lilypond-common-includes/json_parser.scm

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;;; (json parser) --- Guile JSON implementation.
;; Copyright (C) 2013-2020 Aleix Conchillo Flaque <aconchillo@gmail.com>
;;
;; This file is part of guile-json.
;;
;; guile-json is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3 of the License, or
;; (at your option) any later version.
;;
;; guile-json is distributed in the hope that it will be useful, but
;; WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;; General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with guile-json. If not, see https://www.gnu.org/licenses/.
;;; Commentary:
;; JSON module for Guile
;;; Code:
(define-module (json parser)
#:use-module (ice-9 rdelim)
#:use-module (ice-9 streams)
#:use-module (rnrs io ports)
#:export (json->scm
json-string->scm
json-seq->scm
json-seq-string->scm))
;;
;; Miscellaneuos helpers
;;
(define (json-exception port)
(throw 'json-invalid port))
(define (digit? c)
(case c
((#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9) #t)
(else #f)))
(define (whitespace? c)
(case c
((#\sp #\ht #\lf #\cr) #t)
(else #f)))
(define (control-char? ch)
(<= (char->integer ch) #x1F))
(define (skip-whitespaces port)
(let ((ch (peek-char port)))
(cond
((whitespace? ch)
(read-char port)
(skip-whitespaces port))
(else *unspecified*))))
(define (expect-string port expected return)
(let loop ((n 0))
(cond
;; All characters match.
((= n (string-length expected)) return)
;; Go to next characters.
((eqv? (read-char port) (string-ref expected n))
(loop (+ n 1)))
;; Anything else is an error.
(else (json-exception port)))))
(define (expect-delimiter port delimiter)
(let ((ch (read-char port)))
(cond
((not (eqv? ch delimiter)) (json-exception port))
;; Unexpected EOF.
((eof-object? ch) (json-exception port)))))
(define (skip-record-separators port)
(when (eqv? #\rs (peek-char port))
(read-char port)
(skip-record-separators port)))
;;
;; Number parsing helpers
;;
(define (expect-digit port)
(let ((ch (peek-char port)))
(cond
((not (digit? ch)) (json-exception port))
;; Unexpected EOF.
((eof-object? ch) (json-exception port)))))
;; Read + or -, and return 1 or -1 respectively. If something different is
;; found, return 1.
(define (read-sign port)
(let ((ch (peek-char port)))
(cond
((eqv? ch #\+)
(read-char port)
1)
((eqv? ch #\-)
(read-char port)
-1)
(else 1))))
(define (read-digit-value port)
(let ((ch (read-char port)))
(cond
((eqv? ch #\0) 0)
((eqv? ch #\1) 1)
((eqv? ch #\2) 2)
((eqv? ch #\3) 3)
((eqv? ch #\4) 4)
((eqv? ch #\5) 5)
((eqv? ch #\6) 6)
((eqv? ch #\7) 7)
((eqv? ch #\8) 8)
((eqv? ch #\9) 9)
(else (json-exception port)))))
;; Read digits [0..9].
(define (read-digits port)
(expect-digit port)
(let loop ((ch (peek-char port)) (number 0))
(cond
((digit? ch)
(let ((value (read-digit-value port)))
(loop (peek-char port) (+ (* number 10) value))))
(else number))))
(define (read-digits-fraction port)
(expect-digit port)
(let loop ((ch (peek-char port)) (number 0) (length 0))
(cond
((digit? ch)
(let ((value (read-digit-value port)))
(loop (peek-char port) (+ (* number 10) value) (+ length 1))))
(else
(/ number (expt 10 length))))))
(define (read-exponent port)
(let ((ch (peek-char port)))
(cond
((or (eqv? ch #\e) (eqv? ch #\E))
(read-char port)
(let ((sign (read-sign port))
(digits (read-digits port)))
(if (<= digits 1000) ;; Some maximum exponent.
(expt 10 (* sign digits))
(json-exception port))))
(else 1))))
(define (read-fraction port)
(let ((ch (peek-char port)))
(cond
((eqv? ch #\.)
(read-char port)
(read-digits-fraction port))
(else 0))))
(define (read-positive-number port)
(let* ((number
(let ((ch (peek-char port)))
(cond
;; Numbers that start with 0 must be a fraction.
((eqv? ch #\0)
(read-char port)
0)
;; Otherwise read more digits.
(else (read-digits port)))))
(fraction (read-fraction port))
(exponent (read-exponent port))
(result (* (+ number fraction) exponent)))
(if (and (zero? fraction) (>= exponent 1))
result
(exact->inexact result))))
(define (json-read-number port)
(let ((ch (peek-char port)))
(cond
;; Negative numbers.
((eqv? ch #\-)
(read-char port)
(expect-digit port)
(* -1 (read-positive-number port)))
;; Positive numbers.
((digit? ch)
(read-positive-number port))
;; Anything else is an error.
(else (json-exception port)))))
;;
;; Object parsing helpers
;;
(define (read-pair port null ordered)
;; Read key.
(let ((key (json-read-string port)))
(skip-whitespaces port)
(let ((ch (peek-char port)))
(cond
;; Skip colon and read value.
((eqv? ch #\:)
(read-char port)
(cons key (json-read port null ordered)))
;; Anything other than colon is an error.
(else (json-exception port))))))
(define (json-read-object port null ordered)
(expect-delimiter port #\{)
(let loop ((pairs '()) (added #t))
(skip-whitespaces port)
(let ((ch (peek-char port)))
(cond
;; End of object.
((eqv? ch #\})
(read-char port)
(cond
(added (if ordered (reverse! pairs) pairs))
(else (json-exception port))))
;; Read one pair and continue.
((eqv? ch #\")
(let ((pair (read-pair port null ordered)))
(loop (cons pair pairs) #t)))
;; Skip comma and read more pairs.
((eqv? ch #\,)
(read-char port)
(cond
(added (loop pairs #f))
(else (json-exception port))))
;; Invalid object.
(else (json-exception port))))))
;;
;; Array parsing helpers
;;
(define (json-read-array port null ordered)
(expect-delimiter port #\[)
(skip-whitespaces port)
(cond
;; Special case when array is empty.
((eqv? (peek-char port) #\])
(read-char port)
#())
(else
;; Read first element in array.
(let loop ((values (list (json-read port null ordered))))
(skip-whitespaces port)
(let ((ch (peek-char port)))
(cond
;; Unexpected EOF.
((eof-object? ch) (json-exception port))
;; Handle comma (if there's a comma there should be another element).
((eqv? ch #\,)
(read-char port)
(loop (cons (json-read port null ordered) values)))
;; End of array.
((eqv? ch #\])
(read-char port)
(list->vector (reverse! values)))
;; Anything else other than comma and end of array is wrong.
(else (json-exception port))))))))
;;
;; String parsing helpers
;;
(define (read-hex-digit->integer port)
(let ((ch (read-char port)))
(cond
((eqv? ch #\0) 0)
((eqv? ch #\1) 1)
((eqv? ch #\2) 2)
((eqv? ch #\3) 3)
((eqv? ch #\4) 4)
((eqv? ch #\5) 5)
((eqv? ch #\6) 6)
((eqv? ch #\7) 7)
((eqv? ch #\8) 8)
((eqv? ch #\9) 9)
((or (eqv? ch #\A) (eqv? ch #\a)) 10)
((or (eqv? ch #\B) (eqv? ch #\b)) 11)
((or (eqv? ch #\C) (eqv? ch #\c)) 12)
((or (eqv? ch #\D) (eqv? ch #\d)) 13)
((or (eqv? ch #\E) (eqv? ch #\e)) 14)
((or (eqv? ch #\F) (eqv? ch #\f)) 15)
(else (json-exception port)))))
(define (read-unicode-value port)
(+ (* 4096 (read-hex-digit->integer port))
(* 256 (read-hex-digit->integer port))
(* 16 (read-hex-digit->integer port))
(read-hex-digit->integer port)))
;; Unicode codepoint with surrogates is:
;; 10000 + (high - D800) + (low - DC00)
;; which is equivalent to:
;; (high << 10) + low - 35FDC00
;; see
;; https://github.com/aconchillo/guile-json/issues/58#issuecomment-662744070
(define (json-surrogate-pair->unicode high low)
(+ (* high #x400) low #x-35FDC00))
(define (read-unicode-char port)
(let ((codepoint (read-unicode-value port)))
(cond
;; Surrogate pairs. `codepoint` already contains the higher surrogate
;; (between D800 and DC00) . At this point we are expecting another
;; \uXXXX that holds the lower surrogate (between DC00 and DFFF).
((and (>= codepoint #xD800) (< codepoint #xDC00))
(expect-string port "\\u" #f)
(let ((low-surrogate (read-unicode-value port)))
(if (and (>= low-surrogate #xDC00) (< low-surrogate #xE000))
(integer->char (json-surrogate-pair->unicode codepoint low-surrogate))
(json-exception port))))
;; Reserved for surrogates (we just need to check starting from the low
;; surrogates).
((and (>= codepoint #xDC00) (< codepoint #xE000))
(json-exception port))
(else (integer->char codepoint)))))
(define (read-control-char port)
(let ((ch (read-char port)))
(cond
((eqv? ch #\") #\")
((eqv? ch #\\) #\\)
((eqv? ch #\/) #\/)
((eqv? ch #\b) #\bs)
((eqv? ch #\f) #\ff)
((eqv? ch #\n) #\lf)
((eqv? ch #\r) #\cr)
((eqv? ch #\t) #\ht)
((eqv? ch #\u) (read-unicode-char port))
(else (json-exception port)))))
(define (json-read-string port)
(expect-delimiter port #\")
(let loop ((chars '()) (ch (read-char port)))
(cond
;; Unexpected EOF.
((eof-object? ch) (json-exception port))
;; Unescaped control characters are not allowed.
((control-char? ch) (json-exception port))
;; End of string.
((eqv? ch #\") (reverse-list->string chars))
;; Escaped characters.
((eqv? ch #\\)
(loop (cons (read-control-char port) chars) (read-char port)))
;; All other characters.
(else
(loop (cons ch chars) (read-char port))))))
;;
;; Booleans and null parsing helpers
;;
(define (json-read-true port)
(expect-string port "true" #t))
(define (json-read-false port)
(expect-string port "false" #f))
(define (json-read-null port null)
(expect-string port "null" null))
;;
;; Main parser functions
;;
(define (json-read port null ordered)
(skip-whitespaces port)
(let ((ch (peek-char port)))
(cond
;; Unexpected EOF.
((eof-object? ch) (json-exception port))
;; Read JSON values.
((eqv? ch #\t) (json-read-true port))
((eqv? ch #\f) (json-read-false port))
((eqv? ch #\n) (json-read-null port null))
((eqv? ch #\{) (json-read-object port null ordered))
((eqv? ch #\[) (json-read-array port null ordered))
((eqv? ch #\") (json-read-string port))
;; Anything else should be a number.
(else (json-read-number port)))))
;;
;; Public procedures
;;
(define* (json->scm #:optional (port (current-input-port))
#:key (null 'null) (ordered #f) (concatenated #f))
"Parse a JSON document into native. Takes one optional argument,
@var{port}, which defaults to the current input port from where the JSON
document is read. It also takes a few of keyword arguments: @{null}: value for
JSON's null, it defaults to the 'null symbol, @{ordered} to indicate whether
JSON objects order should be preserved or not (the default) and @{concatenated}
which can be used to tell the parser that more JSON documents might come after a
properly parsed document."
(let loop ((value (json-read port null ordered)))
;; Skip any trailing whitespaces.
(skip-whitespaces port)
(cond
;; If we reach the end the parsing succeeded.
((eof-object? (peek-char port)) value)
;; If there's anything else other than the end, check if user wants to keep
;; parsing concatenated valid JSON documents, otherwise parser fails.
(else
(cond (concatenated value)
(else (json-exception port)))))))
(define* (json-string->scm str #:key (null 'null) (ordered #f))
"Parse a JSON document into native. Takes a string argument,
@var{str}, that contains the JSON document. It also takes a couple of keyword
argument: @{null}: value for JSON's null, it defaults to the 'null symbol and
@{ordered} to indicate whether JSON objects order should be preserved or
not (the default)."
(call-with-input-string str (lambda (p) (json->scm p #:null null #:ordered ordered))))
(define* (json-seq->scm #:optional (port (current-input-port))
#:key (null 'null) (ordered #f)
(handle-truncate 'skip) (truncated-object 'truncated))
"Lazy parse a JSON text sequence from the port @var{port}.
This procedure returns a stream of parsed documents. The optional argument
@var{port} defines the port to read from and defaults to the current input
port. It also takes a few keyword arguments: @{null}: value for JSON's null
(defaults to the 'null symbol), @{ordered} to indicate whether JSON objects
order should be preserved or not (the default), @{handle-truncate}: defines how
to handle data loss, @{truncated-object}: used to replace unparsable
objects. Allowed values for @{handle-truncate} argument are 'throw (throw an
exception), 'stop (stop parsing and end the stream), 'skip (default, skip
corrupted fragment and return the next entry), 'replace (skip corrupted fragment
and return @{truncated-object} instead)."
(letrec ((handle-truncation
(case handle-truncate
((throw) json-exception)
((stop) (const (eof-object)))
((skip)
(lambda (port)
(read-delimited "\x1e" port 'peek)
(read-entry port)))
((replace)
(lambda (port)
(read-delimited "\x1e" port 'peek)
truncated-object))))
(read-entry
(lambda (port)
(let ((ch (read-char port)))
(cond
((eof-object? ch) ch)
((not (eqv? ch #\rs))
(handle-truncation port))
(else
(skip-record-separators port)
(catch 'json-invalid
(lambda ()
(let ((next (json-read port null ordered)))
(if (eqv? #\lf (peek-char port))
(begin
(read-char port)
next)
(handle-truncation port))))
(lambda (_ port)
(handle-truncation port)))))))))
(port->stream port read-entry)))
(define* (json-seq-string->scm str #:key (null 'null) (ordered #f)
(handle-truncate 'skip) (truncated-object 'truncated))
"Lazy parse a JSON text sequence from the string @var{str}.
This procedure returns a stream of parsed documents and also takes the same
keyword arguments as @code{json-seq->scm}."
(call-with-input-string str
(lambda (p)
(json-seq->scm p #:null null #:ordered ordered
#:handle-truncate handle-truncate
#:truncated-object truncated-object))))
;;; (json parser) ends here