/usr/lib/ocaml/atdgen/ag_ocaml.ml is in libatdgen-ocaml-dev 1.3.1-1build2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Translation from ATD types into OCaml types and pretty-printing.
This is derived from the ATD pretty-printer (atd_print.ml).
*)
open Printf
open Easy_format
open Atd_ast
open Ag_mapping
(* Type mapping from ATD to OCaml *)
type atd_ocaml_sum = [ `Classic | `Poly ]
type atd_ocaml_record = [ `Record | `Object ]
type atd_ocaml_int = [ `Int | `Char | `Int32 | `Int64 | `Float ]
type atd_ocaml_list = [ `List | `Array ]
type atd_ocaml_shared = [ `Flat | `Ref ]
type atd_ocaml_wrap = {
ocaml_wrap_t : string;
ocaml_wrap : string;
ocaml_unwrap : string;
}
type atd_ocaml_field = {
ocaml_default : string option;
ocaml_fname : string;
ocaml_mutable : bool;
ocaml_fdoc : Ag_doc.doc option;
}
type atd_ocaml_variant = {
ocaml_cons : string;
ocaml_vdoc : Ag_doc.doc option;
}
type atd_ocaml_def = {
ocaml_predef : bool;
ocaml_ddoc : Ag_doc.doc option;
}
type atd_ocaml_repr =
[
| `Unit
| `Bool
| `Int of atd_ocaml_int
| `Float
| `String
| `Sum of atd_ocaml_sum
| `Record of atd_ocaml_record
| `Tuple
| `List of atd_ocaml_list
| `Option
| `Nullable
| `Shared of atd_ocaml_shared
| `Wrap of atd_ocaml_wrap option
| `Name of string
| `External of (string * string * string)
(*
(module providing the type,
module providing everything else,
type name)
*)
| `Cell of atd_ocaml_field
| `Field of atd_ocaml_field
| `Variant of atd_ocaml_variant
| `Def of atd_ocaml_def
]
type target = [ `Default | `Biniou | `Json | `Validate ]
let ocaml_int_of_string s : atd_ocaml_int option =
match s with
"int" -> Some `Int
| "char" -> Some `Char
| "int32" -> Some `Int32
| "int64" -> Some `Int64
| "float" -> Some `Float
| _ -> None
let string_of_ocaml_int (x : atd_ocaml_int) =
match x with
`Int -> "int"
| `Char -> "Char.t"
| `Int32 -> "Int32.t"
| `Int64 -> "Int64.t"
| `Float -> "float"
let ocaml_sum_of_string s : atd_ocaml_sum option =
match s with
"classic" -> Some `Classic
| "poly" -> Some `Poly
| s -> None
let ocaml_record_of_string s : atd_ocaml_record option =
match s with
"record" -> Some `Record
| "object" -> Some `Object
| s -> None
let ocaml_list_of_string s : atd_ocaml_list option =
match s with
"list" -> Some `List
| "array" -> Some `Array
| s -> None
let string_of_ocaml_list (x : atd_ocaml_list) =
match x with
`List -> "list"
| `Array -> "Ag_util.ocaml_array"
let ocaml_shared_of_string s : atd_ocaml_shared option =
match s with
"flat" -> Some `Flat
| "ref" -> Some `Ref
| s -> None
let get_ocaml_int an =
Atd_annot.get_field ocaml_int_of_string `Int ["ocaml"] "repr" an
let get_ocaml_type_path atd_name an =
let x =
match atd_name with
"unit" -> `Unit
| "bool" -> `Bool
| "int" -> `Int (get_ocaml_int an)
| "float" -> `Float
| "string" -> `String
| s -> `Name s
in
match x with
`Unit -> "unit"
| `Bool -> "bool"
| `Int x -> string_of_ocaml_int x
| `Float -> "float"
| `String -> "string"
| `Name s -> s
let path_of_target (target : target) =
match target with
`Default -> [ "ocaml" ]
| `Biniou -> [ "ocaml_biniou"; "ocaml" ]
| `Json -> [ "ocaml_json"; "ocaml" ]
| `Validate -> [ "ocaml_validate"; "ocaml" ]
let get_ocaml_sum an =
Atd_annot.get_field ocaml_sum_of_string `Poly ["ocaml"] "repr" an
let get_ocaml_field_prefix an =
Atd_annot.get_field (fun s -> Some s) "" ["ocaml"] "field_prefix" an
let get_ocaml_record an =
Atd_annot.get_field ocaml_record_of_string `Record ["ocaml"] "repr" an
let get_ocaml_list an =
Atd_annot.get_field ocaml_list_of_string `List ["ocaml"] "repr" an
let get_ocaml_shared an =
Atd_annot.get_field ocaml_shared_of_string `Flat ["ocaml"] "repr" an
let get_ocaml_wrap loc an =
let module_ =
Atd_annot.get_field (fun s -> Some (Some s)) None ["ocaml"] "module" an in
let default field =
match module_ with
None -> None
| Some s -> Some (sprintf "%s.%s" s field)
in
let t =
Atd_annot.get_field (fun s -> Some (Some s))
(default "t") ["ocaml"] "t" an
in
let wrap =
Atd_annot.get_field (fun s -> Some (Some s))
(default "wrap") ["ocaml"] "wrap" an
in
let unwrap =
Atd_annot.get_field (fun s -> Some (Some s))
(default "unwrap") ["ocaml"] "unwrap" an
in
match t, wrap, unwrap with
None, None, None -> None
| Some t, Some wrap, Some unwrap ->
Some { ocaml_wrap_t = t; ocaml_wrap = wrap; ocaml_unwrap = unwrap }
| _ ->
Ag_error.error loc "Incomplete annotation. Missing t, wrap or unwrap"
let get_ocaml_cons default an =
Atd_annot.get_field (fun s -> Some s) default ["ocaml"] "name" an
let get_ocaml_fname default an =
Atd_annot.get_field (fun s -> Some s) default ["ocaml"] "name" an
let get_ocaml_default an =
Atd_annot.get_field (fun s -> Some (Some s)) None ["ocaml"] "default" an
let get_ocaml_mutable an =
Atd_annot.get_flag ["ocaml"] "mutable" an
let get_ocaml_predef target an =
let path = path_of_target target in
Atd_annot.get_flag path "predef" an
let get_ocaml_module target an =
let path = path_of_target target in
let o = Atd_annot.get_field (fun s -> Some (Some s)) None path "module" an in
match o with
Some s -> Some (s, s)
| None ->
let o =
Atd_annot.get_field (fun s -> Some (Some s)) None path "from" an
in
match o with
None -> None
| Some s ->
let type_module = s ^ "_t" in
let main_module =
match target with
`Default -> type_module
| `Biniou -> s ^ "_b"
| `Json -> s ^ "_j"
| `Validate -> s ^ "_v"
in
Some (type_module, main_module)
let get_ocaml_t target default an =
let path = path_of_target target in
Atd_annot.get_field (fun s -> Some s) default path "t" an
let get_ocaml_module_and_t target default_name an =
match get_ocaml_module target an with
None -> None
| Some (type_module, main_module) ->
Some (type_module, main_module, get_ocaml_t target default_name an)
(*
OCaml syntax tree
*)
type ocaml_type_param = string list
type ocaml_expr =
[ `Sum of (atd_ocaml_sum * ocaml_variant list)
| `Record of (atd_ocaml_record * ocaml_field list)
| `Tuple of ocaml_expr list
| `Name of (string * ocaml_expr list)
| `Tvar of string
]
and ocaml_variant =
string * ocaml_expr option * Ag_doc.doc option
and ocaml_field =
(string * bool (* is mutable? *)) * ocaml_expr * Ag_doc.doc option
type ocaml_def = {
o_def_name : (string * ocaml_type_param);
o_def_alias : (string * ocaml_type_param) option;
o_def_expr : ocaml_expr option;
o_def_doc : Ag_doc.doc option
}
type ocaml_module_item =
[ `Type of ocaml_def ]
type ocaml_module_body = ocaml_module_item list
(*
Mapping from ATD to OCaml
*)
let omap f = function None -> None | Some x -> Some (f x)
let rec map_expr (x : type_expr) : ocaml_expr =
match x with
`Sum (loc, l, an) ->
let kind = get_ocaml_sum an in
`Sum (kind, List.map map_variant l)
| `Record (loc, l, an) ->
let kind = get_ocaml_record an in
let field_prefix = get_ocaml_field_prefix an in
if l = [] then
Ag_error.error loc "Empty record (not valid in OCaml)"
else
`Record (kind, List.map (map_field field_prefix) l)
| `Tuple (loc, l, an) ->
`Tuple (List.map (fun (_, x, _) -> map_expr x) l)
| `List (loc, x, an) ->
let s = string_of_ocaml_list (get_ocaml_list an) in
`Name (s, [map_expr x])
| `Option (loc, x, an) ->
`Name ("option", [map_expr x])
| `Nullable (loc, x, an) ->
`Name ("option", [map_expr x])
| `Shared (loc, x, a) ->
(match get_ocaml_shared a with
`Flat -> map_expr x
| `Ref -> `Name ("Pervasives.ref", [map_expr x])
)
| `Wrap (loc, x, a) ->
(match get_ocaml_wrap loc a with
None -> map_expr x
| Some { ocaml_wrap_t } -> `Name (ocaml_wrap_t, [])
)
| `Name (loc, (loc2, s, l), an) ->
let s = get_ocaml_type_path s an in
`Name (s, List.map map_expr l)
| `Tvar (loc, s) ->
`Tvar s
and map_variant (x : variant) : ocaml_variant =
match x with
`Inherit _ -> assert false
| `Variant (loc, (s, an), o) ->
let s = get_ocaml_cons s an in
(s, omap map_expr o, Ag_doc.get_doc loc an)
and map_field ocaml_field_prefix (x : field) : ocaml_field =
match x with
`Inherit _ -> assert false
| `Field (loc, (atd_fname, fkind, an), x) ->
let ocaml_fname =
get_ocaml_fname (ocaml_field_prefix ^ atd_fname) an in
let fname =
if ocaml_fname = atd_fname then ocaml_fname
else sprintf "%s (*atd %s *)" ocaml_fname atd_fname
in
let is_mutable = get_ocaml_mutable an in
((fname, is_mutable), map_expr x, Ag_doc.get_doc loc an)
let map_def
~(target : target)
~(type_aliases : string option)
((loc, (s, param, an1), x) : type_def) : ocaml_def option =
let is_predef = get_ocaml_predef target an1 in
let is_abstract = Ag_mapping.is_abstract x in
let define_alias =
if is_predef || is_abstract || type_aliases <> None then
match get_ocaml_module_and_t target s an1, type_aliases with
Some (types_module, main_module, s), _ -> Some (types_module, s)
| None, Some types_module -> Some (types_module, s)
| None, None -> None
else
None
in
if is_predef && define_alias = None then
None
else
let an2 = Atd_ast.annot_of_type_expr x in
let an = an1 @ an2 in
let doc = Ag_doc.get_doc loc an in
let alias, x =
match define_alias with
None ->
if is_abstract then (None, None)
else (None, Some (map_expr x))
| Some (module_path, ext_name) ->
let alias = Some (module_path ^ "." ^ ext_name, param) in
let x =
match map_expr x with
`Sum (`Classic, _)
| `Record (`Record, _) as x -> Some x
| _ -> None
in
(alias, x)
in
if x = None && alias = None then
None
else
Some {
o_def_name = (s, param);
o_def_alias = alias;
o_def_expr = x;
o_def_doc = doc
}
let rec select f = function
[] -> []
| x :: l ->
match f x with
None -> select f l
| Some y -> y :: select f l
let map_module ~target ~type_aliases (l : module_body) : ocaml_module_body =
select (
fun (`Type td) ->
match map_def ~target ~type_aliases td with
None -> None
| Some x -> Some (`Type x)
) l
(*
Mapping from Ag_mapping to OCaml
*)
let rec ocaml_of_expr_mapping (x : (atd_ocaml_repr, _) mapping) : ocaml_expr =
match x with
`Unit (loc, `Unit, _) -> `Name ("unit", [])
| `Bool (loc, `Bool, _) -> `Name ("bool", [])
| `Int (loc, `Int x, _) -> `Name (string_of_ocaml_int x, [])
| `Float (loc, `Float, _) -> `Name ("float", [])
| `String (loc, `String, _) -> `Name ("string", [])
| `Sum (loc, a, `Sum kind, _) ->
let l = Array.to_list a in
`Sum (kind, List.map ocaml_of_variant_mapping l)
| `Record (loc, a, `Record o, _) ->
let l = Array.to_list a in
`Record (`Record, List.map ocaml_of_field_mapping l)
| `Tuple (loc, a, o, _) ->
let l = Array.to_list a in
`Tuple (List.map (fun x -> ocaml_of_expr_mapping x.cel_value) l)
| `List (loc, x, `List kind, _) ->
`Name (string_of_ocaml_list kind, [ocaml_of_expr_mapping x])
| `Option (loc, x, `Option, _) ->
`Name ("option", [ocaml_of_expr_mapping x])
| `Nullable (loc, x, `Nullable, _) ->
`Name ("option", [ocaml_of_expr_mapping x])
| `Name (loc, s, l, _, _) ->
`Name (s, List.map ocaml_of_expr_mapping l)
| `Tvar (loc, s) ->
`Tvar s
| _ -> assert false
and ocaml_of_variant_mapping x =
let o =
match x.var_arepr with
`Variant o -> o
| _ -> assert false
in
(o.ocaml_cons, omap ocaml_of_expr_mapping x.var_arg, o.ocaml_vdoc)
and ocaml_of_field_mapping x =
let o =
match x.f_arepr with
`Field o -> o
| _ -> assert false
in
let v = ocaml_of_expr_mapping x.f_value in
((o.ocaml_fname, o.ocaml_mutable), v, o.ocaml_fdoc)
(*
Pretty-printing
*)
let rlist = { list with
wrap_body = `Force_breaks;
indent_body = 0;
align_closing = false;
space_after_opening = false;
space_before_closing = false
}
let plist = { list with
align_closing = false;
space_after_opening = false;
space_before_closing = false }
let hlist = { list with wrap_body = `No_breaks }
let shlist = { hlist with
stick_to_label = false;
space_after_opening = false;
space_before_closing = false }
let shlist0 = { shlist with space_after_separator = false }
let llist = {
list with
separators_stick_left = false;
space_before_separator = true;
space_after_separator = true
}
let lplist = {
llist with
space_after_opening = false;
space_before_closing = false
}
let vseq = {
list with
indent_body = 0;
wrap_body = `Force_breaks;
}
let vlist1 = { list with stick_to_label = false }
let vlist = {
vlist1 with
wrap_body = `Force_breaks;
}
let label0 = { label with space_after_label = false }
let make_atom s = Atom (s, atom)
let horizontal_sequence l = List (("", "", "", shlist), l)
let horizontal_sequence0 l = List (("", "", "", shlist0), l)
let rec insert sep = function
[] | [_] as l -> l
| x :: l -> x :: sep @ insert sep l
let rec insert2 f = function
[] | [_] as l -> l
| x :: (y :: _ as l) -> x :: f x y @ insert2 f l
let vertical_sequence ?(skip_lines = 0) l =
let l =
if skip_lines = 0 then l
else
let sep =
Array.to_list (Array.init skip_lines (fun _ -> (Atom ("", atom))))
in
insert sep l
in
List (("", "", "", rlist), l)
let escape f s =
let buf = Buffer.create (2 * String.length s) in
for i = 0 to String.length s - 1 do
let c = s.[i] in
match f c with
None -> Buffer.add_char buf c
| Some s -> Buffer.add_string buf s
done;
Buffer.contents buf
let ocamldoc_escape s =
let esc = function
'{' | '}' | '[' | ']' | '@' | '\\' as c -> Some (sprintf "\\%c" c)
| _ -> None
in
escape esc s
let ocamldoc_verbatim_escape s =
let esc = function
'{' | '}' | '\\' as c -> Some (sprintf "\\%c" c)
| _ -> None
in
escape esc s
let split = Str.split (Str.regexp " ")
let make_ocamldoc_block = function
`Pre s -> Atom ("\n{v\n" ^ ocamldoc_verbatim_escape s ^ "\nv}", atom)
| `Before_paragraph -> Atom ("", atom)
| `Paragraph l ->
let l = List.map (
function
`Text s -> ocamldoc_escape s
| `Code s -> "[" ^ ocamldoc_escape s ^ "]"
) l
in
let words = split (String.concat "" l) in
let atoms = List.map (fun s -> Atom (s, atom)) words in
List (("", "", "", plist), atoms)
let make_ocamldoc_blocks (l : Ag_doc.block list) =
let l =
insert2 (
fun x y ->
match y with
`Paragraph _ -> [`Before_paragraph]
| `Pre _ -> []
| _ -> assert false
) (l :> [ Ag_doc.block | `Before_paragraph ] list)
in
List.map make_ocamldoc_block l
let make_ocamldoc_comment (`Text l) =
let blocks = make_ocamldoc_blocks l in
let xlist =
match l with
[] | [_] -> vlist1
| _ -> vlist
in
List (("(**", "", "*)", xlist), blocks)
let prepend_ocamldoc_comment doc x =
match doc with
None -> x
| Some y ->
let comment = make_ocamldoc_comment y in
List (("", "", "", rlist), [comment;x])
let append_ocamldoc_comment x doc =
match doc with
None -> x
| Some y ->
let comment = make_ocamldoc_comment y in
Label ((x, label), comment)
let rec format_module_item
is_first (`Type def : ocaml_module_item) =
let type_ = if is_first then "type" else "and" in
let s, param = def.o_def_name in
let alias = def.o_def_alias in
let expr = def.o_def_expr in
let doc = def.o_def_doc in
let append_if b s1 s2 =
if b then s1 ^ s2
else s1
in
let part1 =
horizontal_sequence (
make_atom type_ ::
prepend_type_param param
[ make_atom (append_if (alias <> None || expr <> None) s " =") ]
)
in
let part12 =
match alias with
None -> part1
| Some (name, param) ->
let right =
horizontal_sequence (
prepend_type_param param
[ make_atom (append_if (expr <> None) name " =") ]
)
in
Label (
(part1, label),
right
)
in
let part123 =
match expr with
None -> part12
| Some t ->
Label (
(part12, label),
format_type_expr t
)
in
prepend_ocamldoc_comment doc part123
and prepend_type_param l tl =
match l with
[] -> tl
| _ ->
let make_var s = make_atom ("'" ^ s) in
let x =
match l with
[s] -> make_var s
| l -> List (("(", ",", ")", plist), List.map make_var l)
in
x :: tl
and prepend_type_args l tl =
match l with
[] -> tl
| _ ->
let x =
match l with
[t] -> format_type_expr t
| l -> List (("(", ",", ")", plist), List.map format_type_expr l)
in
x :: tl
and format_type_expr x =
match x with
`Sum (kind, l) ->
let op, cl =
match kind with
`Classic -> "", ""
| `Poly -> "[", "]"
in
List (
(op, "|", cl, llist),
List.map (format_variant kind) l
)
| `Record (kind, l) ->
let op, cl =
match kind with
`Record -> "{", "}"
| `Object -> "<", ">"
in
List (
(op, ";", cl, list),
List.map format_field l
)
| `Tuple l ->
List (
("(", "*", ")", lplist),
List.map format_type_expr l
)
| `Name (name, args) ->
format_type_name name args
| `Tvar name ->
make_atom ("'" ^ name)
and format_type_name name args =
horizontal_sequence (prepend_type_args args [ make_atom name ])
and format_field ((s, is_mutable), t, doc) =
let l =
let l = [make_atom (s ^ ":")] in
if is_mutable then
make_atom "mutable" :: l
else l
in
let field =
Label (
(horizontal_sequence l, label),
format_type_expr t
)
in
append_ocamldoc_comment field doc
and format_variant kind (s, o, doc) =
let s =
match kind with
`Classic -> s
| `Poly -> "`" ^ s
in
let cons = make_atom s in
let variant =
match o with
None -> cons
| Some t ->
Label (
(cons, label),
Label (
(make_atom "of", label),
format_type_expr t
)
)
in
append_ocamldoc_comment variant doc
let format_module_items is_rec (l : ocaml_module_body) =
match l with
x :: l ->
format_module_item true x ::
List.map (fun x -> format_module_item false x) l
| [] -> []
let format_module_body is_rec (l : ocaml_module_body) =
List (
("", "", "", rlist),
format_module_items is_rec l
)
let format_module_bodies (l : (bool * ocaml_module_body) list) =
List.flatten (List.map (fun (is_rec, x) -> format_module_items is_rec x) l)
let format_head (loc, an) =
match Ag_doc.get_doc loc an with
None -> []
| Some doc -> [make_ocamldoc_comment doc]
let format_all l =
vertical_sequence ~skip_lines:1 l
let ocaml_of_expr x : string =
Easy_format.Pretty.to_string (format_type_expr x)
let ocaml_of_atd ~target ~type_aliases
(head, (l : (bool * module_body) list)) : string =
let head = format_head head in
let bodies =
List.map (fun (is_rec, m) ->
(is_rec, map_module ~target ~type_aliases m)) l
in
let body = format_module_bodies bodies in
let x = format_all (head @ body) in
Easy_format.Pretty.to_string x
let unwrap_option deref x =
match deref x with
`Option (_, x, _, _)
| `Nullable (_, x, _, _) -> x
| `Name (loc, s, _, _, _) ->
Ag_error.error loc ("Not an option type: " ^ s)
| x ->
Ag_error.error (loc_of_mapping x) "Not an option type"
let get_implicit_ocaml_default deref x =
match deref x with
`Unit (loc, `Unit, _) -> Some "()"
| `Bool (loc, `Bool, _) -> Some "false"
| `Int (loc, `Int o, _) ->
Some (match o with
`Int -> "0"
| `Char -> "'\000'"
| `Int32 -> "0l"
| `Int64 -> "0L"
| `Float -> "0.")
| `Float (loc, `Float, _) -> Some "0.0"
| `String (loc, `String, _) -> Some "\"\""
| `List (loc, x, `List `List, _) -> Some "[]"
| `List (loc, x, `List `Array, _) -> Some "[||]"
| `Option (loc, x, `Option, _) -> Some "None"
| `Nullable (loc, x, `Nullable, _) -> Some "None"
| _ -> None
let map_record_creator_field deref x =
let o =
match x.f_arepr with
`Field o -> o
| _ -> assert false
in
let fname = o.ocaml_fname in
let impl2 = sprintf "\n %s = %s;" fname fname in
match x.f_kind with
`Required ->
let t = ocaml_of_expr (ocaml_of_expr_mapping x.f_value) in
let intf = sprintf "\n %s: %s ->" fname t in
let impl1 = sprintf "\n ~%s" fname in
intf, impl1, impl2
| `Optional ->
let x = unwrap_option deref x.f_value in
let t = ocaml_of_expr (ocaml_of_expr_mapping x) in
let intf = sprintf "\n ?%s: %s ->" fname t in
let impl1 = sprintf "\n ?%s" fname in
intf, impl1, impl2
| `With_default ->
let t = ocaml_of_expr (ocaml_of_expr_mapping x.f_value) in
let intf = sprintf "\n ?%s: %s ->" fname t in
let impl1 =
let default =
match o.ocaml_default with
None ->
(match get_implicit_ocaml_default deref x.f_value with
None ->
Ag_error.error x.f_loc "Missing default field value"
| Some s -> s
)
| Some s -> s
in
sprintf "\n ?(%s = %s)" fname default
in
intf, impl1, impl2
|