package vscoq-language-server
VSCoq language server
Install
Dune Dependency
Authors
Maintainers
Sources
vscoq-language-server-2.0.2-coq8.18.tar.gz
md5=8a4ff41372c157688170f0174e58d646
sha512=852f4e8cc7e687805e0707368a5625ef3c226d1373f677a731d32a04f8d0cb2f5d64ffdf350b0a5e446ff5075982dc36f2bc9d533d3862009f73fc22fd04fcc0
doc/src/vscoq-language-server.dm/document.ml.html
Source file document.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377(**************************************************************************) (* *) (* VSCoq *) (* *) (* Copyright INRIA and contributors *) (* (see version control and README file for authors & dates) *) (* *) (**************************************************************************) (* *) (* This file is distributed under the terms of the MIT License. *) (* See LICENSE file. *) (* *) (**************************************************************************) open Gramlib open Types open Lsp.Types open Scheduler let Log log = Log.mk_log "document" module LM = Map.Make (Int) module SM = Map.Make (Stateid) type parsed_ast = { ast: Synterp.vernac_control_entry; classification: Vernacextend.vernac_classification; tokens: Tok.t list } type pre_sentence = { start : int; stop : int; synterp_state : Vernacstate.Synterp.t; (* synterp state after this sentence's synterp phase *) ast : parsed_ast; } type sentence = { start : int; stop : int; synterp_state : Vernacstate.Synterp.t; (* synterp state after this sentence's synterp phase *) scheduler_state_before : Scheduler.state; scheduler_state_after : Scheduler.state; ast : parsed_ast; id : sentence_id; } type parsing_error = { start: int; stop: int; msg: string Loc.located; } type document = { sentences_by_id : sentence SM.t; sentences_by_end : sentence LM.t; parsing_errors_by_end : parsing_error LM.t; schedule : Scheduler.schedule; parsed_loc : int; raw_doc : RawDocument.t; init_synterp_state : Vernacstate.Synterp.t; } let schedule doc = doc.schedule let raw_document doc = doc.raw_doc let range_of_sentence raw (sentence : sentence) = let start = RawDocument.position_of_loc raw sentence.start in let end_ = RawDocument.position_of_loc raw sentence.stop in Range.{ start; end_ } let range_of_id document id = match SM.find_opt id document.sentences_by_id with | None -> CErrors.anomaly Pp.(str"Trying to get range of non-existing sentence " ++ Stateid.print id) | Some sentence -> range_of_sentence document.raw_doc sentence let parse_errors parsed = List.map snd (LM.bindings parsed.parsing_errors_by_end) let add_sentence parsed start stop (ast: parsed_ast) synterp_state scheduler_state_before = let id = Stateid.fresh () in let ast' = (ast.ast, ast.classification, synterp_state) in let scheduler_state_after, schedule = Scheduler.schedule_sentence (id, ast') scheduler_state_before parsed.schedule in (* FIXME may invalidate scheduler_state_XXX for following sentences -> propagate? *) let sentence = { start; stop; ast; id; synterp_state; scheduler_state_before; scheduler_state_after } in { parsed with sentences_by_end = LM.add stop sentence parsed.sentences_by_end; sentences_by_id = SM.add id sentence parsed.sentences_by_id; schedule }, scheduler_state_after let remove_sentence parsed id = match SM.find_opt id parsed.sentences_by_id with | None -> parsed | Some sentence -> let sentences_by_id = SM.remove id parsed.sentences_by_id in let sentences_by_end = LM.remove sentence.stop parsed.sentences_by_end in (* TODO clean up the schedule and free cached states *) { parsed with sentences_by_id; sentences_by_end; } let sentences parsed = List.map snd @@ SM.bindings parsed.sentences_by_id let sentences_sorted_by_loc parsed = List.sort (fun ({ start = s1 } : sentence) { start = s2 } -> s1 - s2) @@ List.map snd @@ SM.bindings parsed.sentences_by_id let sentences_before parsed loc = let (before,ov,_after) = LM.split loc parsed.sentences_by_end in let before = Option.cata (fun v -> LM.add loc v before) before ov in List.map (fun (_id,s) -> s) @@ LM.bindings before let sentences_after parsed loc = let (_before,ov,after) = LM.split loc parsed.sentences_by_end in let after = Option.cata (fun v -> LM.add loc v after) after ov in List.map (fun (_id,s) -> s) @@ LM.bindings after let parsing_errors_before parsed loc = LM.filter (fun stop _v -> stop <= loc) parsed.parsing_errors_by_end let get_sentence parsed id = SM.find_opt id parsed.sentences_by_id let find_sentence parsed loc = match LM.find_first_opt (fun k -> loc <= k) parsed.sentences_by_end with | Some (_, sentence) when sentence.start <= loc -> Some sentence | _ -> None let find_sentence_before parsed loc = match LM.find_last_opt (fun k -> k <= loc) parsed.sentences_by_end with | Some (_, sentence) -> Some sentence | _ -> None let find_sentence_strictly_before parsed loc = match LM.find_last_opt (fun k -> k < loc) parsed.sentences_by_end with | Some (_, sentence) -> Some sentence | _ -> None let find_sentence_after parsed loc = match LM.find_first_opt (fun k -> loc <= k) parsed.sentences_by_end with | Some (_, sentence) -> Some sentence | _ -> None let get_first_sentence parsed = Option.map snd @@ LM.find_first_opt (fun _ -> true) parsed.sentences_by_end let get_last_sentence parsed = Option.map snd @@ LM.find_last_opt (fun _ -> true) parsed.sentences_by_end let state_after_sentence parsed = function | Some (stop, { synterp_state; scheduler_state_after }) -> (stop, synterp_state, scheduler_state_after) | None -> (-1, parsed.init_synterp_state, Scheduler.initial_state) let state_at_pos parsed pos = state_after_sentence parsed @@ LM.find_last_opt (fun stop -> stop <= pos) parsed.sentences_by_end let state_strictly_before parsed pos = state_after_sentence parsed @@ LM.find_last_opt (fun stop -> stop < pos) parsed.sentences_by_end let pos_at_end parsed = match LM.max_binding_opt parsed.sentences_by_end with | Some (stop, _) -> stop | None -> -1 let patch_sentence parsed scheduler_state_before id ({ ast; start; stop; synterp_state } : pre_sentence) = log @@ "Patching sentence " ^ Stateid.to_string id; let old_sentence = SM.find id parsed.sentences_by_id in let scheduler_state_after, schedule = let ast = (ast.ast, ast.classification, synterp_state) in Scheduler.schedule_sentence (id,ast) scheduler_state_before parsed.schedule in let new_sentence = { old_sentence with ast; start; stop; scheduler_state_before; scheduler_state_after } in let sentences_by_id = SM.add id new_sentence parsed.sentences_by_id in let sentences_by_end = LM.remove old_sentence.stop parsed.sentences_by_end in let sentences_by_end = LM.add new_sentence.stop new_sentence sentences_by_end in { parsed with sentences_by_end; sentences_by_id; schedule }, scheduler_state_after type diff = | Deleted of sentence_id list | Added of pre_sentence list | Equal of (sentence_id * pre_sentence) list let same_tokens (s1 : sentence) (s2 : pre_sentence) = CList.equal Tok.equal s1.ast.tokens s2.ast.tokens (* TODO improve diff strategy (insertions,etc) *) let rec diff old_sentences new_sentences = match old_sentences, new_sentences with | [], [] -> [] | [], new_sentences -> [Added new_sentences] | old_sentences, [] -> [Deleted (List.map (fun s -> s.id) old_sentences)] (* FIXME something special should be done when `Deleted` is applied to a parsing effect *) | old_sentence::old_sentences, new_sentence::new_sentences -> if same_tokens old_sentence new_sentence then Equal [(old_sentence.id,new_sentence)] :: diff old_sentences new_sentences else Deleted [old_sentence.id] :: Added [new_sentence] :: diff old_sentences new_sentences let string_of_parsed_ast { tokens } = (* TODO implement printer for vernac_entry *) "[" ^ String.concat "--" (List.map (Tok.extract_string false) tokens) ^ "]" let string_of_diff_item doc = function | Deleted ids -> ids |> List.map (fun id -> Printf.sprintf "- (id: %d) %s" (Stateid.to_int id) (string_of_parsed_ast (Option.get (get_sentence doc id)).ast)) | Added sentences -> sentences |> List.map (fun (s : pre_sentence) -> Printf.sprintf "+ %s" (string_of_parsed_ast s.ast)) | Equal l -> l |> List.map (fun (id, (s : pre_sentence)) -> Printf.sprintf "= (id: %d) %s" (Stateid.to_int id) (string_of_parsed_ast s.ast)) let string_of_diff doc l = String.concat "\n" (List.flatten (List.map (string_of_diff_item doc) l)) let rec stream_tok n_tok acc str begin_line begin_char = let e = LStream.next (Pcoq.get_keyword_state ()) str in if Tok.(equal e EOI) then List.rev acc else stream_tok (n_tok+1) (e::acc) str begin_line begin_char (* let parse_one_sentence stream ~st = let pa = Pcoq.Parsable.make stream in Vernacstate.Parser.parse st (Pvernac.main_entry (Some (Vernacinterp.get_default_proof_mode ()))) pa (* FIXME: handle proof mode correctly *) *) let parse_one_sentence stream ~st = let entry = Pvernac.main_entry (Some (Synterp.get_default_proof_mode ())) in let pa = Pcoq.Parsable.make stream in Vernacstate.Synterp.unfreeze st; Pcoq.Entry.parse entry pa let rec junk_sentence_end stream = match Stream.npeek () 2 stream with | ['.'; (' ' | '\t' | '\n' |'\r')] -> Stream.junk () stream | [] -> () | _ -> Stream.junk () stream; junk_sentence_end stream let rec parse_more synterp_state stream raw parsed errors = let handle_parse_error start msg = log @@ "handling parse error at " ^ string_of_int start; let stop = Stream.count stream in let parsing_error = { msg; start; stop; } in let errors = parsing_error :: errors in parse_more synterp_state stream raw parsed errors in let start = Stream.count stream in begin (* FIXME should we save lexer state? *) match parse_one_sentence stream ~st:synterp_state with | None (* EOI *) -> List.rev parsed, errors | Some ast -> let stop = Stream.count stream in log @@ "Parsed: " ^ (Pp.string_of_ppcmds @@ Ppvernac.pr_vernac ast); let begin_line, begin_char, end_char = match ast.loc with | Some lc -> lc.line_nb, lc.bp, lc.ep | None -> assert false in let str = String.sub (RawDocument.text raw) begin_char (end_char - begin_char) in let sstr = Stream.of_string str in let lex = CLexer.Lexer.tok_func sstr in let tokens = stream_tok 0 [] lex begin_line begin_char in begin try let entry = Synterp.synterp_control ast in let classification = Vernac_classifier.classify_vernac ast in let synterp_state = Vernacstate.Synterp.freeze () in let sentence = { ast = { ast = entry; classification; tokens }; start = begin_char; stop; synterp_state } in let parsed = sentence :: parsed in parse_more synterp_state stream raw parsed errors with exn -> let e, info = Exninfo.capture exn in let loc = Loc.get_loc @@ info in handle_parse_error start (loc, Pp.string_of_ppcmds @@ CErrors.iprint_no_report (e,info)) end | exception (Stream.Error msg as exn) -> let loc = Loc.get_loc @@ Exninfo.info exn in junk_sentence_end stream; handle_parse_error start (loc,msg) | exception (CLexer.Error.E e as exn) -> (* May be more problematic to handle for the diff *) let loc = Loc.get_loc @@ Exninfo.info exn in junk_sentence_end stream; handle_parse_error start (loc,CLexer.Error.to_string e) end let parse_more synterp_state stream raw = parse_more synterp_state stream raw [] [] let rec unchanged_id id = function | [] -> id | Equal s :: diffs -> unchanged_id (List.fold_left (fun _ (id,_) -> Some id) id s) diffs | (Added _ | Deleted _) :: _ -> id let invalidate top_edit top_id parsed_doc new_sentences = let rec invalidate_diff parsed_doc scheduler_state invalid_ids = function | [] -> invalid_ids, parsed_doc | Equal s :: diffs -> let patch_sentence (parsed_doc,scheduler_state) (id,new_s) = patch_sentence parsed_doc scheduler_state id new_s in let parsed_doc, scheduler_state = List.fold_left patch_sentence (parsed_doc, scheduler_state) s in invalidate_diff parsed_doc scheduler_state invalid_ids diffs | Deleted ids :: diffs -> let invalid_ids = List.fold_left (fun ids id -> Stateid.Set.add id ids) invalid_ids ids in let parsed_doc = List.fold_left remove_sentence parsed_doc ids in (* FIXME update scheduler state, maybe invalidate after diff zone *) invalidate_diff parsed_doc scheduler_state invalid_ids diffs | Added new_sentences :: diffs -> (* FIXME could have side effect on the following, unchanged sentences *) let add_sentence (parsed_doc,scheduler_state) ({ start; stop; ast; synterp_state } : pre_sentence) = add_sentence parsed_doc start stop ast synterp_state scheduler_state in let parsed_doc, scheduler_state = List.fold_left add_sentence (parsed_doc,scheduler_state) new_sentences in invalidate_diff parsed_doc scheduler_state invalid_ids diffs in let (_,_synterp_state,scheduler_state) = state_at_pos parsed_doc top_edit in let old_sentences = sentences_after parsed_doc top_edit in let diff = diff old_sentences new_sentences in let unchanged_id = unchanged_id top_id diff in log @@ "diff:\n" ^ string_of_diff parsed_doc diff; let invalid_ids, doc = invalidate_diff parsed_doc scheduler_state Stateid.Set.empty diff in unchanged_id, invalid_ids, doc (** Validate document when raw text has changed *) let validate_document ({ parsed_loc; raw_doc; } as document) = (* We take the state strictly before parsed_loc to cover the case when the end of the sentence is editted *) let (stop, synterp_state, _scheduler_state) = state_strictly_before document parsed_loc in let top_id = Option.map (fun sentence -> sentence.id) (find_sentence_strictly_before document parsed_loc) in let text = RawDocument.text raw_doc in let stream = Stream.of_string text in while Stream.count stream < stop do Stream.junk () stream done; log @@ Format.sprintf "Parsing more from pos %i" stop; let errors = parsing_errors_before document stop in let new_sentences, new_errors = parse_more synterp_state stream raw_doc (* TODO invalidate first *) in log @@ Format.sprintf "%i new sentences" (List.length new_sentences); let unchanged_id, invalid_ids, document = invalidate (stop+1) top_id document new_sentences in let parsing_errors_by_end = List.fold_left (fun acc error -> LM.add error.stop error acc) errors new_errors in let parsed_loc = pos_at_end document in unchanged_id, invalid_ids, { document with parsed_loc; parsing_errors_by_end } let create_document init_synterp_state text = let raw_doc = RawDocument.create text in { parsed_loc = -1; raw_doc; sentences_by_id = SM.empty; sentences_by_end = LM.empty; parsing_errors_by_end = LM.empty; schedule = initial_schedule; init_synterp_state; } let apply_text_edit document edit = let raw_doc, start = RawDocument.apply_text_edit document.raw_doc edit in let parsed_loc = min document.parsed_loc start in { document with raw_doc; parsed_loc } let apply_text_edits document edits = let doc' = { document with raw_doc = document.raw_doc } in List.fold_left apply_text_edit doc' edits module Internal = struct let string_of_sentence sentence = Format.sprintf "[%s] %s (%i -> %i)" (Stateid.to_string sentence.id) (string_of_parsed_ast sentence.ast) sentence.start sentence.stop end