ocaml/parsing/docstrings.ml

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(**************************************************************************)
(* *)
(* OCaml *)
(* *)
(* Leo White *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. *)
(* *)
(* All rights reserved. This file is distributed under the terms of *)
(* the GNU Lesser General Public License version 2.1, with the *)
(* special exception on linking described in the file LICENSE. *)
(* *)
(**************************************************************************)
open Location
(* Docstrings *)
(* A docstring is "attached" if it has been inserted in the AST. This
is used for generating unexpected docstring warnings. *)
type ds_attached =
| Unattached (* Not yet attached anything.*)
| Info (* Attached to a field or constructor. *)
| Docs (* Attached to an item or as floating text. *)
(* A docstring is "associated" with an item if there are no blank lines between
them. This is used for generating docstring ambiguity warnings. *)
type ds_associated =
| Zero (* Not associated with an item *)
| One (* Associated with one item *)
| Many (* Associated with multiple items (ambiguity) *)
type docstring =
{ ds_body: string;
ds_loc: Location.t;
mutable ds_attached: ds_attached;
mutable ds_associated: ds_associated; }
(* List of docstrings *)
let docstrings : docstring list ref = ref []
(* Warn for unused and ambiguous docstrings *)
let warn_bad_docstrings () =
if Warnings.is_active (Warnings.Bad_docstring true) then begin
List.iter
(fun ds ->
match ds.ds_attached with
| Info -> ()
| Unattached ->
prerr_warning ds.ds_loc (Warnings.Bad_docstring true)
| Docs ->
match ds.ds_associated with
| Zero | One -> ()
| Many ->
prerr_warning ds.ds_loc (Warnings.Bad_docstring false))
(List.rev !docstrings)
end
(* Docstring constructors and descturctors *)
let docstring body loc =
let ds =
{ ds_body = body;
ds_loc = loc;
ds_attached = Unattached;
ds_associated = Zero; }
in
docstrings := ds :: !docstrings;
ds
let docstring_body ds = ds.ds_body
let docstring_loc ds = ds.ds_loc
(* Docstrings attached to items *)
type docs =
{ docs_pre: docstring option;
docs_post: docstring option; }
let empty_docs = { docs_pre = None; docs_post = None }
let doc_loc = {txt = "ocaml.doc"; loc = Location.none}
let docs_attr ds =
let open Parsetree in
let exp =
{ pexp_desc = Pexp_constant (Pconst_string(ds.ds_body, None));
pexp_loc = ds.ds_loc;
pexp_attributes = []; }
in
let item =
{ pstr_desc = Pstr_eval (exp, []); pstr_loc = exp.pexp_loc }
in
(doc_loc, PStr [item])
let add_docs_attrs docs attrs =
let attrs =
match docs.docs_pre with
| None -> attrs
| Some ds -> docs_attr ds :: attrs
in
let attrs =
match docs.docs_post with
| None -> attrs
| Some ds -> attrs @ [docs_attr ds]
in
attrs
(* Docstrings attached to consturctors or fields *)
type info = docstring option
let empty_info = None
let info_attr = docs_attr
let add_info_attrs info attrs =
match info with
| None -> attrs
| Some ds -> attrs @ [info_attr ds]
(* Docstrings not attached to a specifc item *)
type text = docstring list
let empty_text = []
let text_loc = {txt = "ocaml.text"; loc = Location.none}
let text_attr ds =
let open Parsetree in
let exp =
{ pexp_desc = Pexp_constant (Pconst_string(ds.ds_body, None));
pexp_loc = ds.ds_loc;
pexp_attributes = []; }
in
let item =
{ pstr_desc = Pstr_eval (exp, []); pstr_loc = exp.pexp_loc }
in
(text_loc, PStr [item])
let add_text_attrs dsl attrs =
(List.map text_attr dsl) @ attrs
(* Find the first non-info docstring in a list, attach it and return it *)
let get_docstring ~info dsl =
let rec loop = function
| [] -> None
| {ds_attached = Info; _} :: rest -> loop rest
| ds :: rest ->
ds.ds_attached <- if info then Info else Docs;
Some ds
in
loop dsl
(* Find all the non-info docstrings in a list, attach them and return them *)
let get_docstrings dsl =
let rec loop acc = function
| [] -> List.rev acc
| {ds_attached = Info; _} :: rest -> loop acc rest
| ds :: rest ->
ds.ds_attached <- Docs;
loop (ds :: acc) rest
in
loop [] dsl
(* "Associate" all the docstrings in a list *)
let associate_docstrings dsl =
List.iter
(fun ds ->
match ds.ds_associated with
| Zero -> ds.ds_associated <- One
| (One | Many) -> ds.ds_associated <- Many)
dsl
(* Map from positions to pre docstrings *)
let pre_table : (Lexing.position, docstring list) Hashtbl.t =
Hashtbl.create 50
let set_pre_docstrings pos dsl =
if dsl <> [] then Hashtbl.add pre_table pos dsl
let get_pre_docs pos =
try
let dsl = Hashtbl.find pre_table pos in
associate_docstrings dsl;
get_docstring ~info:false dsl
with Not_found -> None
let mark_pre_docs pos =
try
let dsl = Hashtbl.find pre_table pos in
associate_docstrings dsl
with Not_found -> ()
(* Map from positions to post docstrings *)
let post_table : (Lexing.position, docstring list) Hashtbl.t =
Hashtbl.create 50
let set_post_docstrings pos dsl =
if dsl <> [] then Hashtbl.add post_table pos dsl
let get_post_docs pos =
try
let dsl = Hashtbl.find post_table pos in
associate_docstrings dsl;
get_docstring ~info:false dsl
with Not_found -> None
let mark_post_docs pos =
try
let dsl = Hashtbl.find post_table pos in
associate_docstrings dsl
with Not_found -> ()
let get_info pos =
try
let dsl = Hashtbl.find post_table pos in
get_docstring ~info:true dsl
with Not_found -> None
(* Map from positions to floating docstrings *)
let floating_table : (Lexing.position, docstring list) Hashtbl.t =
Hashtbl.create 50
let set_floating_docstrings pos dsl =
if dsl <> [] then Hashtbl.add floating_table pos dsl
let get_text pos =
try
let dsl = Hashtbl.find floating_table pos in
get_docstrings dsl
with Not_found -> []
(* Maps from positions to extra docstrings *)
let pre_extra_table : (Lexing.position, docstring list) Hashtbl.t =
Hashtbl.create 50
let set_pre_extra_docstrings pos dsl =
if dsl <> [] then Hashtbl.add pre_extra_table pos dsl
let get_pre_extra_text pos =
try
let dsl = Hashtbl.find pre_extra_table pos in
get_docstrings dsl
with Not_found -> []
let post_extra_table : (Lexing.position, docstring list) Hashtbl.t =
Hashtbl.create 50
let set_post_extra_docstrings pos dsl =
if dsl <> [] then Hashtbl.add post_extra_table pos dsl
let get_post_extra_text pos =
try
let dsl = Hashtbl.find post_extra_table pos in
get_docstrings dsl
with Not_found -> []
(* Docstrings from parser actions *)
let symbol_docs () =
{ docs_pre = get_pre_docs (Parsing.symbol_start_pos ());
docs_post = get_post_docs (Parsing.symbol_end_pos ()); }
let symbol_docs_lazy () =
let p1 = Parsing.symbol_start_pos () in
let p2 = Parsing.symbol_end_pos () in
lazy { docs_pre = get_pre_docs p1;
docs_post = get_post_docs p2; }
let rhs_docs pos1 pos2 =
{ docs_pre = get_pre_docs (Parsing.rhs_start_pos pos1);
docs_post = get_post_docs (Parsing.rhs_end_pos pos2); }
let rhs_docs_lazy pos1 pos2 =
let p1 = Parsing.rhs_start_pos pos1 in
let p2 = Parsing.rhs_end_pos pos2 in
lazy { docs_pre = get_pre_docs p1;
docs_post = get_post_docs p2; }
let mark_symbol_docs () =
mark_pre_docs (Parsing.symbol_start_pos ());
mark_post_docs (Parsing.symbol_end_pos ())
let mark_rhs_docs pos1 pos2 =
mark_pre_docs (Parsing.rhs_start_pos pos1);
mark_post_docs (Parsing.rhs_end_pos pos2)
let symbol_info () =
get_info (Parsing.symbol_end_pos ())
let rhs_info pos =
get_info (Parsing.rhs_end_pos pos)
let symbol_text () =
get_text (Parsing.symbol_start_pos ())
let symbol_text_lazy () =
let pos = Parsing.symbol_start_pos () in
lazy (get_text pos)
let rhs_text pos =
get_text (Parsing.rhs_start_pos pos)
let rhs_text_lazy pos =
let pos = Parsing.rhs_start_pos pos in
lazy (get_text pos)
let symbol_pre_extra_text () =
get_pre_extra_text (Parsing.symbol_start_pos ())
let symbol_post_extra_text () =
get_post_extra_text (Parsing.symbol_end_pos ())
let rhs_pre_extra_text pos =
get_pre_extra_text (Parsing.rhs_start_pos pos)
let rhs_post_extra_text pos =
get_post_extra_text (Parsing.rhs_end_pos pos)
(* (Re)Initialise all comment state *)
let init () =
docstrings := [];
Hashtbl.reset pre_table;
Hashtbl.reset post_table;
Hashtbl.reset floating_table;
Hashtbl.reset pre_extra_table;
Hashtbl.reset post_extra_table