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pa_j_3.1x_5.xx.ml
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pa_j_3.1x_5.xx.ml
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(* camlp5r pa_extend.cmo q_MLast.cmo *)
(* $Id: pa_o.ml 1271 2007-10-01 08:22:47Z deraugla $ *)
(* Copyright (c) INRIA 2007 *)
open Pcaml;
Pcaml.syntax_name.val := "OCaml";
Pcaml.no_constructors_arity.val := True;
(* camlp5r pa_lexer.cmo *)
(* $Id: plexer.ml 1402 2007-10-14 02:50:31Z deraugla $ *)
(* Copyright (c) INRIA 2007 *)
(* ------------------------------------------------------------------------- *)
(* Added by JRH as a backdoor to change lexical conventions. *)
(* ------------------------------------------------------------------------- *)
value jrh_lexer = ref False;
value no_quotations = ref False;
value error_on_unknown_keywords = ref False;
value dollar_for_antiquotation = ref True;
value specific_space_dot = ref False;
value force_antiquot_loc = ref False;
(* The string buffering machinery *)
value rev_implode l =
let s = String.create (List.length l) in
loop (String.length s - 1) l where rec loop i =
fun
[ [c :: l] -> do { String.unsafe_set s i c; loop (i - 1) l }
| [] -> s ]
;
(* The lexer *)
type context =
{ after_space : mutable bool;
dollar_for_antiquotation : bool;
specific_space_dot : bool;
find_kwd : string -> string;
line_cnt : int -> char -> unit;
set_line_nb : unit -> unit;
make_lined_loc : (int * int) -> string -> Ploc.t }
;
value err ctx loc msg =
Ploc.raise (ctx.make_lined_loc loc "") (Plexing.Error msg)
;
(* ------------------------------------------------------------------------- *)
(* JRH's hack to make the case distinction "unmixed" versus "mixed" *)
(* ------------------------------------------------------------------------- *)
value is_uppercase s = String.uppercase s = s;
value is_only_lowercase s = String.lowercase s = s && not(is_uppercase s);
value jrh_identifier find_kwd id =
let jflag = jrh_lexer.val in
if id = "set_jrh_lexer" then
(let _ = jrh_lexer.val := True in ("",find_kwd "true"))
else if id = "unset_jrh_lexer" then
(let _ = jrh_lexer.val := False in ("",find_kwd "false"))
else
try ("", find_kwd id) with
[ Not_found ->
if not(jflag) then
if is_uppercase (String.sub id 0 1) then ("UIDENT", id)
else ("LIDENT", id)
else if is_uppercase (String.sub id 0 1) &&
is_only_lowercase (String.sub id 1 (String.length id - 1))
(***** JRH: Carl's alternative version
then ("UIDENT", id)
else if is_uppercase (String.sub id 0 1) then ("LIDENT", "__uc_"^id)
else ("LIDENT", id)];
*****)
then ("UIDENT", id) else ("LIDENT", id)];
(* ------------------------------------------------------------------------- *)
(* Back to original file with the mod of using the above. *)
(* ------------------------------------------------------------------------- *)
value keyword_or_error ctx loc s =
try ("", ctx.find_kwd s) with
[ Not_found ->
if error_on_unknown_keywords.val then
err ctx loc ("illegal token: " ^ s)
else ("", s) ]
;
value stream_peek_nth n strm =
loop n (Stream.npeek n strm) where rec loop n =
fun
[ [] -> None
| [x] -> if n == 1 then Some x else None
| [_ :: l] -> loop (n - 1) l ]
;
value rec ident =
lexer
[ [ 'A'-'Z' | 'a'-'z' | '0'-'9' | '_' | ''' | '\128'-'\255' ] ident! | ]
;
value rec ident2 =
lexer
[ [ '!' | '?' | '~' | '=' | '@' | '^' | '&' | '+' | '-' | '*' | '/' |
'%' | '.' | ':' | '<' | '>' | '|' | '$' ]
ident2!
| ]
;
value rec ident3 =
lexer
[ [ '0'-'9' | 'A'-'Z' | 'a'-'z' | '_' | '!' | '%' | '&' | '*' | '+' | '-' |
'.' | '/' | ':' | '<' | '=' | '>' | '?' | '@' | '^' | '|' | '~' | ''' |
'$' | '\128'-'\255' ] ident3!
| ]
;
value binary = lexer [ '0' | '1' ];
value octal = lexer [ '0'-'7' ];
value decimal = lexer [ '0'-'9' ];
value hexa = lexer [ '0'-'9' | 'a'-'f' | 'A'-'F' ];
value end_integer =
lexer
[ "l"/ -> ("INT_l", $buf)
| "L"/ -> ("INT_L", $buf)
| "n"/ -> ("INT_n", $buf)
| -> ("INT", $buf) ]
;
value rec digits_under kind =
lexer
[ kind (digits_under kind)!
| "_" (digits_under kind)!
| end_integer ]
;
value digits kind =
lexer
[ kind (digits_under kind)!
| -> raise (Stream.Error "ill-formed integer constant") ]
;
value rec decimal_digits_under =
lexer [ [ '0'-'9' | '_' ] decimal_digits_under! | ]
;
value exponent_part =
lexer
[ [ 'e' | 'E' ] [ '+' | '-' | ]
'0'-'9' ? "ill-formed floating-point constant"
decimal_digits_under! ]
;
value number =
lexer
[ decimal_digits_under "." decimal_digits_under! exponent_part ->
("FLOAT", $buf)
| decimal_digits_under "." decimal_digits_under! -> ("FLOAT", $buf)
| decimal_digits_under exponent_part -> ("FLOAT", $buf)
| decimal_digits_under end_integer! ]
;
value rec char_aux ctx bp =
lexer
[ "'"/
| _ (char_aux ctx bp)!
| -> err ctx (bp, $pos) "char not terminated" ]
;
value char ctx bp =
lexer
[ "\\" _ (char_aux ctx bp)!
| "\\" -> err ctx (bp, $pos) "char not terminated"
| ?= [ _ '''] _! "'"/ ]
;
value any ctx buf =
parser bp [: `c :] -> do { ctx.line_cnt bp c; $add c }
;
value rec string ctx bp =
lexer
[ "\""/
| "\\" (any ctx) (string ctx bp)!
| (any ctx) (string ctx bp)!
| -> err ctx (bp, $pos) "string not terminated" ]
;
value rec qstring ctx bp =
lexer
[ "`"/
| (any ctx) (qstring ctx bp)!
| -> err ctx (bp, $pos) "quotation not terminated" ]
;
value comment ctx bp =
comment where rec comment =
lexer
[ "*)"
| "*" comment!
| "(*" comment! comment!
| "(" comment!
| "\"" (string ctx bp)! [ -> $add "\"" ] comment!
| "'" (char ctx bp) comment!
| "'" comment!
| (any ctx) comment!
| -> err ctx (bp, $pos) "comment not terminated" ]
;
value rec quotation ctx bp =
lexer
[ ">>"/
| ">" (quotation ctx bp)!
| "<<" (quotation ctx bp)! [ -> $add ">>" ]! (quotation ctx bp)!
| "<:" ident! "<" (quotation ctx bp)! [ -> $add ">>" ]! (quotation ctx bp)!
| "<:" ident! (quotation ctx bp)!
| "<" (quotation ctx bp)!
| "\\"/ [ '>' | '<' | '\\' ] (quotation ctx bp)!
| "\\" (quotation ctx bp)!
| (any ctx) (quotation ctx bp)!
| -> err ctx (bp, $pos) "quotation not terminated" ]
;
value less ctx bp buf strm =
if no_quotations.val then
match strm with lexer
[ [ -> $add "<" ] ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
else
match strm with lexer
[ "<"/ (quotation ctx bp) -> ("QUOTATION", ":" ^ $buf)
| ":"/ ident! [ -> $add ":" ]! "<"/ ? "character '<' expected"
(quotation ctx bp) ->
("QUOTATION", $buf)
| [ -> $add "<" ] ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
;
value rec antiquot_rest ctx bp =
lexer
[ "$"/
| "\\"/ (any ctx) (antiquot_rest ctx bp)!
| (any ctx) (antiquot_rest ctx bp)!
| -> err ctx (bp, $pos) "antiquotation not terminated" ]
;
value rec antiquot ctx bp =
lexer
[ "$"/ -> ":" ^ $buf
| [ 'a'-'z' | 'A'-'Z' | '0'-'9' | '_' ] (antiquot ctx bp)!
| ":" (antiquot_rest ctx bp)! -> $buf
| "\\"/ (any ctx) (antiquot_rest ctx bp)! -> ":" ^ $buf
| (any ctx) (antiquot_rest ctx bp)! -> ":" ^ $buf
| -> err ctx (bp, $pos) "antiquotation not terminated" ]
;
value antiloc bp ep s = Printf.sprintf "%d,%d:%s" bp ep s;
value rec antiquot_loc ctx bp =
lexer
[ "$"/ -> antiloc bp $pos (":" ^ $buf)
| [ 'a'-'z' | 'A'-'Z' | '0'-'9' | '_' ] (antiquot_loc ctx bp)!
| ":" (antiquot_rest ctx bp)! -> antiloc bp $pos $buf
| "\\"/ (any ctx) (antiquot_rest ctx bp)! -> antiloc bp $pos (":" ^ $buf)
| (any ctx) (antiquot_rest ctx bp)! -> antiloc bp $pos (":" ^ $buf)
| -> err ctx (bp, $pos) "antiquotation not terminated" ]
;
value dollar ctx bp buf strm =
if ctx.dollar_for_antiquotation then
("ANTIQUOT", antiquot ctx bp buf strm)
else if force_antiquot_loc.val then
("ANTIQUOT_LOC", antiquot_loc ctx bp buf strm)
else
match strm with lexer
[ [ -> $add "$" ] ident2! -> ("", $buf) ]
;
(* ANTIQUOT - specific case for QUESTIONIDENT and QUESTIONIDENTCOLON
input expr patt
----- ---- ----
?$abc:d$ ?abc:d ?abc
?$abc:d$: ?abc:d: ?abc:
?$d$ ?:d ?
?$d$: ?:d: ?:
*)
(* ANTIQUOT_LOC - specific case for QUESTIONIDENT and QUESTIONIDENTCOLON
input expr patt
----- ---- ----
?$abc:d$ ?8,13:abc:d ?abc
?$abc:d$: ?8,13:abc:d: ?abc:
?$d$ ?8,9::d ?
?$d$: ?8,9::d: ?:
*)
value question ctx bp buf strm =
if ctx.dollar_for_antiquotation then
match strm with parser
[ [: `'$'; s = antiquot ctx bp $empty; `':' :] ->
("ANTIQUOT", "?" ^ s ^ ":")
| [: `'$'; s = antiquot ctx bp $empty :] ->
("ANTIQUOT", "?" ^ s)
| [: :] ->
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ] ]
else if force_antiquot_loc.val then
match strm with parser
[ [: `'$'; s = antiquot_loc ctx bp $empty; `':' :] ->
("ANTIQUOT_LOC", "?" ^ s ^ ":")
| [: `'$'; s = antiquot_loc ctx bp $empty :] ->
("ANTIQUOT_LOC", "?" ^ s)
| [: :] ->
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ] ]
else
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
;
value tilde ctx bp buf strm =
if ctx.dollar_for_antiquotation then
match strm with parser
[ [: `'$'; s = antiquot ctx bp $empty; `':' :] ->
("ANTIQUOT", "~" ^ s ^ ":")
| [: `'$'; s = antiquot ctx bp $empty :] ->
("ANTIQUOT", "~" ^ s)
| [: :] ->
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ] ]
else if force_antiquot_loc.val then
match strm with parser
[ [: `'$'; s = antiquot_loc ctx bp $empty; `':' :] ->
("ANTIQUOT_LOC", "~" ^ s ^ ":")
| [: `'$'; s = antiquot_loc ctx bp $empty :] ->
("ANTIQUOT_LOC", "~" ^ s)
| [: :] ->
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ] ]
else
match strm with lexer
[ ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
;
value tildeident =
lexer
[ ":"/ -> ("TILDEIDENTCOLON", $buf)
| -> ("TILDEIDENT", $buf) ]
;
value questionident =
lexer
[ ":"/ -> ("QUESTIONIDENTCOLON", $buf)
| -> ("QUESTIONIDENT", $buf) ]
;
value rec linedir n s =
match stream_peek_nth n s with
[ Some (' ' | '\t') -> linedir (n + 1) s
| Some ('0'..'9') -> linedir_digits (n + 1) s
| _ -> False ]
and linedir_digits n s =
match stream_peek_nth n s with
[ Some ('0'..'9') -> linedir_digits (n + 1) s
| _ -> linedir_quote n s ]
and linedir_quote n s =
match stream_peek_nth n s with
[ Some (' ' | '\t') -> linedir_quote (n + 1) s
| Some '"' -> True
| _ -> False ]
;
value rec any_to_nl =
lexer
[ "\r" | "\n"
| _ any_to_nl!
| ]
;
value next_token_after_spaces ctx bp =
lexer
[ 'A'-'Z' ident! ->
let id = $buf in
jrh_identifier ctx.find_kwd id
(********** JRH: original was
try ("", ctx.find_kwd id) with [ Not_found -> ("UIDENT", id) ]
*********)
| [ 'a'-'z' | '_' | '\128'-'\255' ] ident! ->
let id = $buf in
jrh_identifier ctx.find_kwd id
(********** JRH: original was
try ("", ctx.find_kwd id) with [ Not_found -> ("LIDENT", id) ]
*********)
| '1'-'9' number!
| "0" [ 'o' | 'O' ] (digits octal)!
| "0" [ 'x' | 'X' ] (digits hexa)!
| "0" [ 'b' | 'B' ] (digits binary)!
| "0" number!
| "'"/ (char ctx bp) -> ("CHAR", $buf)
| "'" -> keyword_or_error ctx (bp, $pos) "'"
| "\""/ (string ctx bp)! -> ("STRING", $buf)
(*** Line added by JRH ***)
| "`"/ (qstring ctx bp)! -> ("QUOTATION", "tot:" ^ $buf)
| "$"/ (dollar ctx bp)!
| [ '!' | '=' | '@' | '^' | '&' | '+' | '-' | '*' | '/' | '%' ] ident2! ->
keyword_or_error ctx (bp, $pos) $buf
| "~"/ 'a'-'z' ident! tildeident!
| "~" (tilde ctx bp)
| "?"/ 'a'-'z' ident! questionident!
| "?" (question ctx bp)!
| "<"/ (less ctx bp)!
| ":]" -> keyword_or_error ctx (bp, $pos) $buf
| "::" -> keyword_or_error ctx (bp, $pos) $buf
| ":=" -> keyword_or_error ctx (bp, $pos) $buf
| ":>" -> keyword_or_error ctx (bp, $pos) $buf
| ":" -> keyword_or_error ctx (bp, $pos) $buf
| ">]" -> keyword_or_error ctx (bp, $pos) $buf
| ">}" -> keyword_or_error ctx (bp, $pos) $buf
| ">" ident2! -> keyword_or_error ctx (bp, $pos) $buf
| "|]" -> keyword_or_error ctx (bp, $pos) $buf
| "|}" -> keyword_or_error ctx (bp, $pos) $buf
| "|" ident2! -> keyword_or_error ctx (bp, $pos) $buf
| "[" ?= [ "<<" | "<:" ] -> keyword_or_error ctx (bp, $pos) $buf
| "[|" -> keyword_or_error ctx (bp, $pos) $buf
| "[<" -> keyword_or_error ctx (bp, $pos) $buf
| "[:" -> keyword_or_error ctx (bp, $pos) $buf
| "[" -> keyword_or_error ctx (bp, $pos) $buf
| "{" ?= [ "<<" | "<:" ] -> keyword_or_error ctx (bp, $pos) $buf
| "{|" -> keyword_or_error ctx (bp, $pos) $buf
| "{<" -> keyword_or_error ctx (bp, $pos) $buf
| "{:" -> keyword_or_error ctx (bp, $pos) $buf
| "{" -> keyword_or_error ctx (bp, $pos) $buf
| ".." -> keyword_or_error ctx (bp, $pos) ".."
| "." ->
let id =
if ctx.specific_space_dot && ctx.after_space then " ." else "."
in
keyword_or_error ctx (bp, $pos) id
| ";;" -> keyword_or_error ctx (bp, $pos) ";;"
| ";" -> keyword_or_error ctx (bp, $pos) ";"
| "\\"/ ident3! -> ("LIDENT", $buf)
| (any ctx) -> keyword_or_error ctx (bp, $pos) $buf ]
;
value rec next_token ctx buf =
parser bp
[ [: `('\n' | '\r' as c); s :] ep -> do {
incr Plexing.line_nb.val;
Plexing.bol_pos.val.val := ep;
ctx.set_line_nb ();
ctx.after_space := True;
next_token ctx ($add c) s
}
| [: `(' ' | '\t' | '\026' | '\012' as c); s :] -> do {
ctx.after_space := True;
next_token ctx ($add c) s
}
| [: `'#' when bp = Plexing.bol_pos.val.val; s :] ->
if linedir 1 s then do {
let buf = any_to_nl ($add '#') s in
incr Plexing.line_nb.val;
Plexing.bol_pos.val.val := Stream.count s;
ctx.set_line_nb ();
ctx.after_space := True;
next_token ctx buf s
}
else
let loc = ctx.make_lined_loc (bp, bp + 1) $buf in
(keyword_or_error ctx (bp, bp + 1) "#", loc)
| [: `'(';
a =
parser
[ [: `'*'; buf = comment ctx bp ($add "(*") !; s :] -> do {
ctx.set_line_nb ();
ctx.after_space := True;
next_token ctx buf s
}
| [: :] ep ->
let loc = ctx.make_lined_loc (bp, ep) $buf in
(keyword_or_error ctx (bp, ep) "(", loc) ] ! :] -> a
| [: tok = next_token_after_spaces ctx bp $empty :] ep ->
let loc = ctx.make_lined_loc (bp, max (bp + 1) ep) $buf in
(tok, loc)
| [: _ = Stream.empty :] ->
let loc = ctx.make_lined_loc (bp, bp + 1) $buf in
(("EOI", ""), loc) ]
;
value next_token_fun ctx glexr (cstrm, s_line_nb, s_bol_pos) =
try do {
match Plexing.restore_lexing_info.val with
[ Some (line_nb, bol_pos) -> do {
s_line_nb.val := line_nb;
s_bol_pos.val := bol_pos;
Plexing.restore_lexing_info.val := None
}
| None -> () ];
Plexing.line_nb.val := s_line_nb;
Plexing.bol_pos.val := s_bol_pos;
let comm_bp = Stream.count cstrm in
ctx.set_line_nb ();
ctx.after_space := False;
let (r, loc) = next_token ctx $empty cstrm in
match glexr.val.Plexing.tok_comm with
[ Some list ->
if Ploc.first_pos loc > comm_bp then
let comm_loc = Ploc.make_unlined (comm_bp, Ploc.last_pos loc) in
glexr.val.Plexing.tok_comm := Some [comm_loc :: list]
else ()
| None -> () ];
(r, loc)
}
with
[ Stream.Error str ->
err ctx (Stream.count cstrm, Stream.count cstrm + 1) str ]
;
value func kwd_table glexr =
let ctx =
let line_nb = ref 0 in
let bol_pos = ref 0 in
{after_space = False;
dollar_for_antiquotation = dollar_for_antiquotation.val;
specific_space_dot = specific_space_dot.val;
find_kwd = Hashtbl.find kwd_table;
line_cnt bp1 c =
match c with
[ '\n' | '\r' -> do {
incr Plexing.line_nb.val;
Plexing.bol_pos.val.val := bp1 + 1;
}
| c -> () ];
set_line_nb () = do {
line_nb.val := Plexing.line_nb.val.val;
bol_pos.val := Plexing.bol_pos.val.val;
};
make_lined_loc loc comm =
Ploc.make line_nb.val bol_pos.val loc}
in
Plexing.lexer_func_of_parser (next_token_fun ctx glexr)
;
value rec check_keyword_stream =
parser [: _ = check $empty; _ = Stream.empty :] -> True
and check =
lexer
[ [ 'A'-'Z' | 'a'-'z' | '\128'-'\255' ] check_ident!
| [ '!' | '?' | '~' | '=' | '@' | '^' | '&' | '+' | '-' | '*' | '/' | '%' |
'.' ]
check_ident2!
| "$" check_ident2!
| "<" ?= [ ":" | "<" ]
| "<" check_ident2!
| ":]"
| "::"
| ":="
| ":>"
| ":"
| ">]"
| ">}"
| ">" check_ident2!
| "|]"
| "|}"
| "|" check_ident2!
| "[" ?= [ "<<" | "<:" ]
| "[|"
| "[<"
| "[:"
| "["
| "{" ?= [ "<<" | "<:" ]
| "{|"
| "{<"
| "{:"
| "{"
| ";;"
| ";"
| _ ]
and check_ident =
lexer
[ [ 'A'-'Z' | 'a'-'z' | '0'-'9' | '_' | ''' | '\128'-'\255' ]
check_ident! | ]
and check_ident2 =
lexer
[ [ '!' | '?' | '~' | '=' | '@' | '^' | '&' | '+' | '-' | '*' | '/' | '%' |
'.' | ':' | '<' | '>' | '|' ]
check_ident2! | ]
;
value check_keyword s =
try check_keyword_stream (Stream.of_string s) with _ -> False
;
value error_no_respect_rules p_con p_prm =
raise
(Plexing.Error
("the token " ^
(if p_con = "" then "\"" ^ p_prm ^ "\""
else if p_prm = "" then p_con
else p_con ^ " \"" ^ p_prm ^ "\"") ^
" does not respect Plexer rules"))
;
value error_ident_and_keyword p_con p_prm =
raise
(Plexing.Error
("the token \"" ^ p_prm ^ "\" is used as " ^ p_con ^
" and as keyword"))
;
value using_token kwd_table ident_table (p_con, p_prm) =
match p_con with
[ "" ->
if not (Hashtbl.mem kwd_table p_prm) then
if check_keyword p_prm then
if Hashtbl.mem ident_table p_prm then
error_ident_and_keyword (Hashtbl.find ident_table p_prm) p_prm
else Hashtbl.add kwd_table p_prm p_prm
else error_no_respect_rules p_con p_prm
else ()
| "LIDENT" ->
if p_prm = "" then ()
else
match p_prm.[0] with
[ 'A'..'Z' -> error_no_respect_rules p_con p_prm
| _ ->
if Hashtbl.mem kwd_table p_prm then
error_ident_and_keyword p_con p_prm
else Hashtbl.add ident_table p_prm p_con ]
| "UIDENT" ->
if p_prm = "" then ()
else
match p_prm.[0] with
[ 'a'..'z' -> error_no_respect_rules p_con p_prm
| _ ->
if Hashtbl.mem kwd_table p_prm then
error_ident_and_keyword p_con p_prm
else Hashtbl.add ident_table p_prm p_con ]
| "TILDEIDENT" | "TILDEIDENTCOLON" | "QUESTIONIDENT" |
"QUESTIONIDENTCOLON" | "INT" | "INT_l" | "INT_L" | "INT_n" | "FLOAT" |
"CHAR" | "STRING" | "QUOTATION" |
"ANTIQUOT" | "ANTIQUOT_LOC" | "EOI" ->
()
| _ ->
raise
(Plexing.Error
("the constructor \"" ^ p_con ^
"\" is not recognized by Plexer")) ]
;
value removing_token kwd_table ident_table (p_con, p_prm) =
match p_con with
[ "" -> Hashtbl.remove kwd_table p_prm
| "LIDENT" | "UIDENT" ->
if p_prm <> "" then Hashtbl.remove ident_table p_prm else ()
| _ -> () ]
;
value text =
fun
[ ("", t) -> "'" ^ t ^ "'"
| ("LIDENT", "") -> "lowercase identifier"
| ("LIDENT", t) -> "'" ^ t ^ "'"
| ("UIDENT", "") -> "uppercase identifier"
| ("UIDENT", t) -> "'" ^ t ^ "'"
| ("INT", "") -> "integer"
| ("INT", s) -> "'" ^ s ^ "'"
| ("FLOAT", "") -> "float"
| ("STRING", "") -> "string"
| ("CHAR", "") -> "char"
| ("QUOTATION", "") -> "quotation"
| ("ANTIQUOT", k) -> "antiquot \"" ^ k ^ "\""
| ("EOI", "") -> "end of input"
| (con, "") -> con
| (con, prm) -> con ^ " \"" ^ prm ^ "\"" ]
;
value eq_before_colon p e =
loop 0 where rec loop i =
if i == String.length e then
failwith "Internal error in Plexer: incorrect ANTIQUOT"
else if i == String.length p then e.[i] == ':'
else if p.[i] == e.[i] then loop (i + 1)
else False
;
value after_colon e =
try
let i = String.index e ':' in
String.sub e (i + 1) (String.length e - i - 1)
with
[ Not_found -> "" ]
;
value after_colon_except_last e =
try
let i = String.index e ':' in
String.sub e (i + 1) (String.length e - i - 2)
with
[ Not_found -> "" ]
;
value tok_match =
fun
[ ("ANTIQUOT", p_prm) ->
if p_prm <> "" && (p_prm.[0] = '~' || p_prm.[0] = '?') then
if p_prm.[String.length p_prm - 1] = ':' then
let p_prm = String.sub p_prm 0 (String.length p_prm - 1) in
fun
[ ("ANTIQUOT", prm) ->
if prm <> "" && prm.[String.length prm - 1] = ':' then
if eq_before_colon p_prm prm then after_colon_except_last prm
else raise Stream.Failure
else raise Stream.Failure
| _ -> raise Stream.Failure ]
else
fun
[ ("ANTIQUOT", prm) ->
if prm <> "" && prm.[String.length prm - 1] = ':' then
raise Stream.Failure
else if eq_before_colon p_prm prm then after_colon prm
else raise Stream.Failure
| _ -> raise Stream.Failure ]
else
fun
[ ("ANTIQUOT", prm) when eq_before_colon p_prm prm -> after_colon prm
| _ -> raise Stream.Failure ]
| tok -> Plexing.default_match tok ]
;
value gmake () =
let kwd_table = Hashtbl.create 301 in
let id_table = Hashtbl.create 301 in
let glexr =
ref
{Plexing.tok_func = fun []; tok_using = fun []; tok_removing = fun [];
tok_match = fun []; tok_text = fun []; tok_comm = None}
in
let glex =
{Plexing.tok_func = func kwd_table glexr;
tok_using = using_token kwd_table id_table;
tok_removing = removing_token kwd_table id_table; tok_match = tok_match;
tok_text = text; tok_comm = None}
in
do { glexr.val := glex; glex }
;
do {
let odfa = dollar_for_antiquotation.val in
dollar_for_antiquotation.val := False;
Grammar.Unsafe.gram_reinit gram (gmake ());
dollar_for_antiquotation.val := odfa;
Grammar.Unsafe.clear_entry interf;
Grammar.Unsafe.clear_entry implem;
Grammar.Unsafe.clear_entry top_phrase;
Grammar.Unsafe.clear_entry use_file;
Grammar.Unsafe.clear_entry module_type;
Grammar.Unsafe.clear_entry module_expr;
Grammar.Unsafe.clear_entry sig_item;
Grammar.Unsafe.clear_entry str_item;
Grammar.Unsafe.clear_entry expr;
Grammar.Unsafe.clear_entry patt;
Grammar.Unsafe.clear_entry ctyp;
Grammar.Unsafe.clear_entry let_binding;
Grammar.Unsafe.clear_entry type_declaration;
Grammar.Unsafe.clear_entry constructor_declaration;
Grammar.Unsafe.clear_entry match_case;
Grammar.Unsafe.clear_entry with_constr;
Grammar.Unsafe.clear_entry poly_variant;
Grammar.Unsafe.clear_entry class_type;
Grammar.Unsafe.clear_entry class_expr;
Grammar.Unsafe.clear_entry class_sig_item;
Grammar.Unsafe.clear_entry class_str_item
};
Pcaml.parse_interf.val := Grammar.Entry.parse interf;
Pcaml.parse_implem.val := Grammar.Entry.parse implem;
value neg_string n =
let len = String.length n in
if len > 0 && n.[0] = '-' then String.sub n 1 (len - 1) else "-" ^ n
;
value mkumin loc f arg =
match arg with
[ <:expr< $int:n$ >> -> <:expr< $int:neg_string n$ >>
| <:expr< $flo:n$ >> -> <:expr< $flo:neg_string n$ >>
| _ ->
let f = "~" ^ f in
<:expr< $lid:f$ $arg$ >> ]
;
value mklistexp loc last =
loop True where rec loop top =
fun
[ [] ->
match last with
[ Some e -> e
| None -> <:expr< [] >> ]
| [e1 :: el] ->
let loc =
if top then loc else Ploc.encl (MLast.loc_of_expr e1) loc
in
<:expr< [$e1$ :: $loop False el$] >> ]
;
value mklistpat loc last =
loop True where rec loop top =
fun
[ [] ->
match last with
[ Some p -> p
| None -> <:patt< [] >> ]
| [p1 :: pl] ->
let loc =
if top then loc else Ploc.encl (MLast.loc_of_patt p1) loc
in
<:patt< [$p1$ :: $loop False pl$] >> ]
;
(*** JRH pulled this outside so user can add new infixes here too ***)
value ht = Hashtbl.create 73;
(*** And JRH added all the new HOL Light infixes here already ***)
value is_operator = do {
let ct = Hashtbl.create 73 in
List.iter (fun x -> Hashtbl.add ht x True)
["asr"; "land"; "lor"; "lsl"; "lsr"; "lxor"; "mod"; "or"; "o"; "upto";
"F_F"; "THENC"; "THEN"; "THENL"; "ORELSE"; "ORELSEC";
"THEN_TCL"; "ORELSE_TCL"];
List.iter (fun x -> Hashtbl.add ct x True)
['!'; '&'; '*'; '+'; '-'; '/'; ':'; '<'; '='; '>'; '@'; '^'; '|'; '~';
'?'; '%'; '.'; '$'];
fun x ->
try Hashtbl.find ht x with
[ Not_found -> try Hashtbl.find ct x.[0] with _ -> False ]
};
(*** JRH added this so parenthesised operators undergo same mapping ***)
value translate_operator =
fun s ->
match s with
[ "THEN" -> "then_"
| "THENC" -> "thenc_"
| "THENL" -> "thenl_"
| "ORELSE" -> "orelse_"
| "ORELSEC" -> "orelsec_"
| "THEN_TCL" -> "then_tcl_"
| "ORELSE_TCL" -> "orelse_tcl_"
| "F_F" -> "f_f_"
| _ -> s];
(*** And JRH inserted it in here ***)
value operator_rparen =
Grammar.Entry.of_parser gram "operator_rparen"
(fun strm ->
match Stream.npeek 2 strm with
[ [("", s); ("", ")")] when is_operator s -> do {
Stream.junk strm;
Stream.junk strm;
translate_operator s
}
| _ -> raise Stream.Failure ])
;
value check_not_part_of_patt =
Grammar.Entry.of_parser gram "check_not_part_of_patt"
(fun strm ->
let tok =
match Stream.npeek 4 strm with
[ [("LIDENT", _); tok :: _] -> tok
| [("", "("); ("", s); ("", ")"); tok] when is_operator s -> tok
| _ -> raise Stream.Failure ]
in
match tok with
[ ("", "," | "as" | "|" | "::") -> raise Stream.Failure
| _ -> () ])
;
value symbolchar =
let list =
['!'; '$'; '%'; '&'; '*'; '+'; '-'; '.'; '/'; ':'; '<'; '='; '>'; '?';
'@'; '^'; '|'; '~']
in
loop where rec loop s i =
if i == String.length s then True
else if List.mem s.[i] list then loop s (i + 1)
else False
;
value prefixop =
let list = ['!'; '?'; '~'] in
let excl = ["!="; "??"; "?!"] in
Grammar.Entry.of_parser gram "prefixop"
(parser
[: `("", x)
when
not (List.mem x excl) && String.length x >= 2 &&
List.mem x.[0] list && symbolchar x 1 :] ->
x)
;
value infixop0 =
let list = ['='; '<'; '>'; '|'; '&'; '$'] in
let excl = ["<-"; "||"; "&&"] in
Grammar.Entry.of_parser gram "infixop0"
(parser
[: `("", x)
when
not (List.mem x excl) && String.length x >= 2 &&
List.mem x.[0] list && symbolchar x 1 :] ->
x)
;
value infixop1 =
let list = ['@'; '^'] in
Grammar.Entry.of_parser gram "infixop1"
(parser
[: `("", x)
when
String.length x >= 2 && List.mem x.[0] list &&
symbolchar x 1 :] ->
x)
;
value infixop2 =
let list = ['+'; '-'] in
Grammar.Entry.of_parser gram "infixop2"
(parser
[: `("", x)
when
x <> "->" && String.length x >= 2 && List.mem x.[0] list &&
symbolchar x 1 :] ->
x)
;
value infixop3 =
let list = ['*'; '/'; '%'] in
Grammar.Entry.of_parser gram "infixop3"
(parser
[: `("", x)
when
String.length x >= 2 && List.mem x.[0] list &&
symbolchar x 1 :] ->
x)
;
value infixop4 =
Grammar.Entry.of_parser gram "infixop4"
(parser
[: `("", x)
when
String.length x >= 3 && x.[0] == '*' && x.[1] == '*' &&
symbolchar x 2 :] ->
x)
;
value test_constr_decl =
Grammar.Entry.of_parser gram "test_constr_decl"
(fun strm ->
match Stream.npeek 1 strm with
[ [("UIDENT", _)] ->
match Stream.npeek 2 strm with
[ [_; ("", ".")] -> raise Stream.Failure
| [_; ("", "(")] -> raise Stream.Failure
| [_ :: _] -> ()
| _ -> raise Stream.Failure ]
| [("", "|")] -> ()
| _ -> raise Stream.Failure ])
;
value stream_peek_nth n strm =
loop n (Stream.npeek n strm) where rec loop n =
fun
[ [] -> None
| [x] -> if n == 1 then Some x else None
| [_ :: l] -> loop (n - 1) l ]
;
(* horrible hack to be able to parse class_types *)
value test_ctyp_minusgreater =
Grammar.Entry.of_parser gram "test_ctyp_minusgreater"
(fun strm ->
let rec skip_simple_ctyp n =
match stream_peek_nth n strm with
[ Some ("", "->") -> n
| Some ("", "[" | "[<") ->
skip_simple_ctyp (ignore_upto "]" (n + 1) + 1)
| Some ("", "(") -> skip_simple_ctyp (ignore_upto ")" (n + 1) + 1)
| Some
("",
"as" | "'" | ":" | "*" | "." | "#" | "<" | ">" | ".." | ";" |
"_") ->