type_declaration) ->
      match td with
      | {
       ptype_kind = Ptype_abstract | Ptype_variant _ | Ptype_open;
       ptype_loc;
       _;
      } ->
          let ext =
            Location.error_extensionf ~loc:ptype_loc
              "Cannot derive accessors for non record types"
          in
          [ Ast_builder.Default.psig_extension ~loc ext [] ]
      | { ptype_kind = Ptype_record fields; ptype_name; _ } ->
          List.map fields ~f:(accessor_intf ~ptype_name))
  |> List.concat

let impl_generator = Deriving.Generator.V2.make_noarg generate_impl
let intf_generator = Deriving.Generator.V2.make_noarg generate_intf

let my_deriver =
  Deriving.add "accessors" ~str_type_decl:impl_generator
    ~sig_type_decl:intf_generator
]}

{1 [ppx_get_env]}

The fully complete, ready-to-compile [ppx_get_env] example is accessible in [ppxlib]'s {{:https://github.com/ocaml-ppx/ppxlib/tree/main/examples/simple-extension-rewriter}sources}.

A PPX rewriter that will expand [[%get_env "SOME_ENV_VAR"]] into the value of the
env variable [SOME_ENV_VAR] at compile time, as a string.

E.g., assuming we set [MY_VAR="foo"], it will turn:

{@ocaml[
let () = print_string [%get_env "foo"]
]}```

into:

{@ocaml[
let () = print_string "foo"
]}


Note that this is just a toy example, and we actually advise against this
type of PPX that has side effects or relies heavily on the file system or [env]
variables, unless you absolutely you know what you're doing.

In this case, it won't work well with Dune, since Dune won't know
about the dependency on the env variables specified in the extension's payload.

The entire code is:

{@ocaml[
open Ppxlib

let expand ~ctxt env_var =
  let loc = Expansion_context.Extension.extension_point_loc ctxt in
  match Sys.getenv env_var with
  | value -> Ast_builder.Default.estring ~loc value
  | exception Not_found ->
      let ext =
        Location.error_extensionf ~loc "The environment variable %s is unbound"
          env_var
      in
      Ast_builder.Default.pexp_extension ~loc ext

let my_extension =
  Extension.V3.declare "get_env" Extension.Context.expression
    Ast_pattern.(single_expr_payload (estring __))
    expand

let rule = Ppxlib.Context_free.Rule.extension my_extension
let () = Driver.register_transformation ~rules:[ rule ] "get_env"
]}

{%html: <div style="display: flex; justify-content:space-between"><div>%}{{!"good-practices"}< Good practices}{%html: </div><div>%}{%html: </div></div>%}