package OCanren-ppx
Implementation of miniKanren relational (logic) EDSL: PPX extensions
Install
Dune Dependency
Authors
Maintainers
Sources
0.3.0.tar.gz
sha256=eaf9624bbdbae8050eb43a48c0e79e97160b83b6f65a543ee1beca4c9f4ff4b2
sha512=e55dd7a3026b1dedcd37f55181059dfa44ad6976d241a1199246ee3c1684dcfdf1ae0c1da32165b5b2eb5748cfc57c906a0f0ebab56d03035a5bb87187a63cf7
doc/src/ppx_distrib/ppx_distrib_expander.ml.html
Source file ppx_distrib_expander.ml
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let failwiths ?(loc = Location.none) fmt = Location.raise_errorf ~loc fmt let nolabelize = List.map ~f:(fun e -> Nolabel, e) let notify fmt = Printf.ksprintf (fun s -> let _cmd = Printf.sprintf "notify-send \"%s\"" s in let (_ : int) = Caml.Sys.command _cmd in ()) fmt ;; let ( @@ ) = Caml.( @@ ) let nolabel = Asttypes.Nolabel let mangle_construct_name name = let low = String.mapi ~f:(function | 0 -> Char.lowercase | _ -> Fn.id) name in match low with | "val" | "if" | "else" | "for" | "do" | "let" | "open" | "not" -> low ^ "_" | _ -> low ;; let lower_lid lid = Location.{ lid with txt = mangle_construct_name lid.Location.txt } let has_name_attr (xs : attributes) = let exception Found of string in try List.iter xs ~f:(function | { attr_loc; attr_name = { txt = "name" }; attr_payload = PStr [ si ] } -> let open Ast_pattern in let p = pstr_eval (pexp_constant (pconst_string __ __ none)) nil in parse p attr_loc ~on_error:(fun _ -> ()) si (fun s -> raise (Found s)) | _ -> ()); None with | Found s -> Some s ;; let decorate_with_attributes tdecl ptype_attributes = { tdecl with ptype_attributes } include struct let make_typ_exn ?(ccompositional = false) ~loc oca_logic_ident kind typ = let rec helper = function | [%type: int] as t -> oca_logic_ident ~loc:t.ptyp_loc t | t -> (match t.ptyp_desc with | Ptyp_constr ({ txt = Ldot (Lident "GT", _) }, []) -> oca_logic_ident ~loc:t.ptyp_loc t | Ptyp_constr ({ txt = Ldot (Lident "GT", "list") }, xs) -> ptyp_constr ~loc (Located.mk ~loc:t.ptyp_loc (lident_of_list [ "OCanren"; "Std"; "List"; kind ])) (List.map ~f:helper xs) | Ptyp_constr ({ txt = Ldot (path, "ground") }, xs) -> ptyp_constr ~loc (Located.mk ~loc (Ldot (path, kind))) (List.map ~f:helper xs) | Ptyp_constr ({ txt = Lident "ground" }, xs) -> ptyp_constr ~loc (Located.mk ~loc (Lident kind)) xs | Ptyp_tuple [ l; r ] -> ptyp_constr ~loc (Located.mk ~loc:t.ptyp_loc (lident_of_list [ "OCanren"; "Std"; "Pair"; kind ])) [ helper l; helper r ] | Ptyp_constr ({ txt = Lident s }, []) -> oca_logic_ident ~loc:t.ptyp_loc t | Ptyp_constr (({ txt = Lident "t" } as id), xs) -> oca_logic_ident ~loc:t.ptyp_loc @@ ptyp_constr ~loc id (List.map ~f:helper xs) | _ -> t) in match typ with | { ptyp_desc = Ptyp_constr (id, args) } -> if ccompositional then helper typ else ( let ttt = ptyp_constr ~loc id (List.map ~f:helper args) in oca_logic_ident ~loc ttt) | { ptyp_desc = Ptyp_tuple [ l; r ] } -> ptyp_constr ~loc (Located.mk ~loc @@ lident_of_list [ "OCanren"; "Std"; "Pair"; kind ]) (List.map ~f:helper [ l; r ]) | _ -> failwiths "can't generate %s type: %a" kind Ppxlib.Pprintast.core_type typ ;; let ltypify_exn ?(ccompositional = false) ~loc typ = let oca_logic_ident ~loc = Located.mk ~loc (lident_of_list [ "OCanren"; "logic" ]) in make_typ_exn ~ccompositional ~loc (fun ~loc t -> ptyp_constr ~loc (oca_logic_ident ~loc:t.ptyp_loc) [ t ]) "logic" typ ;; let gtypify_exn ?(ccompositional = false) ~loc typ = make_typ_exn ~ccompositional ~loc (fun ~loc t -> t) "ground" typ ;; let%expect_test _ = let loc = Location.none in let test i = let t2 = match i.pstr_desc with | Pstr_type (_, [ { ptype_manifest = Some t } ]) -> ltypify_exn ~ccompositional:true ~loc t | _ -> assert false in Format.printf "%a\n%!" Ppxlib.Pprintast.core_type t2 in test [%stri type t1 = (int * int) Std.List.ground]; [%expect {| (int OCanren.logic, int OCanren.logic) OCanren.Std.Pair.logic Std.List.logic |}]; () ;; end let injectify ~loc typ = let oca_logic_ident ~loc = Located.mk ~loc (Ldot (Lident "OCanren", "ilogic")) in let add_ilogic ~loc t = ptyp_constr ~loc (oca_logic_ident ~loc) [ t ] in let rec helper t = (* Format.printf "HERR %a\n%!" PPP.core_type t; *) (* .... ground ~~~> injected ... .... t ~~~> .... t ilogic *) match t with | [%type: GT.int] | [%type: int] | [%type: GT.string] | [%type: string] | [%type: GT.bool] | [%type: bool] -> [%type: [%t t] OCanren.ilogic] | [%type: [%t? arg] GT.list] -> [%type: [%t helper arg] OCanren.Std.List.groundi] | { ptyp_desc = Ptyp_constr ({ txt = Ldot (Lident "GT", s) }, []) } -> ptyp_constr ~loc (oca_logic_ident ~loc:t.ptyp_loc) [ t ] | { ptyp_desc = Ptyp_constr ({ txt = Ldot (path, "ground") }, []) } -> ptyp_constr ~loc (Located.mk ~loc (Ldot (path, "injected"))) [] | { ptyp_desc = Ptyp_constr ({ txt = Ldot (path, "ground") }, xs) } -> ptyp_constr ~loc (Located.mk ~loc (Ldot (path, "injected"))) @@ List.map ~f:helper xs | { ptyp_desc = Ptyp_constr ({ txt = Lident "t" }, xs) } -> add_ilogic ~loc @@ ptyp_constr ~loc (Located.mk ~loc (Lident "t")) (List.map ~f:helper xs) | { ptyp_desc = Ptyp_constr ({ txt = Lident "ground" }, xs) } -> ptyp_constr ~loc (Located.mk ~loc (Lident "injected")) (List.map ~f:helper xs) | { ptyp_desc = Ptyp_var _ } -> t | _ -> Location.raise_errorf ~loc "injectify: bad type `%a`" Pprintast.core_type t in helper typ ;; let%expect_test "injectify" = let loc = Location.none in let test i = let t2 = match i.pstr_desc with | Pstr_type (_, [ { ptype_manifest = Some t } ]) -> injectify ~loc t | _ -> assert false in Format.printf "%a\n%!" Ppxlib.Pprintast.core_type t2 in test [%stri type nonrec x = GT.int t]; [%expect {| GT.int OCanren.ilogic t OCanren.ilogic |}]; test [%stri type nonrec ground = ground t]; [%expect {| injected t OCanren.ilogic |}]; test [%stri type nonrec ground = int GT.list]; [%expect {| int OCanren.ilogic OCanren.Std.List.groundi |}]; () ;; type kind = | Reify | Prj_exn let manifest_of_tdecl_exn tdecl = match tdecl.ptype_manifest with | None -> failwiths ~loc:tdecl.ptype_loc "types without manifest are not allowed" | Some m -> m ;; let process_main ~loc base_tdecl (rec_, tdecl) = let is_rec = match rec_ with | Recursive -> true | Nonrecursive -> false in let ltyp = let ptype_manifest = match tdecl.ptype_manifest with | None -> failwith "no manifest" | Some ({ ptyp_desc = Ptyp_constr (id, args) } as typ) -> Some (ltypify_exn ~loc typ) | t -> t in let ptype_attributes = List.filter tdecl.ptype_attributes ~f:(fun attr -> match attr.attr_name.txt with | "distrib" -> false | _ -> true) in { tdecl with ptype_name = Located.mk ~loc "logic"; ptype_manifest; ptype_attributes } in let names = extract_names tdecl.ptype_params in let injected_typ = let ptype_manifest = match tdecl.ptype_manifest with | None -> failwiths ~loc:tdecl.ptype_loc "No manifest" | Some ({ ptyp_desc = Ptyp_constr (id, args) } as typ) -> Option.some (injectify ~loc typ) | t -> t in type_declaration ~loc ~name:(Located.mk ~loc "injected") ~private_:Public ~kind:Ptype_abstract ~cstrs:[] ~params:(List.map names ~f:(fun s -> Typ.var s, (NoVariance, NoInjectivity))) ~manifest:ptype_manifest in let creators = let name cd = mangle_construct_name cd.pcd_name.txt in match base_tdecl.ptype_kind with | Ptype_variant cds -> List.map cds ~f:(fun cd -> let name = match has_name_attr cd.pcd_attributes with | None -> name cd | Some name -> name in match cd.pcd_args with | Pcstr_tuple xs -> let args = List.map xs ~f:(fun _ -> Ppxlib.gen_symbol ()) in let add_args rhs = match args with | [] -> [%expr fun () -> [%e rhs]] | args -> List.fold_right ~init:rhs args ~f:(fun x acc -> Exp.fun_ nolabel None (Pat.var (Located.mk ~loc x)) acc) in [%stri let [%p Pat.var ~loc (Located.mk ~loc name)] = [%e add_args [%expr OCanren.inji [%e Exp.construct (Located.map_lident cd.pcd_name) (if List.is_empty args then None else Some (Exp.mytuple ~loc (List.map args ~f:(Exp.lident ~loc))))]]] ;;] | _ -> failwiths ~loc:base_tdecl.ptype_loc "constructors with records are not implemented") | Ptype_record _ -> failwiths ~loc:base_tdecl.ptype_loc "%s %d Record constructors are not implemented" Caml.__FILE__ Caml.__LINE__ | Ptype_open | Ptype_abstract -> failwiths ~loc:base_tdecl.ptype_loc "%s %d Open and abstract types are not supported" Caml.__FILE__ Caml.__LINE__ in let mk_arg_reifier s = sprintf "r%s" s in let make_reifier_gen ~kind ?(typ = None) is_rec tdecl = let pat, base_reifier, name = match kind with | Reify -> [%pat? reify], [%expr OCanren.reify], "reify" | Prj_exn -> [%pat? prj_exn], [%expr OCanren.prj_exn], "prj_exn" in let manifest = manifest_of_tdecl_exn tdecl in let add_args = let loc = tdecl.ptype_loc in fun rhs -> List.fold_right names ~init:rhs ~f:(fun name acc -> [%expr fun [%p Pat.var (Located.mk ~loc (mk_arg_reifier name))] -> [%e acc]]) in let rec helper typ : expression = let loc = typ.ptyp_loc in match typ with | { ptyp_desc = Ptyp_constr ({ txt = Lident "ground" }, _) } -> [%expr self] | { ptyp_desc = Ptyp_var s } -> pexp_ident ~loc (Located.mk ~loc (lident (mk_arg_reifier s))) | [%type: GT.int] | [%type: int] | [%type: GT.bool] | [%type: bool] | [%type: GT.string] | [%type: string] -> base_reifier | [%type: [%t? arg] GT.list] -> failwiths ~loc "There are some issues with GT.list. Please, use fully qualified \ OCanren.Std.List.ground for now " | { ptyp_desc = Ptyp_constr ({ txt = Ldot (m, _) }, args) } -> let rhs = pexp_ident ~loc (Located.mk ~loc (Ldot (m, name))) in List.fold_left ~init:rhs args ~f:(fun acc x -> pexp_apply ~loc acc [ nolabel, helper x ]) | _ -> failwiths ~loc:typ.ptyp_loc "not supported: %a" Pprintast.core_type typ in let body = match manifest.ptyp_desc with | Ptyp_constr ({ txt }, args) -> let fmapt = pexp_apply ~loc [%expr fmapt] (List.map args ~f:(fun t -> Nolabel, helper t)) in [%expr let open Env.Monad in let open Env.Monad.Syntax in Reifier.fix (fun self -> [%e base_reifier] <..> chain [%e match kind with | Reify -> [%expr Reifier.zed (Reifier.rework ~fv:[%e fmapt])] | Prj_exn -> fmapt])] | _ -> failwiths ~loc:manifest.ptyp_loc "should not happen %s %d" Caml.__FILE__ Caml.__LINE__ in let pat = match typ with | None -> pat | Some t -> ppat_constraint ~loc pat t in pstr_value ~loc Nonrecursive [ value_binding ~loc ~pat ~expr:(add_args body) ] in let make_reifier is_rec tdecl = let manifest = manifest_of_tdecl_exn tdecl in let logic_typ = ltypify_exn ~ccompositional:true ~loc manifest in make_reifier_gen ~kind:Reify ~typ: (if List.is_empty tdecl.ptype_params then Some [%type: (_, [%t logic_typ]) Reifier.t] else None) is_rec tdecl in let make_prj_exn is_rec tdecl = let manifest = manifest_of_tdecl_exn tdecl in make_reifier_gen ~kind:Prj_exn ~typ: (if List.is_empty tdecl.ptype_params then Some [%type: (_, [%t gtypify_exn ~ccompositional:true ~loc manifest]) Reifier.t] else None) is_rec tdecl in let make_fmapt tdecl = let names = extract_names (name_type_params_in_td tdecl).ptype_params |> List.map ~f:(fun prefix -> gen_symbol ~prefix ()) in let add_funs rhs = List.fold_right names ~f:(fun name acc -> [%expr fun [%p ppat_var ~loc (Located.mk ~loc name)] -> [%e acc]]) ~init:rhs in let subj = gen_symbol ~prefix:"subj" () in let expr = add_funs [%expr fun [%p ppat_var ~loc (Located.mk ~loc subj)] -> let open Env.Monad in [%e List.fold_left ~init:[%expr Env.Monad.return (GT.gmap t)] names ~f:(fun acc name -> [%expr [%e acc] <*> [%e pexp_ident ~loc (Located.mk ~loc (Lident name))]])] <*> [%e pexp_ident ~loc (Located.mk ~loc (lident subj))]] in pstr_value ~loc Nonrecursive [ value_binding ~loc ~pat:[%pat? fmapt] ~expr ] in List.concat [ [ pstr_type ~loc Nonrecursive [ base_tdecl ] ] ; [ pstr_type ~loc rec_ [ decorate_with_attributes tdecl base_tdecl.ptype_attributes ] ] ; [ pstr_type ~loc rec_ [ decorate_with_attributes ltyp base_tdecl.ptype_attributes ] ] ; [ pstr_type ~loc rec_ [ injected_typ ] ] ; [ make_fmapt base_tdecl ] ; [ make_prj_exn is_rec tdecl; make_reifier is_rec tdecl ] ; creators ] ;; let process_composable = List.map ~f:(fun tdecl -> let loc = tdecl.pstr_loc in match tdecl.pstr_desc with | Pstr_type (flg, [ t ]) -> (match t.ptype_manifest with | Some m -> pstr_type ~loc Nonrecursive [ { t with ptype_attributes = [ attribute ~loc ~name:(Located.mk ~loc "deriving") ~payload:(PStr [ [%stri reify] ]) ] } ] | None -> tdecl) | _ -> tdecl) ;;