package ppxlib
Standard infrastructure for ppx rewriters
Install
Dune Dependency
Authors
Maintainers
Sources
ppxlib-0.35.0.tbz
sha256=d9d959fc9f84260487e45684dc741898a92fc5506b61a7f5cac65d21832db925
sha512=e428b1e3b89261c7efdaa18016264d1afbf067cb9b0d41124b04796c2487ac7ca8ee9a24a60d56f20d1774cb44aaa9ecf1512f17455812ba8d62d4ef93616ee7
doc/src/ppxlib/deriving.ml.html
Source file deriving.ml
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"intf"; "both" ], function | "impl" -> keep_w32_impl := true | "intf" -> keep_w32_intf := true | "both" -> keep_w32_impl := true; keep_w32_intf := true | _ -> assert false ) in let conv_w32_spec = Stdlib.Arg.Symbol ( [ "code"; "attribute" ], function | "code" -> do_insert_unused_warning_attribute := false | "attribute" -> do_insert_unused_warning_attribute := true | _ -> assert false ) in Driver.add_arg "-deriving-keep-w32" keep_w32_spec ~doc:" Do not try to disable warning 32 for the generated code"; Driver.add_arg "-deriving-disable-w32-method" conv_w32_spec ~doc:" How to disable warning 32 for the generated code"; Driver.add_arg "-type-conv-keep-w32" keep_w32_spec ~doc:" Deprecated, use -deriving-keep-w32"; Driver.add_arg "-type-conv-w32" conv_w32_spec ~doc:" Deprecated, use -deriving-disable-w32-method" let keep_w32_impl () = !keep_w32_impl || Driver.pretty () let keep_w32_intf () = !keep_w32_intf || Driver.pretty () let keep_w60_impl = ref false let keep_w60_intf = ref false let () = let keep_w60_spec = Stdlib.Arg.Symbol ( [ "impl"; "intf"; "both" ], function | "impl" -> keep_w60_impl := true | "intf" -> keep_w60_intf := true | "both" -> keep_w60_impl := true; keep_w60_intf := true | _ -> assert false ) in Driver.add_arg "-deriving-keep-w60" keep_w60_spec ~doc:" Do not try to disable warning 60 for the generated code" let keep_w60_impl () = !keep_w60_impl || Driver.pretty () let keep_w60_intf () = !keep_w60_intf || Driver.pretty () let allow_unused_code_warnings = ref Options.default_allow_unused_code_warnings let () = Driver.add_arg "-unused-code-warnings" (Options.Forcable_bool.arg allow_unused_code_warnings) ~doc:" Allow ppx derivers to enable unused code warnings (default: false)" let allow_unused_code_warnings ~ppx_allows_unused_code_warnings = match !allow_unused_code_warnings with | Force -> true | False -> false | True -> ppx_allows_unused_code_warnings let allow_unused_type_warnings = ref Options.default_allow_unused_type_warnings let () = Driver.add_arg "-unused-type-warnings" (Options.Forcable_bool.arg allow_unused_type_warnings) ~doc: " Allow unused type warnings for types with [@@deriving ...] (default: \ false)" let allow_unused_type_warnings ~ppx_allows_unused_code_warnings = match !allow_unused_type_warnings with | Force -> true | False -> false | True -> ppx_allows_unused_code_warnings module Args = struct include ( Ast_pattern : module type of struct include Ast_pattern end with type ('a, 'b, 'c) t := ('a, 'b, 'c) Ast_pattern.t) type 'a param = { name : string; pattern : (expression, 'a) Ast_pattern.Packed.t; default : 'a; } let arg name pattern = { name; default = None; pattern = Ast_pattern.Packed.create pattern (fun x -> Some x); } let flag name = let pattern = pexp_ident (lident (string name)) in { name; default = false; pattern = Ast_pattern.Packed.create pattern true } type (_, _) t = | Nil : ('m, 'm) t | Cons : ('m1, 'a -> 'm2) t * 'a param -> ('m1, 'm2) t let empty = Nil let ( +> ) a b = Cons (a, b) let rec names : type a b. (a, b) t -> string list = function | Nil -> [] | Cons (t, p) -> p.name :: names t module Instance = struct type (_, _) instance = | I_nil : ('m, 'm) instance | I_cons : ('m1, 'a -> 'm2) instance * 'a -> ('m1, 'm2) instance let rec create : type a b. (a, b) t -> (string * expression) list -> (a, b) instance = fun spec args -> match spec with | Nil -> I_nil | Cons (t, p) -> let value = match List.assoc_opt p.name args with | None -> p.default | Some expr -> Ast_pattern.Packed.parse p.pattern expr.pexp_loc expr in I_cons (create t args, value) let rec apply : type a b. (a, b) instance -> a -> b = fun t f -> match t with I_nil -> f | I_cons (t, x) -> apply t f x end let apply t args f = Instance.apply (Instance.create t args) f end (* +-----------------------------------------------------------------+ | Generators | +-----------------------------------------------------------------+ *) type t = string let ignore (_ : t) = () type parsed_args = | Args of (string * expression) list | Unknown_syntax of Location.t * string type 'item derived_code = { items : 'item list; unused_code_warnings : bool } module Generator = struct type deriver = t type ('a, 'b) t = | T : { spec : ('c, 'a) Args.t; gen : ctxt:Expansion_context.Deriver.t -> 'b -> 'c; arg_names : String.Set.t; deps : deriver list; unused_code_warnings : bool; } -> ('a, 'b) t let deps (T t) = t.deps module V2 = struct let make ?attributes:(_ = []) ?(deps = []) ?(unused_code_warnings = false) spec gen = let arg_names = String.Set.of_list (Args.names spec) in T { spec; gen; arg_names; deps; unused_code_warnings } let make_noarg ?attributes ?deps ?unused_code_warnings gen = make ?attributes ?deps ?unused_code_warnings Args.empty gen end let make ?attributes ?deps ?unused_code_warnings spec gen = V2.make ?attributes ?deps ?unused_code_warnings spec (Expansion_context.Deriver.with_loc_and_path gen) let make_noarg ?attributes ?deps ?unused_code_warnings gen = make ?attributes ?deps ?unused_code_warnings Args.empty gen let merge_accepted_args l = let rec loop acc = function | [] -> acc | T t :: rest -> loop (String.Set.union acc t.arg_names) rest in loop String.Set.empty l let check_arguments name generators (args : (string * expression) list) = let empty_label_error = List.filter_map args ~f:(fun (label, e) -> if String.is_empty label then Some (Location.error_extensionf ~loc:e.pexp_loc "Ppxlib.Deriving: generator arguments must be labelled") else None) in let duplicate_argument_error = Option.map (List.find_a_dup args ~compare:(fun (a, _) (b, _) -> String.compare a b)) ~f:(fun (label, e) -> Location.error_extensionf ~loc:e.pexp_loc "Ppxlib.Deriving: argument labelled '%s' appears more than once" label) |> Option.to_list in let accepted_args = merge_accepted_args generators in let unaccepted_argument = List.filter_map args ~f:(fun (label, e) -> if not (String.Set.mem label accepted_args) then let spellcheck_msg = match Spellcheck.spellcheck (String.Set.elements accepted_args) label with | None -> "" | Some s -> ".\n" ^ s in Some (Location.error_extensionf ~loc:e.pexp_loc "Ppxlib.Deriving: generator '%s' doesn't accept argument \ '%s'%s" name label spellcheck_msg) else None) in let errors = empty_label_error @ duplicate_argument_error @ unaccepted_argument in if List.length errors = 0 then Ok () else Error errors let apply (T t) ~name:_ ~ctxt x args = Args.apply t.spec args (t.gen ~ctxt x) let apply_all ~ctxt entry (name, generators, args) = let open Result in check_arguments name.txt generators args >>| fun () -> List.map generators ~f:(fun (T t) -> { items = apply (T t) ~name:name.txt ~ctxt entry args; unused_code_warnings = t.unused_code_warnings; }) let apply_all ~ctxt entry generators ext_to_item = let l = List.map generators ~f:(apply_all ~ctxt entry) in let l1, lerr = List.partition_map (function Ok e -> Left e | Error e -> Right e) l in let lerr = List.concat lerr |> List.map ~f:(fun err -> ext_to_item ~loc:Location.none err []) in List.concat l1 @ [ { items = lerr; unused_code_warnings = false } ] end module Deriver = struct module Actual_deriver = struct type t = { name : string; str_type_decl : (structure, rec_flag * type_declaration list) Generator.t option; str_class_type_decl : (structure, class_type_declaration list) Generator.t option; str_type_ext : (structure, type_extension) Generator.t option; str_exception : (structure, type_exception) Generator.t option; str_module_type_decl : (structure, module_type_declaration) Generator.t option; sig_type_decl : (signature, rec_flag * type_declaration list) Generator.t option; sig_class_type_decl : (signature, class_type_declaration list) Generator.t option; sig_type_ext : (signature, type_extension) Generator.t option; sig_exception : (signature, type_exception) Generator.t option; sig_module_type_decl : (signature, module_type_declaration) Generator.t option; } end module Alias = struct type t = { str_type_decl : string list; str_class_type_decl : string list; str_type_ext : string list; str_exception : string list; str_module_type_decl : string list; sig_type_decl : string list; sig_class_type_decl : string list; sig_type_ext : string list; sig_exception : string list; sig_module_type_decl : string list; } end module Field = struct type ('a, 'b) t = { name : string; get : Actual_deriver.t -> ('a, 'b) Generator.t option; get_set : Alias.t -> string list; } let str_type_decl = { name = "type"; get = (fun t -> t.str_type_decl); get_set = (fun t -> t.str_type_decl); } let str_class_type_decl = { name = "class type declaration"; get = (fun t -> t.str_class_type_decl); get_set = (fun t -> t.str_class_type_decl); } let str_type_ext = { name = "type extension"; get = (fun t -> t.str_type_ext); get_set = (fun t -> t.str_type_ext); } let str_exception = { name = "exception"; get = (fun t -> t.str_exception); get_set = (fun t -> t.str_exception); } let str_module_type_decl = { name = "module type"; get = (fun t -> t.str_module_type_decl); get_set = (fun t -> t.str_module_type_decl); } let sig_type_decl = { name = "signature type"; get = (fun t -> t.sig_type_decl); get_set = (fun t -> t.sig_type_decl); } let sig_class_type_decl = { name = "signature class type"; get = (fun t -> t.sig_class_type_decl); get_set = (fun t -> t.sig_class_type_decl); } let sig_type_ext = { name = "signature type extension"; get = (fun t -> t.sig_type_ext); get_set = (fun t -> t.sig_type_ext); } let sig_exception = { name = "signature exception"; get = (fun t -> t.sig_exception); get_set = (fun t -> t.sig_exception); } let sig_module_type_decl = { name = "signature module type"; get = (fun t -> t.sig_module_type_decl); get_set = (fun t -> t.sig_module_type_decl); } end type t = Actual_deriver of Actual_deriver.t | Alias of Alias.t type Ppx_derivers.deriver += T of t let derivers () = List.filter_map (Ppx_derivers.derivers ()) ~f:(function | name, T t -> Some (name, t) | _ -> None) exception Not_supported of string let resolve_actual_derivers (field : (_, _) Field.t) name = let rec loop name collected = if List.exists collected ~f:(fun (d : Actual_deriver.t) -> String.equal d.name name) then collected else match Ppx_derivers.lookup name with | Some (T (Actual_deriver drv)) -> drv :: collected | Some (T (Alias alias)) -> let set = field.get_set alias in List.fold_right set ~init:collected ~f:loop | _ -> raise (Not_supported name) in List.rev (loop name []) let resolve_internal (field : (_, _) Field.t) name = List.map (resolve_actual_derivers field name) ~f:(fun drv -> match field.get drv with | None -> raise (Not_supported name) | Some g -> (drv.name, g)) let supported_for field = List.fold_left (derivers ()) ~init:String.Set.empty ~f:(fun acc (name, _) -> match resolve_internal field name with | _ -> String.Set.add name acc | exception Not_supported _ -> acc) |> String.Set.elements let not_supported (field : (_, _) Field.t) ?(spellcheck = true) name = let spellcheck_msg = if spellcheck then match Spellcheck.spellcheck (supported_for field) name.txt with | None -> "" | Some s -> ".\n" ^ s else "" in Location.error_extensionf ~loc:name.loc "Ppxlib.Deriving: '%s' is not a supported %s deriving generator%s" name.txt field.name spellcheck_msg let resolve field name = try Ok (resolve_internal field name.txt) with Not_supported name' -> Error (not_supported field ~spellcheck:(String.equal name.txt name') name) let resolve_all field derivers = let derivers_and_args, derivers_and_args_errors = List.partition_map (fun (name, args) -> match Ppx_derivers.lookup name.txt with | None -> Either.Right (not_supported field name) | Some (T _) -> ( (* It's one of ours, parse the arguments now. We can't do it before since ppx_deriving uses a different syntax for arguments. *) match args with | Args l -> Either.Left (Some (name, l)) | Unknown_syntax (loc, msg) -> Either.Right (Location.error_extensionf ~loc "Ppxlib.Deriving: %s" msg)) | Some _ -> (* It's not one of ours, ignore it. *) Either.Left None) derivers |> fun (l1, l2) -> (List.filter_opt l1, l2) in (* Set of actual deriver names *) let seen = Hashtbl.create 16 in let result, dep_errors = List.fold_left ~init:([], []) derivers_and_args ~f:(fun (result, errors) (name, args) -> match resolve field name with | Error e -> (result, errors @ [ e ]) | Ok named_generators -> let l_err = List.concat_map named_generators ~f:(fun (actual_deriver_name, gen) -> let dup_error = if Options.fail_on_duplicate_derivers && Hashtbl.mem seen actual_deriver_name then [ Location.error_extensionf ~loc:name.loc "Deriver %s appears twice" actual_deriver_name; ] else [] in let l_err = List.concat_map (Generator.deps gen) ~f:(fun dep -> List.filter_map (resolve_actual_derivers field dep) ~f:(fun drv -> let dep_name = drv.name in if not (Hashtbl.mem seen dep_name) then Some (Location.error_extensionf ~loc:name.loc "Deriver %s is needed for %s, you need to \ add it before in the list" dep_name name.txt) else None)) in Hashtbl.set seen ~key:actual_deriver_name ~data:(); dup_error @ l_err) in ( result @ [ (name, List.map named_generators ~f:snd, args) ], errors @ l_err )) in (result, derivers_and_args_errors @ dep_errors) let add ?str_type_decl ?str_class_type_decl ?str_type_ext ?str_exception ?str_module_type_decl ?sig_type_decl ?sig_class_type_decl ?sig_type_ext ?sig_exception ?sig_module_type_decl ?extension name = let actual_deriver : Actual_deriver.t = { name; str_type_decl; str_class_type_decl; str_type_ext; str_exception; str_module_type_decl; sig_type_decl; sig_class_type_decl; sig_type_ext; sig_exception; sig_module_type_decl; } in Ppx_derivers.register name (T (Actual_deriver actual_deriver)); (match extension with | None -> () | Some f -> let extension = Extension.declare name Expression Ast_pattern.(ptyp __) f in Driver.register_transformation ("Ppxlib.Deriving." ^ name) ~rules:[ Context_free.Rule.extension extension ]); name let add_alias name ?str_type_decl ?str_class_type_decl ?str_type_ext ?str_exception ?str_module_type_decl ?sig_type_decl ?sig_class_type_decl ?sig_type_ext ?sig_exception ?sig_module_type_decl set = let alias : Alias.t = let get = function None -> set | Some set -> set in { str_type_decl = get str_type_decl; str_class_type_decl = get str_class_type_decl; str_type_ext = get str_type_ext; str_exception = get str_exception; str_module_type_decl = get str_module_type_decl; sig_type_decl = get sig_type_decl; sig_class_type_decl = get sig_class_type_decl; sig_type_ext = get sig_type_ext; sig_exception = get sig_exception; sig_module_type_decl = get sig_module_type_decl; } in Ppx_derivers.register name (T (Alias alias)); name end let add = Deriver.add let add_alias = Deriver.add_alias (* +-----------------------------------------------------------------+ | [@@deriving ] parsing | +-----------------------------------------------------------------+ *) let invalid_with ~loc = Location.raise_errorf ~loc "invalid [@@deriving ] attribute syntax" let generator_name_of_id loc id = match Longident.flatten_exn id with | l -> { loc; txt = String.concat ~sep:"." l } | exception _ -> invalid_with ~loc exception Unknown_syntax of Location.t * string let parse_arguments l = try Args (match l with | [ (Nolabel, e) ] -> ( match e.pexp_desc with | Pexp_record (fields, None) -> List.map fields ~f:(fun (id, expr) -> let name = match id.txt with | Lident s -> s | _ -> raise_notrace (Unknown_syntax (id.loc, "simple identifier expected")) in (name, expr)) | _ -> raise_notrace (Unknown_syntax ( e.pexp_loc, "non-optional labelled argument or record expected" ))) | l -> List.map l ~f:(fun (label, expr) -> match label with | Labelled s -> (s, expr) | _ -> raise_notrace (Unknown_syntax (expr.pexp_loc, "non-optional labelled argument expected")))) with Unknown_syntax (loc, msg) -> Unknown_syntax (loc, msg) let mk_deriving_attr context ~prefix ~suffix = Attribute.declare (prefix ^ "deriving" ^ suffix) context Ast_pattern.( let generator_name () = map' (pexp_ident __) ~f:(fun loc f id -> f (generator_name_of_id loc id)) in let generator () = map (generator_name ()) ~f:(fun f x -> f (x, Args [])) ||| pack2 (pexp_apply (generator_name ()) (map1 (many __) ~f:parse_arguments)) in let generators = pexp_tuple (many (generator ())) ||| map (generator ()) ~f:(fun f x -> f [ x ]) in pstr (pstr_eval generators nil ^:: nil)) (fun x -> x) (* +-----------------------------------------------------------------+ | Unused warning stuff + locations check silencing | +-----------------------------------------------------------------+ *) let disable_warnings_attribute warnings = let loc = Location.none in let string = List.sort warnings ~cmp:Int.compare |> List.map ~f:(fun warning -> "-" ^ Int.to_string warning) |> String.concat ~sep:"" in { attr_name = { txt = "ocaml.warning"; loc }; attr_payload = PStr [ pstr_eval ~loc (estring ~loc string) [] ]; attr_loc = loc; } let inline_doc_attr = let loc = Location.none in { attr_name = { txt = "ocaml.doc"; loc }; attr_payload = PStr [ pstr_eval ~loc (estring ~loc "@inline") [] ]; attr_loc = loc; } (* wrap a structure in extra attributes *) let wrap_str ~loc ~hide st = let include_infos = include_infos ~loc (pmod_structure ~loc st) in let pincl_attributes = if hide then [ inline_doc_attr; Merlin_helpers.hide_attribute ] else [ inline_doc_attr ] in [ pstr_include ~loc { include_infos with pincl_attributes } ] (* decide what to wrap a structure in, then call above [wrap_str] *) let wrap_str ~loc ~hide ~unused_code_warnings st = let loc = { loc with loc_ghost = true } in let unused_code_warnings = allow_unused_code_warnings ~ppx_allows_unused_code_warnings:unused_code_warnings in let warnings, st = if keep_w32_impl () || unused_code_warnings then ([], st) else if not !do_insert_unused_warning_attribute then ([], Ignore_unused_warning.add_dummy_user_for_values#structure st) else ([ 32 ], st) in let warnings, st = if keep_w60_impl () || unused_code_warnings || not (Ignore_unused_warning.binds_module_names#structure st false) then (warnings, st) else (60 :: warnings, st) in let wrap, st = if List.is_empty warnings then (hide, st) else (true, pstr_attribute ~loc (disable_warnings_attribute warnings) :: st) in if wrap then wrap_str ~loc ~hide st else st (* wrap blocks that share [unused_code_warnings], using above [wrap_str] above *) let wrap_str ~loc ~hide list = List.concat_map list ~f:(fun { items; unused_code_warnings } -> if List.is_empty items then [] else wrap_str ~loc ~hide ~unused_code_warnings items) (* wrap a signature in extra attributes *) let wrap_sig ~loc ~hide st = let include_infos = include_infos ~loc (pmty_signature ~loc st) in let pincl_attributes = if hide then [ inline_doc_attr; Merlin_helpers.hide_attribute ] else [ inline_doc_attr ] in [ psig_include ~loc { include_infos with pincl_attributes } ] (* decide what to wrap a signature in, then call above [wrap_sig] *) let wrap_sig ~loc ~hide ~unused_code_warnings sg = let loc = { loc with loc_ghost = true } in let unused_code_warnings = allow_unused_code_warnings ~ppx_allows_unused_code_warnings:unused_code_warnings in let warnings = if keep_w32_intf () || unused_code_warnings then [] else [ 32 ] in let warnings = if keep_w60_intf () || (not (Ignore_unused_warning.binds_module_names#signature sg false)) || unused_code_warnings then warnings else 60 :: warnings in let wrap, sg = if List.is_empty warnings then (hide, sg) else (true, psig_attribute ~loc (disable_warnings_attribute warnings) :: sg) in if wrap then wrap_sig ~loc ~hide sg else sg (* wrap blocks that share [unused_code_warnings], using above [wrap_sig] above *) let wrap_sig ~loc ~hide list = List.concat_map list ~f:(fun { items; unused_code_warnings } -> if List.is_empty items then [] else wrap_sig ~loc ~hide ~unused_code_warnings items) (* +-----------------------------------------------------------------+ | Main expansion | +-----------------------------------------------------------------+ *) let types_used_by_deriving (tds : type_declaration list) ~unused_code_warnings:ppx_allows_unused_code_warnings : structure_item list = let unused_code_warnings = allow_unused_code_warnings ~ppx_allows_unused_code_warnings in let unused_type_warnings = allow_unused_type_warnings ~ppx_allows_unused_code_warnings in if keep_w32_impl () || unused_code_warnings || unused_type_warnings then [] else List.map tds ~f:(fun td -> let typ = Common.core_type_of_type_declaration td in let loc = td.ptype_loc in pstr_value ~loc Nonrecursive [ value_binding ~loc ~pat:(ppat_any ~loc) ~expr: (pexp_fun ~loc Nolabel None (ppat_constraint ~loc (ppat_any ~loc) typ) (eunit ~loc)); ]) let merge_generators field l = List.filter_map l ~f:(fun x -> x) |> List.concat |> Deriver.resolve_all field (* This function merges ['a derived] if they have the same [unused_code_warnings]. This reduces the number of times we add [include struct ... end] to disable warnings. *) let merge_derived lists = List.fold_right lists ~init:[] ~f:(fun derived acc -> match acc with | other :: others when Bool.equal derived.unused_code_warnings other.unused_code_warnings -> { other with items = derived.items @ other.items } :: others | _ -> derived :: acc) let expand_str_type_decls ~ctxt rec_flag tds values = let generators, l_err = merge_generators Deriver.Field.str_type_decl values in let l_err = List.map ~f:(fun err -> Ast_builder.Default.pstr_extension ~loc:Location.none err []) l_err in let unused_code_warnings = List.for_all generators ~f:(fun (_, generators, _) -> List.for_all generators ~f:(fun (Generator.T t) -> t.unused_code_warnings)) in (* TODO: instead of disabling the unused warning for types themselves, we should add a tag [@@unused]. *) let generated = { items = types_used_by_deriving tds ~unused_code_warnings @ l_err; unused_code_warnings = false; } :: Generator.apply_all ~ctxt (rec_flag, tds) generators Ast_builder.Default.pstr_extension |> merge_derived in wrap_str ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_sig_type_decls ~ctxt rec_flag tds values = let generators, l_err = merge_generators Deriver.Field.sig_type_decl values in let l_err = List.map ~f:(fun err -> Ast_builder.Default.psig_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt (rec_flag, tds) generators Ast_builder.Default.psig_extension |> merge_derived in wrap_sig ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_str_module_type_decl ~ctxt mtd generators = let generators, l_err = Deriver.resolve_all Deriver.Field.str_module_type_decl generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.pstr_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt mtd generators Ast_builder.Default.pstr_extension |> merge_derived in wrap_str ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_sig_module_type_decl ~ctxt mtd generators = let generators, l_err = Deriver.resolve_all Deriver.Field.sig_module_type_decl generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.psig_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt mtd generators Ast_builder.Default.psig_extension |> merge_derived in wrap_sig ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_str_exception ~ctxt ec generators = let generators, l_err = Deriver.resolve_all Deriver.Field.str_exception generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.pstr_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt ec generators Ast_builder.Default.pstr_extension |> merge_derived in wrap_str ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_sig_exception ~ctxt ec generators = let generators, l_err = Deriver.resolve_all Deriver.Field.sig_exception generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.psig_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt ec generators Ast_builder.Default.psig_extension |> merge_derived in wrap_sig ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_str_type_ext ~ctxt te generators = let generators, l_err = Deriver.resolve_all Deriver.Field.str_type_ext generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.pstr_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt te generators Ast_builder.Default.pstr_extension |> merge_derived in wrap_str ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_sig_type_ext ~ctxt te generators = let generators, l_err = Deriver.resolve_all Deriver.Field.sig_type_ext generators in let l_err = List.map ~f:(fun err -> Ast_builder.Default.psig_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt te generators Ast_builder.Default.psig_extension |> merge_derived in wrap_sig ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_str_class_type_decls ~ctxt _rec_flag cds values = let generators, l_err = merge_generators Deriver.Field.str_class_type_decl values in let l_err = List.map ~f:(fun err -> Ast_builder.Default.pstr_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt cds generators Ast_builder.Default.pstr_extension |> merge_derived in wrap_str ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let expand_sig_class_decls ~ctxt _rec_flag cds values = let generators, l_err = merge_generators Deriver.Field.sig_class_type_decl values in let l_err = List.map ~f:(fun err -> Ast_builder.Default.psig_extension ~loc:Location.none err []) l_err in let generated = { items = l_err; unused_code_warnings = false } :: Generator.apply_all ~ctxt cds generators Ast_builder.Default.psig_extension |> merge_derived in wrap_sig ~loc:(Expansion_context.Deriver.derived_item_loc ctxt) ~hide:(not @@ Expansion_context.Deriver.inline ctxt) generated let rules ~typ ~expand_sig ~expand_str ~rule_str ~rule_sig ~rule_str_expect ~rule_sig_expect = let prefix = "ppxlib." in let deriving_attr = mk_deriving_attr ~suffix:"" ~prefix typ in let deriving_attr_expect = mk_deriving_attr ~suffix:"_inline" ~prefix typ in [ rule_sig deriving_attr expand_sig; rule_str deriving_attr expand_str; rule_str_expect deriving_attr_expect expand_str; rule_sig_expect deriving_attr_expect expand_sig; ] let rules_type_decl = rules ~typ:Type_declaration ~expand_str:expand_str_type_decls ~expand_sig:expand_sig_type_decls ~rule_str:Context_free.Rule.attr_str_type_decl ~rule_sig:Context_free.Rule.attr_sig_type_decl ~rule_str_expect:Context_free.Rule.attr_str_type_decl_expect ~rule_sig_expect:Context_free.Rule.attr_sig_type_decl_expect let rules_type_ext = rules ~typ:Type_extension ~expand_str:expand_str_type_ext ~expand_sig:expand_sig_type_ext ~rule_str:Context_free.Rule.attr_str_type_ext ~rule_sig:Context_free.Rule.attr_sig_type_ext ~rule_str_expect:Context_free.Rule.attr_str_type_ext_expect ~rule_sig_expect:Context_free.Rule.attr_sig_type_ext_expect let rules_exception = rules ~typ:Type_exception ~expand_str:expand_str_exception ~expand_sig:expand_sig_exception ~rule_str:Context_free.Rule.attr_str_exception ~rule_sig:Context_free.Rule.attr_sig_exception ~rule_str_expect:Context_free.Rule.attr_str_exception_expect ~rule_sig_expect:Context_free.Rule.attr_sig_exception_expect let rules_module_type_decl = rules ~typ:Module_type_declaration ~expand_str:expand_str_module_type_decl ~expand_sig:expand_sig_module_type_decl ~rule_str:Context_free.Rule.attr_str_module_type_decl ~rule_sig:Context_free.Rule.attr_sig_module_type_decl ~rule_str_expect:Context_free.Rule.attr_str_module_type_decl_expect ~rule_sig_expect:Context_free.Rule.attr_sig_module_type_decl_expect let rules_class_type_decl = rules ~typ:Class_type_decl ~expand_str:expand_str_class_type_decls ~expand_sig:expand_sig_class_decls ~rule_str:Context_free.Rule.attr_str_class_type_decl ~rule_sig:Context_free.Rule.attr_sig_class_type_decl ~rule_str_expect:Context_free.Rule.attr_str_class_type_decl_expect ~rule_sig_expect:Context_free.Rule.attr_sig_class_type_decl_expect let () = let rules = [ rules_type_decl; rules_type_ext; rules_exception; rules_module_type_decl; rules_class_type_decl; ] |> List.concat in Driver.register_transformation "deriving" ~aliases:[ "type_conv" ] ~rules