#lang restructure/racket (require "stream.rkt" "sizes.rkt" (for-syntax "sizes.rkt" racket/match)) (provide (all-defined-out)) #| approximates https://github.com/mbutterick/restructure/blob/master/src/Number.coffee |# (define (ends-with-8? type) (define str (symbol->string type)) (equal? (substring str (sub1 (string-length str))) "8")) (define (signed-type? type) (not (equal? "U" (substring (symbol->string type) 0 1)))) (test-module (check-false (signed-type? 'UInt16)) (check-true (signed-type? 'Int16))) (define-subclass Streamcoder (Number [type 'UInt16] [endian (if (system-big-endian?) 'BE 'LE)]) (getter-field [number-type (string->symbol (format "~a~a" type (if (ends-with-8? type) "" endian)))]) ;; `get-type-size` will raise error if number-type is invalid: use this as check of input ;; size of a number doesn't change, so we can stash it as `_size` (define _size (with-handlers ([exn:fail:contract? (λ (exn) (raise-argument-error 'Number "valid type and endian" (format "~v ~v" type endian)))]) (get-type-size number-type))) (define/override (size . args) _size) (define/augment (decode stream . args) (define bstr (send stream read _size)) (if (= 1 _size) (bytes-ref bstr 0) (integer-bytes->integer bstr (signed-type? type) (eq? endian 'BE)))) (define/augment (encode stream val-in) (define val (if (integer? val-in) (inexact->exact val-in) val-in)) ;; todo: better bounds checking #;(unless (<= (if (negative? val) (abs (* 2 val)) val) (expt 2 (* 8 _size))) (raise-argument-error 'Number:encode (format "integer that fits in ~a byte(s)" _size) val)) (define bstr (if (= 1 _size) (bytes val) (integer->integer-bytes val _size (signed-type? type) (eq? endian 'BE)))) (send stream write bstr))) (test-module (check-exn exn:fail:contract? (λ () (+Number 'not-a-valid-type))) (check-exn exn:fail:contract? (λ () (send uint8 encode (+EncodeStream) 256))) (check-not-exn (λ () (send uint8 encode (+EncodeStream) 255))) (check-exn exn:fail:contract? (λ () (send uint16 encode (+EncodeStream) (add1 #xffff)))) (check-not-exn (λ () (send uint16 encode (+EncodeStream) #xffff))) (let ([o (+Number 'UInt16 'LE)] [ip (+DecodeStream (bytes 1 2 3 4))] [op (open-output-bytes)]) (check-equal? (send o decode ip) 513) ;; 1000 0000 0100 0000 (check-equal? (send o decode ip) 1027) ;; 1100 0000 0010 0000 (send o encode op 513) (check-equal? (get-output-bytes op) (bytes 1 2)) (send o encode op 1027) (check-equal? (get-output-bytes op) (bytes 1 2 3 4))) (let ([o (+Number 'UInt16 'BE)] [ip (+DecodeStream (bytes 1 2 3 4))] [op (open-output-bytes)]) (check-equal? (send o decode ip) 258) ;; 0100 0000 1000 0000 (check-equal? (send o decode ip) 772) ;; 0010 0000 1100 0000 (send o encode op 258) (check-equal? (get-output-bytes op) (bytes 1 2)) (send o encode op 772) (check-equal? (get-output-bytes op) (bytes 1 2 3 4)))) (test-module (check-equal? (send (+Number 'UInt8) size) 1) (check-equal? (send (+Number) size) 2) (check-equal? (send (+Number 'UInt32) size) 4) (check-equal? (send (+Number 'Double) size) 8)) ;; use keys of type-sizes hash to generate corresponding number definitions (define-macro (make-int-types) (with-pattern ([((ID BASE ENDIAN) ...) (for/list ([k (in-hash-keys type-sizes)]) (define kstr (format "~a" k)) (match-define (list* prefix suffix _) (regexp-split #rx"(?=[BL]E|$)" kstr)) (map string->symbol (list (string-downcase kstr) prefix (if (positive? (string-length suffix)) suffix (if (system-big-endian?) "BE" "LE")))))] [(ID ...) (suffix-id #'(ID ...) #:context caller-stx)]) #'(begin (define+provide ID (make-object Number 'BASE 'ENDIAN)) ...))) (make-int-types) (test-module (check-equal? (send uint8 size) 1) (check-equal? (send uint16 size) 2) (check-equal? (send uint32 size) 4) (check-equal? (send double size) 8))