package ppxlib
Standard library for ppx rewriters
Install
Dune Dependency
Authors
Maintainers
Sources
ppxlib-0.27.0.tbz
sha256=764b96121d6ffd6a73820e0ec5235176bfc42b94cf2ff97e32d068a5c4b28c62
sha512=2dcce0be6acdb3e185bfdad2785303a405c617f99949316abe6793f785d7227c10795ca49e79290bd385873da635191b44e8a5c211de114a168846d5d26f505c
doc/src/ppxlib_traverse/ppxlib_traverse.ml.html
Source file ppxlib_traverse.ml
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loc = get_loc x }) let evar_of_var { txt; loc } = evar ~loc txt let pvar_of_var { txt; loc } = pvar ~loc txt let tvar_of_var { txt; loc } = ptyp_var ~loc txt let evars_of_vars = List.map ~f:evar_of_var let pvars_of_vars = List.map ~f:pvar_of_var let tvars_of_vars = List.map ~f:tvar_of_var module Backends = struct class reconstructors = object method record ~loc flds = pexp_record ~loc flds None method construct ~loc id args = pexp_construct ~loc id (match args with [] -> None | _ -> Some (pexp_tuple ~loc args)) method tuple ~loc es = pexp_tuple ~loc es end class type what = object method name : string inherit reconstructors method class_params : loc:Location.t -> (core_type * (variance * injectivity)) list method apply : loc:Location.t -> expression -> expression list -> expression method abstract : loc:Location.t -> pattern -> expression -> expression (* Basic combinator type *) method typ : loc:Location.t -> core_type -> core_type method any : loc:Location.t -> expression method combine : loc:Location.t -> (string loc * expression) list -> reconstruct:expression -> expression end let mapper : what = object method name = "map" inherit reconstructors method class_params ~loc:_ = [] method apply ~loc expr args = eapply ~loc expr args method abstract ~loc patt expr = pexp_fun ~loc Nolabel None patt expr method typ ~loc ty = ptyp_arrow ~loc Nolabel ty ty method any ~loc = [%expr fun x -> x] method combine ~loc combinators ~reconstruct = List.fold_right combinators ~init:reconstruct ~f:(fun (v, expr) acc -> pexp_let ~loc Nonrecursive [ value_binding ~loc ~pat:(pvar_of_var v) ~expr ] acc) end let iterator : what = object method name = "iter" inherit reconstructors method class_params ~loc:_ = [] method apply ~loc expr args = eapply ~loc expr args method abstract ~loc patt expr = pexp_fun ~loc Nolabel None patt expr method typ ~loc ty = [%type: [%t ty] -> unit] method any ~loc = [%expr fun _ -> ()] method combine ~loc combinators ~reconstruct:_ = match List.rev combinators with | [] -> [%expr ()] | (_, expr) :: rest -> List.fold_left rest ~init:expr ~f:(fun acc (_v, expr) -> pexp_sequence ~loc expr acc) end let folder : what = object method name = "fold" inherit reconstructors method class_params ~loc = [ (ptyp_var ~loc "acc", (NoVariance, NoInjectivity)) ] method apply ~loc expr args = eapply ~loc expr (args @ [ evar ~loc "acc" ]) method abstract ~loc patt expr = eabstract ~loc [ patt; pvar ~loc "acc" ] expr method typ ~loc ty = [%type: [%t ty] -> 'acc -> 'acc] method any ~loc = [%expr fun _ acc -> acc] method combine ~loc combinators ~reconstruct:_ = match combinators with | [ (_, expr) ] -> expr | _ -> List.fold_right combinators ~init:[%expr acc] ~f:(fun (_v, expr) acc -> [%expr let acc = [%e expr] in [%e acc]]) end let fold_mapper : what = object method name = "fold_map" inherit reconstructors method class_params ~loc = [ (ptyp_var ~loc "acc", (NoVariance, NoInjectivity)) ] method apply ~loc expr args = eapply ~loc expr (args @ [ evar ~loc "acc" ]) method abstract ~loc patt expr = eabstract ~loc [ patt; pvar ~loc "acc" ] expr method typ ~loc ty = [%type: [%t ty] -> 'acc -> [%t ty] * 'acc] method any ~loc = [%expr fun x acc -> (x, acc)] method combine ~loc combinators ~reconstruct = List.fold_right combinators ~init:[%expr [%e reconstruct], acc] ~f:(fun (v, expr) acc -> [%expr let [%p pvar_of_var v], acc = [%e expr] in [%e acc]]) end exception Found let uses_var var = let iter = object inherit Ast_traverse.iter as super method! expression_desc = function | Pexp_ident { txt = Lident id; _ } when String.equal id var -> raise_notrace Found | e -> super#expression_desc e end in fun e -> try iter#expression e; false with Found -> true let mapper_with_context : what = let uses_ctx = uses_var "ctx" in object method name = "map_with_context" inherit reconstructors method class_params ~loc = [ (ptyp_var ~loc "ctx", (NoVariance, NoInjectivity)) ] method apply ~loc expr args = eapply ~loc expr (evar ~loc "ctx" :: args) method abstract ~loc patt expr = if uses_ctx expr then eabstract ~loc [ pvar ~loc "ctx"; patt ] expr else eabstract ~loc [ pvar ~loc "_ctx"; patt ] expr method typ ~loc ty = [%type: 'ctx -> [%t ty] -> [%t ty]] method any ~loc = [%expr fun _ctx x -> x] method combine ~loc combinators ~reconstruct = List.fold_right combinators ~init:reconstruct ~f:(fun (v, expr) acc -> [%expr let [%p pvar_of_var v] = [%e expr] in [%e acc]]) end let string_of_lid id = String.concat ~sep:"." (Longident.flatten_exn id) let lifter : what = object method name = "lift" method class_params ~loc = [ (ptyp_var ~loc "res", (NoVariance, NoInjectivity)) ] method apply ~loc expr args = eapply ~loc expr args method abstract ~loc patt expr = pexp_fun ~loc Nolabel None patt expr method typ ~loc ty = [%type: [%t ty] -> 'res] method any ~loc = [%expr self#other] method combine ~loc combinators ~reconstruct = List.fold_right combinators ~init:reconstruct ~f:(fun (v, expr) acc -> pexp_let ~loc Nonrecursive [ value_binding ~loc ~pat:(pvar_of_var v) ~expr ] acc) method record ~loc flds = let flds = elist ~loc (List.map flds ~f:(fun (lab, e) -> pexp_tuple ~loc:{ lab.loc with loc_end = e.pexp_loc.loc_end } [ estring ~loc:lab.loc (string_of_lid lab.txt); e ])) in [%expr self#record [%e flds]] method construct ~loc id args = let args = elist ~loc args in [%expr self#constr [%e estring ~loc:id.loc (string_of_lid id.txt)] [%e args]] method tuple ~loc es = [%expr self#tuple [%e elist ~loc es]] end let all = [ mapper; iterator; folder; fold_mapper; mapper_with_context; lifter ] end type what = Backends.what let mapper_type ~(what : what) ~loc type_name params = let vars = vars_of_list params ~get_loc:(fun t -> t.ptyp_loc) in let params = tvars_of_vars vars in let ty = ptyp_constr ~loc type_name params in let ty = List.fold_right params ~init:(what#typ ~loc ty) ~f:(fun param ty -> let loc = param.ptyp_loc in ptyp_arrow ~loc Nolabel (what#typ ~loc param) ty) in ptyp_poly ~loc vars ty let constrained_mapper ~(what : what) ?(is_gadt = false) mapper td = let vars = vars_of_list td.ptype_params ~get_loc:(fun (t, _) -> t.ptyp_loc) in let make_type params = let loc = td.ptype_loc in let ty = ptyp_constr ~loc (Loc.map td.ptype_name ~f:lident) params in List.fold_right params ~init:(what#typ ~loc:td.ptype_loc ty) ~f:(fun param ty -> let loc = param.ptyp_loc in ptyp_arrow ~loc Nolabel (what#typ ~loc param) ty) in let typ = let loc = td.ptype_loc in ptyp_poly ~loc vars (make_type (tvars_of_vars vars)) in let mapper = if false || is_gadt then let typs = List.map vars ~f:(fun v -> ptyp_constr ~loc:v.loc (Loc.map v ~f:lident) []) in List.fold_right vars ~init:(pexp_constraint ~loc:mapper.pexp_loc mapper (make_type typs)) ~f:(fun v e -> pexp_newtype ~loc:v.loc v e) else mapper in pexp_poly ~loc:mapper.pexp_loc mapper (Some typ) let mangle_type_name lid = let rec mangled_parts lid ~suffix = match lid with | Lident s -> String.lowercase_ascii s :: suffix | Ldot (lid, s) -> mangled_parts lid ~suffix:("__" :: String.lowercase_ascii s :: suffix) | Lapply (a, b) -> mangled_parts a ~suffix:("_'" :: mangled_parts b ~suffix:("'" :: suffix)) in mangled_parts lid ~suffix:[] |> String.concat ~sep:"" let rec type_expr_mapper ~(what : what) te = let loc = te.ptyp_loc in match te.ptyp_desc with | Ptyp_var s -> evar ~loc ("_" ^ s) | Ptyp_tuple tes -> let vars = vars_of_list tes ~get_loc:(fun t -> t.ptyp_loc) in let deconstruct = ppat_tuple ~loc (pvars_of_vars vars) in let reconstruct = what#tuple ~loc (evars_of_vars vars) in let mappers = map_variables ~what vars tes in what#abstract ~loc deconstruct (what#combine ~loc mappers ~reconstruct) | Ptyp_constr (path, params) -> ( let map = pexp_send ~loc (evar ~loc "self") (Loc.map path ~f:mangle_type_name) in match params with | [] -> map | _ -> eapply ~loc map (List.map params ~f:(fun te -> type_expr_mapper ~what te))) | _ -> what#any ~loc and map_variables ~(what : what) vars tes = List.map2 tes vars ~f:(fun te var -> ( var, what#apply ~loc:te.ptyp_loc (type_expr_mapper ~what te) [ evar_of_var var ] )) let gen_record' ~(what : what) ~loc lds = let vars = List.map lds ~f:(fun ld -> ld.pld_name) in let deconstruct = ppat_record ~loc (List.map vars ~f:(fun v -> (Loc.map v ~f:lident, pvar_of_var v))) Closed in let reconstruct = what#record ~loc (List.map vars ~f:(fun v -> (Loc.map v ~f:lident, evar_of_var v))) in let mappers = map_variables ~what vars (List.map lds ~f:(fun ld -> ld.pld_type)) in (deconstruct, reconstruct, mappers) let gen_record ~(what : what) ~loc lds = let deconstruct, reconstruct, mappers = gen_record' ~what lds ~loc in what#abstract ~loc deconstruct (what#combine ~loc mappers ~reconstruct) let is_constant_constructor cd = match cd.pcd_args with Pcstr_tuple [] -> true | _ -> false let erase_type_variables = object inherit Ast_traverse.map as super method! core_type_desc = function Ptyp_var _ -> Ptyp_any | x -> super#core_type_desc x end let gen_variant ~(what : what) ~loc cds = if String.( <> ) what#name "lift" && List.for_all cds ~f:is_constant_constructor then what#any ~loc else let cases = List.map cds ~f:(fun cd -> let cstr = Loc.map cd.pcd_name ~f:lident in let loc = cd.pcd_loc in let args = match cd.pcd_res with | None -> cd.pcd_args | Some _ -> (* This is a big sur-approximation but it's enough for our only use of GADTs in ppx_custom_format *) erase_type_variables#constructor_arguments cd.pcd_args in match args with | Pcstr_tuple args -> let vars = vars_of_list args ~get_loc:(fun t -> t.ptyp_loc) in let deconstruct = ppat_construct cstr ~loc (match vars with | [] -> None | _ -> Some (ppat_tuple ~loc (pvars_of_vars vars))) in let reconstruct = what#construct cstr ~loc (evars_of_vars vars) in let mappers = map_variables ~what vars args in case ~lhs:deconstruct ~rhs:(what#combine ~loc mappers ~reconstruct) ~guard:None | Pcstr_record labels -> let deconstruct, reconstruct, mappers = gen_record' ~loc ~what labels in let deconstruct = ppat_construct ~loc cstr (Some deconstruct) in let reconstruct = what#construct ~loc cstr [ reconstruct ] in case ~lhs:deconstruct ~rhs:(what#combine ~loc mappers ~reconstruct) ~guard:None) in what#abstract ~loc (pvar ~loc "x") (pexp_match ~loc (evar ~loc "x") cases) let gen_mapper ~(what : what) td = let body = let loc = td.ptype_loc in match td.ptype_kind with | Ptype_open -> what#any ~loc | Ptype_record lds -> gen_record ~what lds ~loc | Ptype_variant cds -> gen_variant ~what cds ~loc | Ptype_abstract -> ( match td.ptype_manifest with | None -> what#any ~loc | Some te -> type_expr_mapper ~what te) in List.fold_right td.ptype_params ~init:body ~f:(fun (ty, _) acc -> let loc = ty.ptyp_loc in match ty.ptyp_desc with | Ptyp_var s -> pexp_fun ~loc Nolabel None (pvar ~loc ("_" ^ s)) acc | _ -> pexp_fun ~loc Nolabel None (ppat_any ~loc) acc) let type_deps = let collect = object inherit [int Longident.Map.t] Ast_traverse.fold as super method! core_type t acc = let acc = match t.ptyp_desc with | Ptyp_constr (id, vars) -> Longident.Map.add id.txt (List.length vars) acc | _ -> acc in super#core_type t acc end in fun tds -> let empty = Longident.Map.empty in let map = List.fold_left tds ~init:empty ~f:(fun map td -> let map = collect#type_kind td.ptype_kind map in match (td.ptype_kind, td.ptype_manifest) with | Ptype_abstract, Some ty -> collect#core_type ty map | _ -> map) in let map = List.fold_left tds ~init:map ~f:(fun map td -> Longident.Map.remove (Lident td.ptype_name.txt) map) in Longident.Map.bindings map let lift_virtual_methods ~loc methods = let collect = object inherit [String.Set.t] Ast_traverse.fold as super method! expression_desc x acc = match x with | Pexp_send ( _, { txt = ("tuple" | "record" | "constr" | "other") as s; loc = _ } ) -> String.Set.add s acc | _ -> super#expression_desc x acc end in let used = collect#list collect#class_field methods String.Set.empty in let all_virtual_methods = match [%stri class virtual blah = object method virtual record : (string * 'res) list -> 'res method virtual constr : string -> 'res list -> 'res method virtual tuple : 'res list -> 'res method virtual other : 'a. 'a -> 'res end] with | { pstr_desc = Pstr_class [ { pci_expr = { pcl_desc = Pcl_structure { pcstr_fields = l; _ }; _ }; _; }; ]; _; } -> l | _ -> assert false in List.filter all_virtual_methods ~f:(fun m -> match m.pcf_desc with | Pcf_method (s, _, _) -> String.Set.mem s.txt used | _ -> false) let gen_class ~(what : what) ~loc tds = let class_params = what#class_params ~loc in let virtual_methods = List.map (type_deps tds) ~f:(fun (id, arity) -> pcf_method ~loc ( { txt = mangle_type_name id; loc }, Public, Cfk_virtual (mapper_type ~what ~loc { txt = id; loc } (List.init ~len:arity ~f:(fun _ -> ptyp_any ~loc))) )) in let methods = List.map tds ~f:(fun td -> let loc = td.ptype_loc in let mapper = gen_mapper ~what td in let is_gadt = match td.ptype_kind with | Ptype_variant cds -> List.exists cds ~f:(fun cd -> Option.is_some cd.pcd_res) | _ -> false in let mapper = constrained_mapper ~what ~is_gadt mapper td in pcf_method ~loc (td.ptype_name, Public, Cfk_concrete (Fresh, mapper))) in let virtual_methods = if String.equal what#name "lift" then lift_virtual_methods ~loc methods @ virtual_methods else virtual_methods in let virt = if List.is_empty virtual_methods then Concrete else Virtual in class_infos ~loc ~virt ~params:class_params ~name:{ loc; txt = what#name } ~expr: (pcl_structure ~loc (class_structure ~self:(ppat_var ~loc { txt = "self"; loc }) ~fields:(virtual_methods @ methods))) let gen_str ~(what : what) ~loc ~path:_ (rf, tds) = (match rf with | Nonrecursive -> (* The method name would clash... *) Location.raise_errorf ~loc "ppxlib_traverse doesn't support nonrec" | Recursive -> ()); let cl = gen_class ~loc ~what tds in [ pstr_class ~loc:cl.pci_loc [ cl ] ] let () = let derivers = List.map Backends.all ~f:(fun what -> Deriving.add ("traverse_" ^ what#name) ~str_type_decl:(Deriving.Generator.make_noarg (gen_str ~what))) in Deriving.add_alias "traverse" (List.rev derivers) |> Deriving.ignore