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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id: lexer.ml4 9015 2006-07-05 17:19:22Z herbelin $ i*)
open Pp
open Token
(* Dictionaries: trees annotated with string options, each node being a map
from chars to dictionaries (the subtrees). A trie, in other words. *)
module CharMap = Map.Make (struct type t = char let compare = compare end)
type ttree = {
node : string option;
branch : ttree CharMap.t }
let empty_ttree = { node = None; branch = CharMap.empty }
let ttree_add ttree str =
let rec insert tt i =
if i == String.length str then
{node = Some str; branch = tt.branch}
else
let c = str.[i] in
let br =
match try Some (CharMap.find c tt.branch) with Not_found -> None with
| Some tt' ->
CharMap.add c (insert tt' (i + 1)) (CharMap.remove c tt.branch)
| None ->
let tt' = {node = None; branch = CharMap.empty} in
CharMap.add c (insert tt' (i + 1)) tt.branch
in
{ node = tt.node; branch = br }
in
insert ttree 0
(* Search a string in a dictionary: raises [Not_found]
if the word is not present. *)
let ttree_find ttree str =
let rec proc_rec tt i =
if i == String.length str then
match tt.node with
| Some s -> s
| None -> raise Not_found
else
proc_rec (CharMap.find str.[i] tt.branch) (i+1)
in
proc_rec ttree 0
(* Errors occuring while lexing (explained as "Lexer error: ...") *)
type error =
| Illegal_character
| Unterminated_comment
| Unterminated_string
| Undefined_token
| Bad_token of string
exception Error of error
let err loc str = Stdpp.raise_with_loc (Util.make_loc loc) (Error str)
let bad_token str = raise (Error (Bad_token str))
(* Lexer conventions on tokens *)
type utf8_token =
Utf8Letter of int | Utf8IdentPart of int | Utf8Symbol | AsciiChar
let error_unsupported_unicode_character n cs =
let bp = Stream.count cs in
err (bp,bp+n) (Bad_token "Unsupported Unicode character")
let error_utf8 cs =
let bp = Stream.count cs in
err (bp, bp+1) Illegal_character
let njunk n = Util.repeat n Stream.junk
let check_utf8_trailing_byte cs c =
if Char.code c land 0xC0 <> 0x80 then error_utf8 cs
(* Recognize utf8 blocks (of length less than 4 bytes) *)
(* but don't certify full utf8 compliance (e.g. no emptyness check) *)
let lookup_utf8_tail c cs =
let c1 = Char.code c in
if c1 land 0x40 = 0 or c1 land 0x38 = 0x38 then error_utf8 cs
else
let n, unicode =
if c1 land 0x20 = 0 then
match Stream.npeek 2 cs with
| [_;c2] ->
check_utf8_trailing_byte cs c2;
2, (c1 land 0x1F) lsl 6 + (Char.code c2 land 0x3F)
| _ -> error_utf8 cs
else if c1 land 0x10 = 0 then
match Stream.npeek 3 cs with
| [_;c2;c3] ->
check_utf8_trailing_byte cs c2; check_utf8_trailing_byte cs c3;
3, (c1 land 0x0F) lsl 12 + (Char.code c2 land 0x3F) lsl 6 +
(Char.code c3 land 0x3F)
| _ -> error_utf8 cs
else match Stream.npeek 4 cs with
| [_;c2;c3;c4] ->
check_utf8_trailing_byte cs c2; check_utf8_trailing_byte cs c3;
check_utf8_trailing_byte cs c4;
4, (c1 land 0x07) lsl 18 + (Char.code c2 land 0x3F) lsl 12 +
(Char.code c3 land 0x3F) lsl 6 + (Char.code c4 land 0x3F)
| _ -> error_utf8 cs
in
match unicode land 0x1F000 with
| 0x0 ->
begin match unicode with
(* utf-8 Latin-1 non breaking space U00A0 *)
| 0x00A0 -> Utf8Letter n
(* utf-8 Latin-1 symbols U00A1-00BF *)
| x when 0x00A0 <= x & x <= 0x00BF -> Utf8Symbol
(* utf-8 Latin-1 letters U00C0-00D6 *)
| x when 0x00C0 <= x & x <= 0x00D6 -> Utf8Letter n
(* utf-8 Latin-1 symbol U00D7 *)
| 0x00D7 -> Utf8Symbol
(* utf-8 Latin-1 letters U00D8-00F6 *)
| x when 0x00D8 <= x & x <= 0x00F6 -> Utf8Letter n
(* utf-8 Latin-1 symbol U00F7 *)
| 0x00F7 -> Utf8Symbol
(* utf-8 Latin-1 letters U00F8-00FF *)
| x when 0x00F8 <= x & x <= 0x00FF -> Utf8Letter n
(* utf-8 Latin Extended A U0100-017F and Latin Extended B U0180-U0241 *)
| x when 0x0100 <= x & x <= 0x0241 -> Utf8Letter n
(* utf-8 Phonetic letters U0250-02AF *)
| x when 0x0250 <= x & x <= 0x02AF -> Utf8Letter n
(* utf-8 what do to with diacritics U0300-U036F ? *)
(* utf-8 Greek letters U0380-03FF *)
| x when 0x0380 <= x & x <= 0x03FF -> Utf8Letter n
(* utf-8 Cyrillic letters U0400-0481 *)
| x when 0x0400 <= x & x <= 0x0481 -> Utf8Letter n
(* utf-8 Cyrillic symbol U0482 *)
| 0x0482 -> Utf8Symbol
(* utf-8 what do to with diacritics U0483-U0489 \ U0487 ? *)
(* utf-8 Cyrillic letters U048A-U4F9 (Warning: 04CF) *)
| x when 0x048A <= x & x <= 0x04F9 -> Utf8Letter n
(* utf-8 Cyrillic supplement letters U0500-U050F *)
| x when 0x0500 <= x & x <= 0x050F -> Utf8Letter n
(* utf-8 Hebrew letters U05D0-05EA *)
| x when 0x05D0 <= x & x <= 0x05EA -> Utf8Letter n
(* utf-8 Arabic letters U0621-064A *)
| x when 0x0621 <= x & x <= 0x064A -> Utf8Letter n
(* utf-8 Arabic supplement letters U0750-076D *)
| x when 0x0750 <= x & x <= 0x076D -> Utf8Letter n
| _ -> error_unsupported_unicode_character n cs
end
| 0x1000 ->
begin match unicode with
(* utf-8 Georgian U10A0-10FF (has holes) *)
| x when 0x10A0 <= x & x <= 0x10FF -> Utf8Letter n
(* utf-8 Hangul Jamo U1100-11FF (has holes) *)
| x when 0x1100 <= x & x <= 0x11FF -> Utf8Letter n
(* utf-8 Latin additional letters U1E00-1E9B and U1EA0-1EF9 *)
| x when 0x1E00 <= x & x <= 0x1E9B -> Utf8Letter n
| x when 0x1EA0 <= x & x <= 0x1EF9 -> Utf8Letter n
| _ -> error_unsupported_unicode_character n cs
end
| 0x2000 ->
begin match unicode with
(* utf-8 general punctuation U2080-2089 *)
(* Hyphens *)
| x when 0x2010 <= x & x <= 0x2011 -> Utf8Letter n
(* Dashes and other symbols *)
| x when 0x2012 <= x & x <= 0x2027 -> Utf8Symbol
(* Per mille and per ten thousand signs *)
| x when 0x2030 <= x & x <= 0x2031 -> Utf8Symbol
(* Prime letters *)
| x when 0x2032 <= x & x <= 0x2034 or x = 0x2057 -> Utf8IdentPart n
(* Miscellaneous punctuation *)
| x when 0x2039 <= x & x <= 0x2056 -> Utf8Symbol
| x when 0x2058 <= x & x <= 0x205E -> Utf8Symbol
(* Invisible mathematical operators *)
| x when 0x2061 <= x & x <= 0x2063 -> Utf8Symbol
(* utf-8 subscript U2080-2089 *)
| x when 0x2080 <= x & x <= 0x2089 -> Utf8IdentPart n
(* utf-8 letter-like U2100-214F *)
| x when 0x2100 <= x & x <= 0x214F -> Utf8Letter n
(* utf-8 number-forms U2153-2183 *)
| x when 0x2153 <= x & x <= 0x2183 -> Utf8Symbol
(* utf-8 arrows A U2190-21FF *)
(* utf-8 mathematical operators U2200-22FF *)
(* utf-8 miscellaneous technical U2300-23FF *)
| x when 0x2190 <= x & x <= 0x23FF -> Utf8Symbol
(* utf-8 box drawing U2500-257F has ceiling, etc. *)
(* utf-8 block elements U2580-259F *)
(* utf-8 geom. shapes U25A0-25FF (has triangles, losange, etc) *)
(* utf-8 miscellaneous symbols U2600-26FF *)
| x when 0x2500 <= x & x <= 0x26FF -> Utf8Symbol
(* utf-8 arrows B U2900-297F *)
| x when 0x2900 <= x & x <= 0x297F -> Utf8Symbol
(* utf-8 mathematical operators U2A00-2AFF *)
| x when 0x2A00 <= x & x <= 0x2AFF -> Utf8Symbol
| _ -> error_unsupported_unicode_character n cs
end
| _ ->
begin match unicode with
(* utf-8 Hiragana U3040-309F and Katakana U30A0-30FF *)
| x when 0x3040 <= x & x <= 0x30FF -> Utf8Letter n
(* utf-8 Unified CJK Ideographs U4E00-9FA5 *)
| x when 0x4E00 <= x & x <= 0x9FA5 -> Utf8Letter n
(* utf-8 Hangul syllables UAC00-D7AF *)
| x when 0xAC00 <= x & x <= 0xD7AF -> Utf8Letter n
(* utf-8 Gothic U10330-1034A *)
| x when 0x10330 <= x & x <= 0x1034A -> Utf8Letter n
| _ -> error_unsupported_unicode_character n cs
end
let lookup_utf8 cs =
match Stream.peek cs with
| Some ('\x00'..'\x7F') -> Some AsciiChar
| Some ('\x80'..'\xFF' as c) -> Some (lookup_utf8_tail c cs)
| None -> None
let check_special_token str =
let rec loop_symb = parser
| [< ' (' ' | '\n' | '\r' | '\t' | '"') >] -> bad_token str
| [< _ = Stream.empty >] -> ()
| [< '_ ; s >] -> loop_symb s
in
loop_symb (Stream.of_string str)
let check_ident str =
let rec loop_id intail = parser
| [< ' ('$' | 'a'..'z' | 'A'..'Z' | '_'); s >] ->
loop_id true s
| [< ' ('0'..'9' | ''') when intail; s >] ->
loop_id true s
| [< s >] ->
match lookup_utf8 s with
| Some (Utf8Letter n) -> njunk n s; loop_id true s
| Some (Utf8IdentPart n) when intail -> njunk n s; loop_id true s
| Some _ -> bad_token str
| None -> ()
in
loop_id false (Stream.of_string str)
let check_keyword str =
try check_special_token str
with Error _ -> check_ident str
(* Keyword and symbol dictionary *)
let token_tree = ref empty_ttree
let find_keyword s = ttree_find !token_tree s
let is_keyword s =
try let _ = ttree_find !token_tree s in true with Not_found -> false
let add_keyword str =
check_keyword str;
token_tree := ttree_add !token_tree str
(* Adding a new token (keyword or special token). *)
let add_token (con, str) = match con with
| "" -> add_keyword str
| "METAIDENT" | "IDENT" | "FIELD" | "INT" | "STRING" | "EOI"
-> ()
| _ ->
raise (Token.Error ("\
the constructor \"" ^ con ^ "\" is not recognized by Lexer"))
(* Freeze and unfreeze the state of the lexer *)
type frozen_t = ttree
let freeze () = !token_tree
let unfreeze tt =
token_tree := tt
let init () =
unfreeze empty_ttree
let _ = init()
(* The string buffering machinery *)
let buff = ref (String.create 80)
let store len x =
if len >= String.length !buff then
buff := !buff ^ String.create (String.length !buff);
!buff.[len] <- x;
succ len
let rec nstore n len cs =
if n>0 then nstore (n-1) (store len (Stream.next cs)) cs else len
let get_buff len = String.sub !buff 0 len
(* The classical lexer: idents, numbers, quoted strings, comments *)
let rec ident_tail len = parser
| [< ' ('a'..'z' | 'A'..'Z' | '0'..'9' | ''' | '_' as c); s >] ->
ident_tail (store len c) s
| [< s >] ->
match lookup_utf8 s with
| Some (Utf8IdentPart n | Utf8Letter n) ->
ident_tail (nstore n len s) s
| _ -> len
let rec number len = parser
| [< ' ('0'..'9' as c); s >] -> number (store len c) s
| [< >] -> len
let escape len c = store len c
let rec string bp len = parser
| [< ''"'; esc=(parser [<''"' >] -> true | [< >] -> false); s >] ->
if esc then string bp (store len '"') s else len
| [< 'c; s >] -> string bp (store len c) s
| [< _ = Stream.empty >] ep -> err (bp, ep) Unterminated_string
(* Hook for exporting comment into xml theory files *)
let xml_output_comment = ref (fun _ -> ())
let set_xml_output_comment f = xml_output_comment := f
(* Utilities for comment translation *)
let comment_begin = ref None
let comm_loc bp = if !comment_begin=None then comment_begin := Some bp
let current = Buffer.create 8192
let between_com = ref true
type com_state = int option * string * bool
let restore_com_state (o,s,b) =
comment_begin := o;
Buffer.clear current; Buffer.add_string current s;
between_com := b
let dflt_com = (None,"",true)
let com_state () =
let s = (!comment_begin, Buffer.contents current, !between_com) in
restore_com_state dflt_com; s
let real_push_char c = Buffer.add_char current c
(* Add a char if it is between two commands, if it is a newline or
if the last char is not a space itself. *)
let push_char c =
if
!between_com || List.mem c ['\n';'\r'] ||
(List.mem c [' ';'\t']&&
(Buffer.length current = 0 ||
not (let s = Buffer.contents current in
List.mem s.[String.length s - 1] [' ';'\t';'\n';'\r'])))
then
real_push_char c
let push_string s = Buffer.add_string current s
let null_comment s =
let rec null i =
i<0 || (List.mem s.[i] [' ';'\t';'\n';'\r'] && null (i-1)) in
null (String.length s - 1)
let comment_stop ep =
let current_s = Buffer.contents current in
if !Options.xml_export && Buffer.length current > 0 &&
(!between_com || not(null_comment current_s)) then
!xml_output_comment current_s;
(if Options.do_translate() && Buffer.length current > 0 &&
(!between_com || not(null_comment current_s)) then
let bp = match !comment_begin with
Some bp -> bp
| None ->
msgerrnl(str"No begin location for comment '"++str current_s ++str"' ending at "++int ep);
ep-1 in
Pp.comments := ((bp,ep),current_s) :: !Pp.comments);
Buffer.clear current;
comment_begin := None;
between_com := false
(* Does not unescape!!! *)
let rec comm_string bp = parser
| [< ''"' >] -> push_string "\""
| [< ''\\'; _ =
(parser [< ' ('"' | '\\' as c) >] ->
if c='"' then real_push_char c;
real_push_char c
| [< >] -> real_push_char '\\'); s >]
-> comm_string bp s
| [< _ = Stream.empty >] ep -> err (bp, ep) Unterminated_string
| [< 'c; s >] -> real_push_char c; comm_string bp s
let rec comment bp = parser bp2
| [< ''(';
_ = (parser
| [< ''*'; s >] -> push_string "(*"; comment bp s
| [< >] -> push_string "(" );
s >] -> comment bp s
| [< ''*';
_ = parser
| [< '')' >] -> push_string "*)";
| [< s >] -> real_push_char '*'; comment bp s >] -> ()
| [< ''"'; s >] ->
if Options.do_translate() then (push_string"\"";comm_string bp2 s)
else ignore (string bp2 0 s);
comment bp s
| [< _ = Stream.empty >] ep -> err (bp, ep) Unterminated_comment
| [< 'z; s >] -> real_push_char z; comment bp s
(* Parse a special token, using the [token_tree] *)
(* Peek as much utf-8 lexemes as possible *)
(* then look if a special token is obtained *)
let rec special tt cs =
match Stream.peek cs with
| Some c -> progress_from_byte 0 tt cs c
| None -> tt.node
(* nr is the number of char peeked; n the number of char in utf8 block *)
and progress_utf8 nr n c tt cs =
try
let tt = CharMap.find c tt.branch in
let tt =
if n=1 then tt else
match Stream.npeek (n-nr) cs with
| l when List.length l = n-nr ->
let l = Util.list_skipn (1-nr) l in
List.iter (check_utf8_trailing_byte cs) l;
List.fold_left (fun tt c -> CharMap.find c tt.branch) tt l
| _ ->
error_utf8 cs
in
for i=1 to n-nr do Stream.junk cs done;
special tt cs
with Not_found ->
tt.node
and progress_from_byte nr tt cs = function
(* Utf8 leading byte *)
| '\x00'..'\x7F' as c -> progress_utf8 nr 1 c tt cs
| '\xC0'..'\xDF' as c -> progress_utf8 nr 2 c tt cs
| '\xE0'..'\xEF' as c -> progress_utf8 nr 3 c tt cs
| '\xF0'..'\xF7' as c -> progress_utf8 nr 4 c tt cs
| _ (* '\x80'..\xBF'|'\xF8'..'\xFF' *) ->
error_utf8 cs
(* Must be a special token *)
let process_chars bp c cs =
let t = progress_from_byte 1 !token_tree cs c in
let ep = Stream.count cs in
match t with
| Some t -> (("", t), (bp, ep))
| None -> err (bp, ep) Undefined_token
(* Parse what follows a dot *)
let parse_after_dot bp c = parser
| [< ' ('a'..'z' | 'A'..'Z' | '_' as c); len = ident_tail (store 0 c) >] ->
("FIELD", get_buff len)
| [< s >] ->
match lookup_utf8 s with
| Some (Utf8Letter n) ->
("FIELD", get_buff (ident_tail (nstore n 0 s) s))
| Some (Utf8IdentPart _ | AsciiChar | Utf8Symbol) | None ->
fst (process_chars bp c s)
(* Parse a token in a char stream *)
let rec next_token = parser bp
| [< '' ' | '\t' | '\n' |'\r' as c; s >] ->
comm_loc bp; push_char c; next_token s
| [< ''$'; len = ident_tail (store 0 '$') >] ep ->
comment_stop bp;
(("METAIDENT", get_buff len), (bp,ep))
| [< ''.' as c; t = parse_after_dot bp c >] ep ->
comment_stop bp;
if Options.do_translate() & t=("",".") then between_com := true;
(t, (bp,ep))
| [< ' ('a'..'z' | 'A'..'Z' | '_' as c);
len = ident_tail (store 0 c) >] ep ->
let id = get_buff len in
comment_stop bp;
(try ("", find_keyword id) with Not_found -> ("IDENT", id)), (bp, ep)
| [< ' ('0'..'9' as c); len = number (store 0 c) >] ep ->
comment_stop bp;
(("INT", get_buff len), (bp, ep))
| [< ''\"'; len = string bp 0 >] ep ->
comment_stop bp;
(("STRING", get_buff len), (bp, ep))
| [< ' ('(' as c);
t = parser
| [< ''*'; s >] ->
comm_loc bp;
push_string "(*";
comment bp s;
next_token s
| [< t = process_chars bp c >] -> comment_stop bp; t >] ->
t
| [< s >] ->
match lookup_utf8 s with
| Some (Utf8Letter n) ->
let len = ident_tail (nstore n 0 s) s in
let id = get_buff len in
let ep = Stream.count s in
comment_stop bp;
(try ("",find_keyword id) with Not_found -> ("IDENT",id)), (bp, ep)
| Some (Utf8Symbol | AsciiChar | Utf8IdentPart _) ->
let t = process_chars bp (Stream.next s) s in
comment_stop bp; t
| None ->
comment_stop bp; (("EOI", ""), (bp, bp + 1))
(* Location table system for creating tables associating a token count
to its location in a char stream (the source) *)
let locerr () = invalid_arg "Lexer: location function"
let tsz = 256 (* up to 2^29 entries on a 32-bit machine, 2^61 on 64-bit *)
let loct_create () = ref [| [| |] |]
let loct_func loct i =
match
if i < 0 || i/tsz >= Array.length !loct then None
else if !loct.(i/tsz) = [| |] then None
else !loct.(i/tsz).(i mod tsz)
with
| Some loc -> Util.make_loc loc
| _ -> locerr ()
let loct_add loct i loc =
while i/tsz >= Array.length !loct do
let new_tmax = Array.length !loct * 2 in
let new_loct = Array.make new_tmax [| |] in
Array.blit !loct 0 new_loct 0 (Array.length !loct);
loct := new_loct;
done;
if !loct.(i/tsz) = [| |] then !loct.(i/tsz) <- Array.make tsz None;
!loct.(i/tsz).(i mod tsz) <- Some loc
let current_location_table = ref (ref [| [| |] |])
let location_function n =
loct_func !current_location_table n
let func cs =
let loct = loct_create () in
let ts =
Stream.from
(fun i ->
let (tok, loc) = next_token cs in
loct_add loct i loc; Some tok)
in
current_location_table := loct;
(ts, loct_func loct)
type location_table = (int * int) option array array ref
let location_table () = !current_location_table
let restore_location_table t = current_location_table := t
(* Names of tokens, for this lexer, used in Grammar error messages *)
let token_text = function
| ("", t) -> "'" ^ t ^ "'"
| ("IDENT", "") -> "identifier"
| ("IDENT", t) -> "'" ^ t ^ "'"
| ("INT", "") -> "integer"
| ("INT", s) -> "'" ^ s ^ "'"
| ("STRING", "") -> "string"
| ("EOI", "") -> "end of input"
| (con, "") -> con
| (con, prm) -> con ^ " \"" ^ prm ^ "\""
let tparse (p_con, p_prm) =
None
(*i was
if p_prm = "" then
(parser [< '(con, prm) when con = p_con >] -> prm)
else
(parser [< '(con, prm) when con = p_con && prm = p_prm >] -> prm)
i*)
(* Terminal symbols interpretation *)
let is_ident_not_keyword s =
match s.[0] with
| 'a'..'z' | 'A'..'Z' | '_' -> not (is_keyword s)
| _ -> false
let is_number s =
let rec aux i =
String.length s = i or
match s.[i] with '0'..'9' -> aux (i+1) | _ -> false
in aux 0
let strip s =
let len =
let rec loop i len =
if i = String.length s then len
else if s.[i] == ' ' then loop (i + 1) len
else loop (i + 1) (len + 1)
in
loop 0 0
in
if len == String.length s then s
else
let s' = String.create len in
let rec loop i i' =
if i == String.length s then s'
else if s.[i] == ' ' then loop (i + 1) i'
else begin s'.[i'] <- s.[i]; loop (i + 1) (i' + 1) end
in
loop 0 0
let terminal s =
let s = strip s in
if s = "" then failwith "empty token";
if is_ident_not_keyword s then ("IDENT", s)
else if is_number s then ("INT", s)
else ("", s)
|