(define (blodwen-os) (case (machine-type) [(i3le ti3le a6le ta6le) "unix"] [(i3osx ti3osx a6osx ta6osx) "darwin"] [(i3nt ti3nt a6nt ta6nt) "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) (expt 2 bits)))) (define b- (lambda (x y bits) (remainder (- x y) (expt 2 bits)))) (define b* (lambda (x y bits) (remainder (* x y) (expt 2 bits)))) (define b/ (lambda (x y bits) (remainder (exact-floor (/ x y)) (expt 2 bits)))) (define blodwen-shl (lambda (x y) (ash x y))) (define blodwen-shr (lambda (x y) (ash x (- y)))) (define blodwen-and (lambda (x y) (logand x y))) (define blodwen-or (lambda (x y) (logor x y))) (define blodwen-xor (lambda (x y) (logxor 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) (floor (cast-num (string->number (destroy-prefix x)))))) (define exact-floor (lambda (x) (inexact->exact (floor x)))) (define cast-string-double (lambda (x) (cast-num (string->number (destroy-prefix x))))) (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)))) (if (> b l) "" (substring s b end)))) (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 (get-line p))) (if (eof-object? str) "" str)) void)) (define (blodwen-get-char p) (if (port? p) (let ((chr (get-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-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-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-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)) (define (blodwen-read-bytevec fname) (guard (x (#t #f)) (let* [(h (open-file-input-port fname (file-options) (buffer-mode line) #f)) (vec (get-bytevector-all h))] (begin (close-port h) vec)))) (define (blodwen-isbytevec v) (if (bytevector? v) 0 -1)) (define (blodwen-write-bytevec fname vec max) (guard (x (#t -1)) (let* [(h (open-file-output-port fname (file-options no-fail) (buffer-mode line) #f))] (begin (put-bytevector h vec 0 max) (close-port h) 0)))) ;; Threads (define blodwen-thread-data (make-thread-parameter #f)) (define (blodwen-thread p) (fork-thread (lambda () (p (vector 0))))) (define (blodwen-get-thread-data ty) (blodwen-thread-data)) (define (blodwen-set-thread-data a) (blodwen-thread-data a)) (define (blodwen-mutex) (make-mutex)) (define (blodwen-lock m) (mutex-acquire m)) (define (blodwen-unlock m) (mutex-release m)) (define (blodwen-thisthread) (get-thread-id)) (define (blodwen-condition) (make-condition)) (define (blodwen-condition-wait c m) (condition-wait c m)) (define (blodwen-condition-wait-timeout c m t) (condition-wait c m t)) (define (blodwen-condition-signal c) (condition-signal c)) (define (blodwen-condition-broadcast c) (condition-broadcast c)) (define (blodwen-sleep s) (sleep (make-time 'time-duration 0 s))) (define (blodwen-usleep s) (let ((sec (div s 1000000)) (micro (mod s 1000000))) (sleep (make-time 'time-duration (* 1000 micro) sec)))) (define (blodwen-time) (time-second (current-time))) (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) (current-time 'time-collector-cpu)) (define (blodwen-clock-time-gcreal) (current-time 'time-collector-real)) (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 (command-line))) (define (blodwen-hasenv var) (if (eq? (getenv var) #f) 0 1)) (define (blodwen-system cmd) (system cmd)) ;; Randoms (define random-seed-register 0) (define (initialize-random-seed-once) (if (= (virtual-register random-seed-register) 0) (let ([seed (time-nanosecond (current-time))]) (set-virtual-register! random-seed-register seed) (random-seed seed)))) (define (blodwen-random-seed seed) (set-virtual-register! random-seed-register seed) (random-seed seed)) (define blodwen-random (case-lambda ;; no argument, pick a real value from [0, 1.0) [() (begin (initialize-random-seed-once) (random 1.0))] ;; single argument k, pick an integral value from [0, k) [(k) (begin (initialize-random-seed-once) (if (> k 0) (random k) (assertion-violationf 'blodwen-random "invalid range argument ~a" k)))]))