guix-kreyren/guix/build/json.scm

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;;;; json.scm --- JSON reader/writer
;;;; Copyright (C) 2015 Free Software Foundation, Inc.
;;;;
;;;; This library is free software; you can redistribute it and/or
;;;; modify it under the terms of the GNU Lesser General Public
;;;; License as published by the Free Software Foundation; either
;;;; version 3 of the License, or (at your option) any later version.
;;;;
;;;; This library 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
;;;; Lesser General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU Lesser General Public
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
;;;;
(define-module (guix build json) ;; originally (ice-9 json)
#:use-module (ice-9 match)
#:export (read-json write-json))
;; Snarfed from
;; https://github.com/cwebber/activitystuff/blob/master/activitystuff/contrib/json.scm
;;
;;;
;;; Reader
;;;
(define (json-error port)
(throw 'json-error port))
(define (assert-char port char)
"Read a character from PORT and throw an invalid JSON error if the
character is not CHAR."
(unless (eqv? (read-char port) char)
(json-error port)))
(define (whitespace? char)
"Return #t if CHAR is a whitespace character."
(char-set-contains? char-set:whitespace char))
(define (consume-whitespace port)
"Discard characters from PORT until a non-whitespace character is
encountered.."
(match (peek-char port)
((? eof-object?) *unspecified*)
((? whitespace?)
(read-char port)
(consume-whitespace port))
(_ *unspecified*)))
(define (make-keyword-reader keyword value)
"Parse the keyword symbol KEYWORD as VALUE."
(let ((str (symbol->string keyword)))
(lambda (port)
(let loop ((i 0))
(cond
((= i (string-length str)) value)
((eqv? (string-ref str i) (read-char port))
(loop (1+ i)))
(else (json-error port)))))))
(define read-true (make-keyword-reader 'true #t))
(define read-false (make-keyword-reader 'false #f))
(define read-null (make-keyword-reader 'null #nil))
(define (read-hex-digit port)
"Read a hexadecimal digit from PORT."
(match (read-char port)
(#\0 0)
(#\1 1)
(#\2 2)
(#\3 3)
(#\4 4)
(#\5 5)
(#\6 6)
(#\7 7)
(#\8 8)
(#\9 9)
((or #\A #\a) 10)
((or #\B #\b) 11)
((or #\C #\c) 12)
((or #\D #\d) 13)
((or #\E #\e) 14)
((or #\F #\f) 15)
(_ (json-error port))))
(define (read-utf16-character port)
"Read a hexadecimal encoded UTF-16 character from PORT."
(integer->char
(+ (* (read-hex-digit port) (expt 16 3))
(* (read-hex-digit port) (expt 16 2))
(* (read-hex-digit port) 16)
(read-hex-digit port))))
(define (read-escape-character port)
"Read escape character from PORT."
(match (read-char port)
(#\" #\")
(#\\ #\\)
(#\/ #\/)
(#\b #\backspace)
(#\f #\page)
(#\n #\newline)
(#\r #\return)
(#\t #\tab)
(#\u (read-utf16-character port))
(_ (json-error port))))
(define (read-string port)
"Read a JSON encoded string from PORT."
(assert-char port #\")
(let loop ((result '()))
(match (read-char port)
((? eof-object?) (json-error port))
(#\" (list->string (reverse result)))
(#\\ (loop (cons (read-escape-character port) result)))
(char (loop (cons char result))))))
(define char-set:json-digit
(char-set #\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9))
(define (digit? char)
(char-set-contains? char-set:json-digit char))
(define (read-digit port)
"Read a digit 0-9 from PORT."
(match (read-char port)
(#\0 0)
(#\1 1)
(#\2 2)
(#\3 3)
(#\4 4)
(#\5 5)
(#\6 6)
(#\7 7)
(#\8 8)
(#\9 9)
(else (json-error port))))
(define (read-digits port)
"Read a sequence of digits from PORT."
(let loop ((result '()))
(match (peek-char port)
((? eof-object?)
(reverse result))
((? digit?)
(loop (cons (read-digit port) result)))
(else (reverse result)))))
(define (list->integer digits)
"Convert the list DIGITS to an integer."
(let loop ((i (1- (length digits)))
(result 0)
(digits digits))
(match digits
(() result)
((n . tail)
(loop (1- i)
(+ result (* n (expt 10 i)))
tail)))))
(define (read-positive-integer port)
"Read a positive integer with no leading zeroes from PORT."
(match (read-digits port)
((0 . _)
(json-error port)) ; no leading zeroes allowed
((digits ...)
(list->integer digits))))
(define (read-exponent port)
"Read exponent from PORT."
(define (read-expt)
(list->integer (read-digits port)))
(unless (memv (read-char port) '(#\e #\E))
(json-error port))
(match (peek-char port)
((? eof-object?)
(json-error port))
(#\-
(read-char port)
(- (read-expt)))
(#\+
(read-char port)
(read-expt))
((? digit?)
(read-expt))
(_ (json-error port))))
(define (read-fraction port)
"Read fractional number part from PORT as an inexact number."
(let* ((digits (read-digits port))
(numerator (list->integer digits))
(denomenator (expt 10 (length digits))))
(/ numerator denomenator)))
(define (read-positive-number port)
"Read a positive number from PORT."
(let* ((integer (match (peek-char port)
((? eof-object?)
(json-error port))
(#\0
(read-char port)
0)
((? digit?)
(read-positive-integer port))
(_ (json-error port))))
(fraction (match (peek-char port)
(#\.
(read-char port)
(read-fraction port))
(_ 0)))
(exponent (match (peek-char port)
((or #\e #\E)
(read-exponent port))
(_ 0)))
(n (* (+ integer fraction) (expt 10 exponent))))
;; Keep integers as exact numbers, but convert numbers encoded as
;; floating point numbers to an inexact representation.
(if (zero? fraction)
n
(exact->inexact n))))
(define (read-number port)
"Read a number from PORT"
(match (peek-char port)
((? eof-object?)
(json-error port))
(#\-
(read-char port)
(- (read-positive-number port)))
((? digit?)
(read-positive-number port))
(_ (json-error port))))
(define (read-object port)
"Read key/value map from PORT."
(define (read-key+value-pair)
(let ((key (read-string port)))
(consume-whitespace port)
(assert-char port #\:)
(consume-whitespace port)
(let ((value (read-value port)))
(cons key value))))
(assert-char port #\{)
(consume-whitespace port)
(if (eqv? #\} (peek-char port))
(begin
(read-char port)
'(@)) ; empty object
(let loop ((result (list (read-key+value-pair))))
(consume-whitespace port)
(match (peek-char port)
(#\, ; read another value
(read-char port)
(consume-whitespace port)
(loop (cons (read-key+value-pair) result)))
(#\} ; end of object
(read-char port)
(cons '@ (reverse result)))
(_ (json-error port))))))
(define (read-array port)
"Read array from PORT."
(assert-char port #\[)
(consume-whitespace port)
(if (eqv? #\] (peek-char port))
(begin
(read-char port)
'()) ; empty array
(let loop ((result (list (read-value port))))
(consume-whitespace port)
(match (peek-char port)
(#\, ; read another value
(read-char port)
(consume-whitespace port)
(loop (cons (read-value port) result)))
(#\] ; end of array
(read-char port)
(reverse result))
(_ (json-error port))))))
(define (read-value port)
"Read a JSON value from PORT."
(consume-whitespace port)
(match (peek-char port)
((? eof-object?) (json-error port))
(#\" (read-string port))
(#\{ (read-object port))
(#\[ (read-array port))
(#\t (read-true port))
(#\f (read-false port))
(#\n (read-null port))
((or #\- (? digit?))
(read-number port))
(_ (json-error port))))
(define (read-json port)
"Read JSON text from port and return an s-expression representation."
(let ((result (read-value port)))
(consume-whitespace port)
(unless (eof-object? (peek-char port))
(json-error port))
result))
;;;
;;; Writer
;;;
(define (write-string str port)
"Write STR to PORT in JSON string format."
(define (escape-char char)
(display (match char
(#\" "\\\"")
(#\\ "\\\\")
(#\/ "\\/")
(#\backspace "\\b")
(#\page "\\f")
(#\newline "\\n")
(#\return "\\r")
(#\tab "\\t")
(_ char))
port))
(display "\"" port)
(string-for-each escape-char str)
(display "\"" port))
(define (write-object alist port)
"Write ALIST to PORT in JSON object format."
;; Keys may be strings or symbols.
(define key->string
(match-lambda
((? string? key) key)
((? symbol? key) (symbol->string key))))
(define (write-pair pair)
(match pair
((key . value)
(write-string (key->string key) port)
(display ":" port)
(write-json value port))))
(display "{" port)
(match alist
(() #f)
((front ... end)
(for-each (lambda (pair)
(write-pair pair)
(display "," port))
front)
(write-pair end)))
(display "}" port))
(define (write-array lst port)
"Write LST to PORT in JSON array format."
(display "[" port)
(match lst
(() #f)
((front ... end)
(for-each (lambda (val)
(write-json val port)
(display "," port))
front)
(write-json end port)))
(display "]" port))
(define (write-json exp port)
"Write EXP to PORT in JSON format."
(match exp
(#t (display "true" port))
(#f (display "false" port))
;; Differentiate #nil from '().
((and (? boolean? ) #nil) (display "null" port))
((? string? s) (write-string s port))
((? real? n) (display n port))
(('@ . alist) (write-object alist port))
((vals ...) (write-array vals port))))