;;; Time-stamp: <06/01/03 14:31:05 nhw>
;;; Copyright (C) 2005 by Noel Welsh.

;;; 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 2.1 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., 59 Temple
;;; Place, Suite 330, Boston, MA 02111-1307 USA

;;; Author: Noel Welsh <>, Matt Jadud <>
;; Commentary:

(module serialise mzscheme

  (require (planet "" ("jim" "webit.plt" 1 3))
           (lib "")
           (prefix c: (lib ""))
           (only (lib "") find-seconds)
           (only (lib "") regexp-quote)
           (only (lib "" "net") base64-decode)
  (provide serialise

  (define replace-&-and-<
    (let ((amp-re (regexp (regexp-quote "&")))
          (lt-re (regexp (regexp-quote "<"))))
      (lambda (str)
        (regexp-replace* lt-re
                         (regexp-replace* amp-re str "\\&amp;")

  (define replace-entities
    (let ((amp-re (regexp (regexp-quote "&amp;")))
          (lt-re (regexp (regexp-quote "&lt;"))))
      (lambda (str)
        (regexp-replace* amp-re
                         (regexp-replace* lt-re str "<")
  (define identity
    (lambda (x) x))

  (c:define/contract encode-string-guard
    (c:-> boolean? any)
    (lambda (replace?)
      (if replace?

  (c:define/contract decode-string-guard
    (c:-> boolean? any)
    (lambda (replace?)
      (if replace?
  (define encode-string
    (make-parameter replace-&-and-< encode-string-guard))

  (define decode-string
    (make-parameter replace-entities decode-string-guard))
  ;; date->iso8601-string : date -> string
  (define (date->iso8601-string date)
    (define (pad number)
      (let ((str (number->string number)))
        (if (< (string-length str) 2)
            (string-append "0" str)
     (number->string (date-year date))
     (pad (date-month date))
     (pad (date-day date))
     (pad (date-hour date))
     (pad (date-minute date))
     (pad (date-second date))))
  ;; serialise : (U integer string boolean double date hash-table list) -> SXML
  ;; Convert the value to its XML-RPC representation
  (define (serialise val)
     [(or (eq? +nan.0 val) (eq? +inf.0 val) (eq? -inf.0 val))
      ;; note that +nan.0 = -nan.0 so we don't check this case
       (format "Given ~s to serialise to XML-RPC.  XML-RPC does not allow NaN or infinities; and so this value cannot be serialised" val))]
     [(and (number? val) (inexact? val))
      ;; If I'm correct an inexact number is represented by
      ;; a double, so this should be always in range.
      `(value (double ,(number->string val)))]
     [(integer? val)  
     ;; Integers are bound to 4-byte representations by the protocol.
      (if (and (<= val (expt 2 31))
               (>= val (- (expt 2 31))))
	  `(value (int ,(number->string val)))
	   (format "The Scheme number ~s is out of range for an XML-RPC integer" val)))]
     [(string? val)  `(value (string ,((encode-string) val)))]
     [(boolean? val) `(value (boolean ,(if val "1" "0")))]
     [(date? val) `(value (dateTime.iso8601
                           ,(date->iso8601-string val)))]
     [(hash-table? val)
     `(value (struct ,@(hash-table-map
                        (lambda (k v)
                          `(member (name ,(symbol->string k))
                                   ,(serialise v))))))]
     [(list? val)
     `(value (array (data ,@(map serialise val))))]
     [(vector? val)
      `(value (array (data ,@(map serialise (vector->list val)))))]
     [(bytes? val)
      `(value (base64 ,(base64-encode val)))]
       (format "Cannot convert Scheme value ~s to XML-RPC" val))]))

    ;; deserialise-struct : list-of-SXML -> Scheme value
  (define (deserialise-struct member*)
    (let ([h (make-hash-table)])
       (lambda (member)
         (xml-match member
           [(member (name ,name) (value ,[deserialise -> v]))
            (hash-table-put! h (string->symbol name) v)]
             (format "The XML-RPC struct data ~s is badly formed and cannot be converted to Scheme" else))]))

  ;; deserialise : sxml -> (U float boolean integer string date hash list)
  (define (deserialise val)
    (xml-match val
      [(value ,type)
        [(list? type)
         (deserialise type)]
        [(string? type)
         ;; This is the default case if not type information
         ;; is given
      [(value) ""]
      ;; Numbers
      [(int ,v) (string->number v)]
      [(i4 ,v) (string->number v)]
      [(double ,v) (string->number v)]
      ;; Strings
      [(string) ""]
      [(string ,v) ((decode-string) v)]
      ;; Booleans
      [(boolean ,v) (string=? v "1")]
      ;; Date
      [(dateTime.iso8601 ,v) 
       (let ([pieces (pregexp-match "(\\d\\d\\d\\d)(\\d\\d)(\\d\\d)T(\\d\\d):(\\d\\d):(\\d\\d)" v)])
         (if pieces
             (let-values ([(all year month day h m s)
                           (apply values (map string->number pieces))])
               (seconds->date (find-seconds s m h day month year)))
              (format "The XML-RPC date ~s is badly formatted and cannot be converted to Scheme" v))))]
      ;; B64
      [(base64 ,v)
       (base64-decode (string->bytes/utf-8 v))]
      ;; Structs
      [(struct ,member* ...)
       (deserialise-struct member*)]
      ;; Arrays
      [(array (data ,[value*] ...))
        (format "Cannot convert the XML-RPC type ~s to Scheme" else))]))