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open Util
open ParserMonad
module P = ParserMonad
type t =
| String of string
| Number of string
| Object of obj
| Array of t list
| Bool of bool
| Null
and obj = (string * t) list
exception JSON_NotObject of t
exception JSON_InvalidField of (string)
exception JSON_CastErr of string
exception JSON_UnknownErr of string
let show =
let rec show_aux depth = function
| String s -> "str(" ^s^ ")"
| Number x -> !%"num(%s)" x
| Object fs ->
let indent d = String.make d '\t' in
"{\n"
^indent depth^ slist (",\n"^ indent depth) (fun (k,v) -> k^":"^ (show_aux (depth+1)) v) fs
^"\n"^indent(depth-1)^"}"
| Array xs -> "[" ^slist "," (show_aux depth) xs ^ "]"
| Bool true -> "TRUE"
| Bool false -> "FALSE"
| Null -> "NULL"
in
show_aux 1
let rec format_list sep f ppf = function
| [] -> ()
| [x] -> f ppf x
| x::xs -> f ppf x; Format.fprintf ppf sep; format_list sep f ppf xs
let rec format ppf =
let open Format in
function
| String s ->
let buf = Buffer.create (String.length s * 2) in
Buffer.add_char buf '"';
for i = 0 to String.length s - 1 do
let c = String.unsafe_get s i in
match c with
| '"' -> Buffer.add_string buf "\\\""
| '\\' -> Buffer.add_string buf "\\\\"
| '\b' -> Buffer.add_string buf "\\b"
| '\012' -> Buffer.add_string buf "\\f"
| '\n' -> Buffer.add_string buf "\\n"
| '\r' -> Buffer.add_string buf "\\r"
| '\t' -> Buffer.add_string buf "\\t"
| _ when Char.code c <= 32 && c <> ' ' ->
Printf.ksprintf (Buffer.add_string buf) "\\u%04X" (Char.code c)
| _ -> Buffer.add_char buf c
done;
Buffer.add_char buf '"';
pp_print_string ppf (Buffer.contents buf)
| Number s -> fprintf ppf "%s" s
| Object o ->
fprintf ppf "{ @[%a }@]"
(format_list ",@ " (fun ppf (s,v) -> fprintf ppf "@[\"%s\": @[<2>%a@]@]" s format v)) o
| Array ts ->
fprintf ppf "[ @[%a ]@]"
(format_list ",@ " format) ts
| Bool b -> fprintf ppf "%b" b
| Null -> fprintf ppf "null"
let getf field t =
match t with
| Object o ->
begin try List.assoc field o with
| _ -> raise (JSON_InvalidField (field))
end
| _ -> raise (JSON_NotObject t)
let getf_opt field t =
match t with
| Object o ->
begin try Some (List.assoc field o) with
| _ -> None
end
| _ -> None
let as_bool = function
| Bool true -> true
| Bool false -> false
| v -> raise (JSON_CastErr ("as_bool:" ^ show v))
let as_object = function
| Object obj -> obj
| v -> raise (JSON_CastErr ("as_object:" ^ show v))
let as_float = function
| Number s -> float_of_string s
| v -> raise (JSON_CastErr ("as_float:" ^ show v))
let as_string = function
| String s -> s
| v -> raise (JSON_CastErr ("as_string:" ^ show v))
let as_list = function
| Array l -> l
| v -> raise (JSON_CastErr ("as_list:" ^ show v))
let as_int = function
| Number s -> int_of_string s
| v -> raise (JSON_CastErr ("as_int:" ^ show v))
let whitespace = many (char '\n' <|> char ' ' <|> char '\t' <|> char '\r')
let string s =
let rec iter i =
if i < String.length s then
char s.[i] >> iter (i+1)
else return s
in
iter 0
type token =
| ObjOpen
| ObjClose
| ListOpen
| ListClose
| Comma
| Colon
| TTrue
| TFalse
| TNull
| TString of string
| TNumber of string
let lit_string =
let four_hex_digits =
let hex = char1 >>= function
| '0'..'9' | 'A'..'F' | 'a'..'f' as c -> return c
| _ -> error ""
in
hex >>= fun d1 -> hex >>= fun d2 -> hex >>= fun d3 -> hex >>= fun d4 ->
let s = string_of_chars [d1;d2;d3;d4] in
let n = int_of_string ("0x" ^ Utf16.utf16c_to_utf8c s) in
let m, n1 = n / (16*16), n mod (16*16) in
let n3,n2 = m / (16*16), m mod (16*16) in
let cs = List.map char_of_int
begin match [n3;n2;n1] with
| [0; 0; _] -> [n1]
| [0; _; _] -> [n2; n1]
| _ -> [n3; n2; n1]
end
in
return (string_of_chars cs)
in
let lit_char =
char1 >>= function
| '\"' -> error ""
| '\\' -> char1 >>=
begin function
| '\"' | '\\' | '/' as c -> return (string1 c)
| 'b' -> return "\b"
| 'n' -> return "\n"
| 'r' -> return "\r"
| 't' -> return "\t"
| 'u' -> four_hex_digits
| _ -> error ""
end
| c -> return (string1 c)
in
char '\"' >> many lit_char >>= fun ss -> char '\"' >> return (TString (slist "" id ss))
let digits =
let digit =
char1 >>= function
| '0'..'9' | '-' | '.' | 'e' | 'E' | '+' as c -> return c
| _ -> error "digit"
in
many1 digit >>= (return $ string_of_chars)
let lit_number =
digits >>= fun x -> return (TNumber x)
let token1 =
let aux =
(char '{' >> return ObjOpen)
<|>
(char '}' >> return ObjClose)
<|>
(char '[' >> return ListOpen)
<|>
(char ']' >> return ListClose)
<|>
(char ',' >> return Comma)
<|>
(char ':' >> return Colon)
<|>
(string "true" >> return TTrue)
<|>
(string "false" >> return TFalse)
<|>
(string "null" >> return TNull)
<|>
lit_string
<|>
lit_number
in
whitespace >> aux
let token t =
token1 >>= fun x -> if t = x then return t else error "token"
let json_string =
token1 >>= function TString s -> return s | _ -> error "json_string"
let json_number =
token1 >>= function TNumber x -> return x | _ -> error "json_number"
let rec json (): t P.t =
begin
let field =
json_string >>= fun key -> token Colon >> json () >>= fun v -> return (key, v)
in
(token ObjOpen >> sep (token Comma) field >>= fun fields -> token ObjClose >>
return @@ Object fields)
<|>
(token ListOpen >>= (fun _ -> sep (token Comma) (json()) >>= fun vs -> opt (token Comma) >> token ListClose >>
return @@ Array vs))
<|>
(token TTrue >> return (Bool true))
<|>
(token TFalse >> return (Bool false))
<|>
(token TNull >> return Null)
<|>
(json_string >>= fun s -> return @@ String s)
<|>
(json_number >>= fun x -> return @@ Number x)
end
let parse_ch ch = run_ch (json()) ch
let parse s = run_string (json()) s
let parse_function f = run_function (json()) f