(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* string; mutable str : string; (* buffer of already read characters *) mutable len : int; (* number of chars in the buffer *) mutable bols : int list; (* offsets in str of begining of lines *) mutable tokens : Gram.parsable; (* stream of tokens *) mutable start : int } (* stream count of the first char of the buffer *) (* Double the size of the buffer. *) let resize_buffer ibuf = let nstr = String.create (2 * String.length ibuf.str + 1) in String.blit ibuf.str 0 nstr 0 (String.length ibuf.str); ibuf.str <- nstr (* Delete all irrelevent lines of the input buffer. Keep the last line in the buffer (useful when there are several commands on the same line. *) let resynch_buffer ibuf = match ibuf.bols with | ll::_ -> let new_len = ibuf.len - ll in String.blit ibuf.str ll ibuf.str 0 new_len; ibuf.len <- new_len; ibuf.bols <- []; ibuf.start <- ibuf.start + ll | _ -> () (* emacs special character for prompt end (fast) detection. Prefer (Char.chr 6) since it does not interfere with utf8. For compatibility we let (Char.chr 249) as default for a while. *) let emacs_prompt_startstring() = Printer.emacs_str "" "" let emacs_prompt_endstring() = Printer.emacs_str (String.make 1 (Char.chr 249)) "" (* Read a char in an input channel, displaying a prompt at every beginning of line. *) let prompt_char ic ibuf count = let bol = match ibuf.bols with | ll::_ -> ibuf.len == ll | [] -> ibuf.len == 0 in if bol && not !print_emacs then msgerr (str (ibuf.prompt())); try let c = input_char ic in if c == '\n' then ibuf.bols <- (ibuf.len+1) :: ibuf.bols; if ibuf.len == String.length ibuf.str then resize_buffer ibuf; ibuf.str.[ibuf.len] <- c; ibuf.len <- ibuf.len + 1; Some c with End_of_file -> None (* Reinitialize the char stream (after a Drop) *) let reset_input_buffer ic ibuf = ibuf.str <- ""; ibuf.len <- 0; ibuf.bols <- []; ibuf.tokens <- Gram.parsable (Stream.from (prompt_char ic ibuf)); ibuf.start <- 0 (* Functions to print underlined locations from an input buffer. *) (* Given a location, returns the list of locations of each line. The last line is returned separately. It also checks the location bounds. *) let get_bols_of_loc ibuf (bp,ep) = let add_line (b,e) lines = if b < 0 or e < b then anomaly "Bad location"; match lines with | ([],None) -> ([], Some (b,e)) | (fl,oe) -> ((b,e)::fl, oe) in let rec lines_rec ba after = function | [] -> add_line (0,ba) after | ll::_ when ll <= bp -> add_line (ll,ba) after | ll::fl -> let nafter = if ll < ep then add_line (ll,ba) after else after in lines_rec ll nafter fl in let (fl,ll) = lines_rec ibuf.len ([],None) ibuf.bols in (fl,Option.get ll) let dotted_location (b,e) = if e-b < 3 then ("", String.make (e-b) ' ') else (String.make (e-b-1) '.', " ") let blanching_string s i n = let s = String.sub s i n in for i = 0 to String.length s - 1 do let n = Char.code s.[i] in (* Heuristic: assume utf-8 chars are printed using a single fixed-size char and therefore contract all utf-8 code into one space and trailing null chars; in any case, preserve tabulation so that its effective interpretation in terms of spacing is preserved *) if 0xC0 > n && n >= 0x80 then s.[i] <- '\000' else if s.[i] <> '\t' then s.[i] <- ' ' done; s let print_highlight_location ib loc = let (bp,ep) = unloc loc in let bp = bp - ib.start and ep = ep - ib.start in let highlight_lines = match get_bols_of_loc ib (bp,ep) with | ([],(bl,el)) -> (str"> " ++ str(String.sub ib.str bl (el-bl-1)) ++ fnl () ++ str"> " ++ str(blanching_string ib.str bl (bp-bl)) ++ str(String.make (ep-bp) '^')) | ((b1,e1)::ml,(bn,en)) -> let (d1,s1) = dotted_location (b1,bp) in let (dn,sn) = dotted_location (ep,en) in let l1 = (str"> " ++ str d1 ++ str s1 ++ str(String.sub ib.str bp (e1-bp))) in let li = prlist (fun (bi,ei) -> (str"> " ++ str(String.sub ib.str bi (ei-bi)))) ml in let ln = (str"> " ++ str(String.sub ib.str bn (ep-bn)) ++ str sn ++ str dn) in (l1 ++ li ++ ln) in let loc = make_loc (bp,ep) in (str"Toplevel input, characters " ++ Cerrors.print_loc loc ++ str":" ++ fnl () ++ highlight_lines ++ fnl ()) (* Functions to report located errors in a file. *) let print_location_in_file s inlibrary fname loc = let errstrm = str"Error while reading " ++ str s in if loc = dummy_loc then hov 1 (errstrm ++ spc() ++ str" (unknown location):") ++ fnl () else let errstrm = if s = fname then mt() else errstrm ++ str":" ++ fnl() in if inlibrary then hov 0 (errstrm ++ str"Module " ++ str ("\""^fname^"\"") ++ spc() ++ str"characters " ++ Cerrors.print_loc loc) ++ fnl () else let (bp,ep) = unloc loc in let ic = open_in fname in let rec line_of_pos lin bol cnt = if cnt < bp then if input_char ic == '\n' then line_of_pos (lin + 1) (cnt +1) (cnt+1) else line_of_pos lin bol (cnt+1) else (lin, bol) in try let (line, bol) = line_of_pos 1 0 0 in close_in ic; hov 0 (errstrm ++ str"File " ++ str ("\""^fname^"\"") ++ str"," ++ spc() ++ hov 0 (str"line " ++ int line ++ str"," ++ spc() ++ str"characters " ++ Cerrors.print_loc (make_loc (bp-bol,ep-bol))) ++ str":") ++ fnl () with e -> (close_in ic; hov 1 (errstrm ++ spc() ++ str"(invalid location):") ++ fnl ()) let print_command_location ib dloc = match dloc with | Some (bp,ep) -> (str"Error during interpretation of command:" ++ fnl () ++ str(String.sub ib.str (bp-ib.start) (ep-bp)) ++ fnl ()) | None -> (mt ()) let valid_loc dloc loc = loc <> dummy_loc & match dloc with | Some dloc -> let (bd,ed) = unloc dloc in let (b,e) = unloc loc in bd<=b & e<=ed | _ -> true let valid_buffer_loc ib dloc loc = valid_loc dloc loc & let (b,e) = unloc loc in b-ib.start >= 0 & e-ib.start < ib.len & b<=e (*s The Coq prompt is the name of the focused proof, if any, and "Coq" otherwise. We trap all exceptions to prevent the error message printing from cycling. *) let make_prompt () = try (Names.string_of_id (Pfedit.get_current_proof_name ())) ^ " < " with _ -> "Coq < " (*let build_pending_list l = let pl = ref ">" in let l' = ref l in let res = while List.length !l' > 1 do pl := !pl ^ "|" Names.string_of_id x; l':=List.tl !l' done in let last = try List.hd !l' with _ -> in "<"^l' *) (* the coq prompt added to the default one when in emacs mode The prompt contains the current state label [n] (for global backtracking) and the current proof state [p] (for proof backtracking) plus the list of open (nested) proofs (for proof aborting when backtracking). It looks like: "n |lem1|lem2|lem3| p < " *) let make_emacs_prompt() = let statnum = string_of_int (Lib.current_command_label ()) in let dpth = Pfedit.current_proof_depth() in let pending = Pfedit.get_all_proof_names() in let pendingprompt = List.fold_left (fun acc x -> acc ^ (if acc <> "" then "|" else "") ^ Names.string_of_id x) "" pending in let proof_info = if dpth >= 0 then string_of_int dpth else "0" in if !Flags.print_emacs then statnum ^ " |" ^ pendingprompt ^ "| " ^ proof_info ^ " < " else "" (* A buffer to store the current command read on stdin. It is * initialized when a vernac command is immediately followed by "\n", * or after a Drop. *) let top_buffer = let pr() = emacs_prompt_startstring() ^ make_prompt() ^ make_emacs_prompt() ^ emacs_prompt_endstring() in { prompt = pr; str = ""; len = 0; bols = []; tokens = Gram.parsable (Stream.of_list []); start = 0 } let set_prompt prompt = top_buffer.prompt <- (fun () -> emacs_prompt_startstring() ^ prompt () ^ emacs_prompt_endstring()) (* Removes and prints the location of the error. The following exceptions need not be located. *) let rec is_pervasive_exn = function | Out_of_memory | Stack_overflow | Sys.Break -> true | Error_in_file (_,_,e) -> is_pervasive_exn e | Stdpp.Exc_located (_,e) -> is_pervasive_exn e | DuringCommandInterp (_,e) -> is_pervasive_exn e | DuringSyntaxChecking e -> is_pervasive_exn e | _ -> false (* Toplevel error explanation, dealing with locations, Drop, Ctrl-D May raise only the following exceptions: Drop and End_of_input, meaning we get out of the Coq loop *) let print_toplevel_error exc = let (dloc,exc) = match exc with | DuringCommandInterp (loc,ie) | Stdpp.Exc_located (loc, DuringSyntaxChecking ie) -> if loc = dummy_loc then (None,ie) else (Some loc, ie) | _ -> (None, exc) in let (locstrm,exc) = match exc with | Stdpp.Exc_located (loc, ie) -> if valid_buffer_loc top_buffer dloc loc then (print_highlight_location top_buffer loc, ie) else ((mt ()) (* print_command_location top_buffer dloc *), ie) | Error_in_file (s, (inlibrary, fname, loc), ie) -> (print_location_in_file s inlibrary fname loc, ie) | _ -> ((mt ()) (* print_command_location top_buffer dloc *), exc) in match exc with | End_of_input -> msgerrnl (mt ()); pp_flush(); exit 0 | Vernacexpr.Drop -> (* Last chance *) if Mltop.is_ocaml_top() then raise Vernacexpr.Drop; (str"Error: There is no ML toplevel." ++ fnl ()) | Vernacexpr.ProtectedLoop -> raise Vernacexpr.ProtectedLoop | Vernacexpr.Quit -> raise Vernacexpr.Quit | _ -> (if is_pervasive_exn exc then (mt ()) else locstrm) ++ Cerrors.explain_exn exc (* Read the input stream until a dot is encountered *) let parse_to_dot = let rec dot st = match Stream.next st with | ("", ".") -> () | ("EOI", "") -> raise End_of_input | _ -> dot st in Gram.Entry.of_parser "Coqtoplevel.dot" dot (* We assume that when a lexer error occurs, at least one char was eaten *) let rec discard_to_dot () = try Gram.Entry.parse parse_to_dot top_buffer.tokens with Stdpp.Exc_located(_,Token.Error _) -> discard_to_dot() (* If the error occured while parsing, we read the input until a dot token * in encountered. *) let process_error = function | DuringCommandInterp _ | Stdpp.Exc_located (_,DuringSyntaxChecking _) as e -> e | e -> if is_pervasive_exn e then e else try discard_to_dot (); e with | End_of_input -> End_of_input | de -> if is_pervasive_exn de then de else e (* do_vernac reads and executes a toplevel phrase, and print error messages when an exception is raised, except for the following: Drop: kill the Coq toplevel, going down to the Caml toplevel if it exists. Otherwise, exit. End_of_input: Ctrl-D was typed in, we will quit *) let do_vernac () = msgerrnl (mt ()); if !print_emacs then msgerr (str (top_buffer.prompt())); resynch_buffer top_buffer; begin try raw_do_vernac top_buffer.tokens with e -> msgnl (print_toplevel_error (process_error e)) end; flush_all() (* coq and go read vernacular expressions until Drop is entered. * Ctrl-C will raise the exception Break instead of aborting Coq. * Here we catch the exceptions terminating the Coq loop, and decide * if we really must quit. * The boolean value is used to choose between a protected loop, which * we think is more suited for communication with other programs, or * plain communication. *) let rec coq_switch b = Sys.catch_break true; (* ensure we have a command separator object (DOT) so that the first command can be reseted. *) Lib.mark_end_of_command(); try if b then begin reset_input_buffer stdin top_buffer; while true do do_vernac() done end else protected_loop stdin with | Vernacexpr.Drop -> () | Vernacexpr.ProtectedLoop -> Lib.declare_initial_state(); coq_switch false | End_of_input -> msgerrnl (mt ()); pp_flush(); exit 0 | Vernacexpr.Quit -> exit 0 | e -> msgerrnl (str"Anomaly. Please report."); coq_switch b let loop () = coq_switch true