Idris2/support/racket/support.rkt

(define (blodwen-os)
  (case (system-type 'os)
    [(unix) "unix"]
    [(osx) "darwin"]
    [(windows) "windows"]
    [else "unknown"]))

(define blodwen-read-args (lambda (desc)
  (case (vector-ref desc 0)
    ((0) '())
    ((1) (cons (vector-ref desc 2)
               (blodwen-read-args (vector-ref desc 3)))))))
(define b+ (lambda (x y bits) (remainder (+ x y) (arithmetic-shift 1 bits))))
(define b- (lambda (x y bits) (remainder (- x y) (arithmetic-shift 1 bits))))
(define b* (lambda (x y bits) (remainder (* x y) (arithmetic-shift 1 bits))))
(define b/ (lambda (x y bits) (remainder (exact-floor (/ x y)) (arithmetic-shift 1 bits))))

(define integer->bits8 (lambda (x) (modulo x (expt 2 8))))
(define integer->bits16 (lambda (x) (modulo x (expt 2 16))))
(define integer->bits32 (lambda (x) (modulo x (expt 2 32))))
(define integer->bits64 (lambda (x) (modulo x (expt 2 64))))

(define bits16->bits8 (lambda (x) (modulo x (expt 2 8))))
(define bits32->bits8 (lambda (x) (modulo x (expt 2 8))))
(define bits32->bits16 (lambda (x) (modulo x (expt 2 16))))
(define bits64->bits8 (lambda (x) (modulo x (expt 2 8))))
(define bits64->bits16 (lambda (x) (modulo x (expt 2 16))))
(define bits64->bits32 (lambda (x) (modulo x (expt 2 32))))

(define blodwen-bits-shl (lambda (x y bits) (remainder (arithmetic-shift x y) (arithmetic-shift 1 bits))))
(define blodwen-shl (lambda (x y) (arithmetic-shift x y)))
(define blodwen-shr (lambda (x y) (arithmetic-shift x (- y))))
(define blodwen-and (lambda (x y) (bitwise-and x y)))
(define blodwen-or (lambda (x y) (bitwise-ior x y)))
(define blodwen-xor (lambda (x y) (bitwise-xor x y)))

(define cast-num
  (lambda (x)
    (if (number? x) x 0)))
(define destroy-prefix
  (lambda (x)
    (cond
      ((equal? x "") "")
      ((equal? (string-ref x 0) #\#) "")
      (else x))))
(define cast-string-int
  (lambda (x)
    (exact-floor (cast-num (string->number (destroy-prefix x))))))
(define cast-int-char
  (lambda (x)
    (if (and (>= x 0)
             (<= x #x10ffff))
        (integer->char x)
        0)))
(define cast-string-double
  (lambda (x)
    (cast-num (string->number (destroy-prefix x)))))
(define (from-idris-list xs)
  (if (= (vector-ref xs 0) 0)
    '()
    (cons (vector-ref xs 1) (from-idris-list (vector-ref xs 2)))))
(define (to-idris-list-rev acc xs)
  (if (null? xs)
    acc
    (to-idris-list-rev (vector 1 (car xs) acc) (cdr xs))))
(define (string-concat xs) (apply string-append (from-idris-list xs)))
(define (string-unpack s) (to-idris-list-rev (vector 0) (reverse (string->list s))))
(define (string-pack xs) (list->string (from-idris-list xs)))
(define string-cons (lambda (x y) (string-append (string x) y)))
(define get-tag (lambda (x) (vector-ref x 0)))
(define string-reverse (lambda (x)
  (list->string (reverse (string->list x)))))
(define (string-substr off len s)
    (let* ((l (string-length s))
          (b (max 0 off))
          (x (max 0 len))
          (end (min l (+ b x))))
          (substring s b end)))

(define (blodwen-string-iterator-new s)
  0)

(define (blodwen-string-iterator-to-string _ s ofs f)
  (f (substring s ofs (string-length s))))

(define (blodwen-string-iterator-next s ofs)
  (if (>= ofs (string-length s))
      (vector 0)  ; EOF
      (vector 1 (string-ref s ofs) (+ ofs 1))))

(define either-left
  (lambda (x)
    (vector 0 x)))

(define either-right
  (lambda (x)
    (vector 1 x)))

(define blodwen-error-quit
  (lambda (msg)
    (display msg)
    (newline)
    (exit 1)))

(define (blodwen-get-line p)
    (if (port? p)
        (let ((str (read-line p)))
            (if (eof-object? str)
                ""
                str))
        (void)))

(define (blodwen-get-char p)
    (if (port? p)
        (let ((chr (read-char p)))
            (if (eof-object? chr)
                #\nul
                chr))
        (void)))

;; Buffers

(define (blodwen-new-buffer size)
  (make-bytevector size 0))

(define (blodwen-buffer-size buf)
  (bytevector-length buf))

(define (blodwen-buffer-setbyte buf loc val)
  (bytevector-u8-set! buf loc val))

(define (blodwen-buffer-getbyte buf loc)
  (bytevector-u8-ref buf loc))

(define (blodwen-buffer-setbits16 buf loc val)
  (bytevector-u16-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getbits16 buf loc)
  (bytevector-u16-ref buf loc (native-endianness)))

(define (blodwen-buffer-setbits32 buf loc val)
  (bytevector-u32-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getbits32 buf loc)
  (bytevector-u32-ref buf loc (native-endianness)))

(define (blodwen-buffer-setbits64 buf loc val)
  (bytevector-u64-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getbits64 buf loc)
  (bytevector-u64-ref buf loc (native-endianness)))

(define (blodwen-buffer-setint32 buf loc val)
  (bytevector-s32-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getint32 buf loc)
  (bytevector-s32-ref buf loc (native-endianness)))

(define (blodwen-buffer-setint buf loc val)
  (bytevector-s64-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getint buf loc)
  (bytevector-s64-ref buf loc (native-endianness)))

(define (blodwen-buffer-setdouble buf loc val)
  (bytevector-ieee-double-set! buf loc val (native-endianness)))

(define (blodwen-buffer-getdouble buf loc)
  (bytevector-ieee-double-ref buf loc (native-endianness)))

(define (blodwen-stringbytelen str)
  (bytevector-length (string->utf8 str)))

(define (blodwen-buffer-setstring buf loc val)
  (let* [(strvec (string->utf8 val))
         (len (bytevector-length strvec))]
    (bytevector-copy! strvec 0 buf loc len)))

(define (blodwen-buffer-getstring buf loc len)
  (let [(newvec (make-bytevector len))]
    (bytevector-copy! buf loc newvec 0 len)
    (utf8->string newvec)))

(define (blodwen-buffer-copydata buf start len dest loc)
  (bytevector-copy! buf start dest loc len))

;; Threads

(define blodwen-thread-data (make-thread-cell #f))

(define (blodwen-thread p)
    (thread (lambda () (p (vector 0)))))

(define (blodwen-get-thread-data ty)
  (thread-cell-ref blodwen-thread-data))

(define (blodwen-set-thread-data a)
  (thread-cell-set! blodwen-thread-data a))

(define (blodwen-mutex) (make-semaphore 1))
(define (blodwen-lock m) (semaphore-post m))
(define (blodwen-unlock m) (semaphore-wait m))
(define (blodwen-thisthread) (current-thread))

(define (blodwen-condition) (make-channel))
(define (blodwen-condition-wait c m)
  (blodwen-unlock m) ;; consistency with interface for posix condition variables
  (sync c)
  (blodwen-lock m))
(define (blodwen-condition-wait-timeout c m t)
  (blodwen-unlock m) ;; consistency with interface for posix condition variables
  (sync/timeout (/ t 1000000) c)
  (blodwen-lock m))
(define (blodwen-condition-signal c)
  (channel-put c 'ready))

(define (blodwen-make-future work) (future work))
(define (blodwen-await-future ty future) (touch future))

(define (blodwen-sleep s) (sleep s))
(define (blodwen-usleep us) (sleep (* 0.000001 us)))

(define (blodwen-time) (current-seconds))

(define (blodwen-clock-time-utc) (current-time 'time-utc))
(define (blodwen-clock-time-monotonic) (current-time 'time-monotonic))
(define (blodwen-clock-time-duration) (current-time 'time-duration))
(define (blodwen-clock-time-process) (current-time 'time-process))
(define (blodwen-clock-time-thread) (current-time 'time-thread))
(define (blodwen-clock-time-gccpu) 0) ;; unsupported
(define (blodwen-clock-time-gcreal) 0) ;; unsupported
(define (blodwen-is-time? clk) (if (time? clk) 1 0))
(define (blodwen-clock-second time) (time-second time))
(define (blodwen-clock-nanosecond time) (time-nanosecond time))

(define (blodwen-args)
  (define (blodwen-build-args args)
    (if (null? args)
        (vector 0) ; Prelude.List
        (vector 1 (car args) (blodwen-build-args (cdr args)))))
    (blodwen-build-args
      (cons (path->string (find-system-path 'run-file))
            (vector->list (current-command-line-arguments)))))

(define (blodwen-system cmd)
  (if (system cmd)
      0
      1))

;; Randoms
(random-seed (date*-nanosecond (current-date))) ; initialize random seed

(define (blodwen-random-seed s) (random-seed s))
(define blodwen-random
  (case-lambda
    ;; no argument, pick a real value from [0, 1.0)
    [() (random)]
    ;; single argument k, pick an integral value from [0, k)
    [(k) (if (> k 0)
           (random k)
           (raise 'blodwen-random-invalid-range-argument))]))

;; For finalisers

(define (blodwen-register-object obj proc)
   (register-finalizer obj (lambda (ptr) ((proc ptr) 'erased)))
   obj)