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reverted to the C-backend, because the racket version of libao-async just keeps stuttering on linux

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This commit is contained in:
Hans Dijkema
2026-05-04 11:25:32 +02:00
parent d06d829f6a
commit 007f18061a
6 changed files with 80 additions and 591 deletions
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flac-decoder.rkt
+1 -1
View File
@@ -96,7 +96,7 @@
(for ([channel (in-range channels)]) (for ([channel (in-range channels)])
(let* ([chan (ptr-ref buffer _pointer channel)] (let* ([chan (ptr-ref buffer _pointer channel)]
[sample (ptr-ref chan _int32 k)]) [sample (ptr-ref chan _int32 k)])
(integer->integer-bytes sample bytes #t big? bs out-pos) (integer->int-bytes sample bytes #t big? bs out-pos)
(set! out-pos (+ out-pos bytes))))) (set! out-pos (+ out-pos bytes)))))
;(memcpy out bs buf-size) ;(memcpy out bs buf-size)
libao-async-ffi-racket.rkt
+8 -559
View File
@@ -59,11 +59,11 @@
(define libao (define libao
(get-lib (list (case (system-type 'os) (get-lib (list (case (system-type 'os)
[(windows) "libao-1.2.2"] [(windows) "libao-1.2.2"]
[else "ao"])) '(#f))) [else "libao"])) '(#f)))
(define-ffi-definer define-ao libao) (define-ffi-definer define-ao libao)
(define _ao-device (_cpointer 'ao-device)) (define _ao-device (_cpointer/null 'ao-device))
(define _ao-option (_cpointer/null 'ao-option)) (define _ao-option (_cpointer/null 'ao-option))
(define-cstruct _ao_sample_format (define-cstruct _ao_sample_format
@@ -87,7 +87,7 @@
(define-ao ao_play (define-ao ao_play
;(_fun #:blocking? #t _ao-device _pointer _uint32 -> _int)) ;(_fun #:blocking? #t _ao-device _pointer _uint32 -> _int))
;(_fun _ao-device _pointer _uint32 -> _int)) ;(_fun _ao-device _pointer _uint32 -> _int))
(_fun _ao-device _bytes _uint32 -> _int)) (_fun #:blocking? #t _ao-device _bytes _uint32 -> _int))
;; ------------------------------------------------------------------------- ;; -------------------------------------------------------------------------
;; Mutex stuff ;; Mutex stuff
@@ -209,113 +209,7 @@
;;; Volume ;;; Volume
#|
(define (adjust-volume h buf buf-size volume-in-10000)
(let* ((bytes-per-sample (ao-handle-dev-bits-per-sample h))
(endianness (ao-handle-dev-endianness h))
(i 0)
(sample 0)
(sample32 #f)
(k 0)
(little-endian (if (eq? endianness 'little-endian)
#t
(if (eq? endianness 'native-endian)
(system-little-endian?)
#f)))
)
(while (< i buf-size)
(if little-endian
(begin
(set! sample (if (> (ptr-ref buf _uint8 (- i 1)) 127)
-1
0))
(set! k (- (+ bytes-per-sample i) 1))
(while (>= k i)
(set! sample (bitwise-ior (arithmetic-shift sample 8)
(ptr-ref buf _uint8 k)))
(set! k (- k 1)))
)
(begin
(set! sample (if (> (ptr-ref buf _uint8 i) 127)
-1
0))
(set! k i)
(while (< k (+ i bytes-per-sample))
(set! sample (bitwise-ior (arithmetic-shift sample 8)
(ptr-ref buf _uint8 k)))
(set! k (+ k 1)))
))
(set! sample (round (inexact->exact (/ (* sample volume-in-10000) 10000))))
(set! sample32 (integer->integer-bytes sample 4 #f (not little-endian)))
(set! k 0)
(while (< k bytes-per-sample)
(ptr-set! buf _uint8 (+ i k) (bytes-ref sample32 k))
(set! k (+ k 1)))
(set! i (+ i bytes-per-sample))
)
)
)
|#
#|
(define (adjust-volume h buf buf-size volume-in-10000)
(let* ((bits (ao-handle-dev-bits-per-sample h))
(bytes-per-sample (arithmetic-shift bits -3))
(endianness (ao-handle-dev-endianness h))
(little-endian? (if (eq? endianness 'little-endian)
#t
(if (eq? endianness 'native-endian)
(system-little-endian?)
#f)))
(sample 0)
)
(for ([i (in-range 0 buf-size bytes-per-sample)])
;; read signed sample
(set! sample
(if little-endian?
(let ([last (+ i bytes-per-sample -1)])
(let loop ([k last]
[s (if (> (ptr-ref buf _uint8 last) 127) -1 0)])
(if (< k i)
s
(loop (sub1 k)
(bitwise-ior
(arithmetic-shift s 8)
(ptr-ref buf _uint8 k))))))
(let ([first i])
(let loop ([k first]
[s (if (> (ptr-ref buf _uint8 first) 127) -1 0)])
(if (= k (+ i bytes-per-sample))
s
(loop (add1 k)
(bitwise-ior
(arithmetic-shift s 8)
(ptr-ref buf _uint8 k))))))))
;; scale
(set! sample (quotient (* sample volume-in-10000) 10000))
;; write signed sample back
(if little-endian?
(let loop ([k i]
[s sample])
(unless (= k (+ i bytes-per-sample))
(ptr-set! buf _uint8 k (bitwise-and s #xff))
(loop (add1 k) (arithmetic-shift s -8))))
(let loop ([k (+ i bytes-per-sample -1)]
[s sample])
(unless (< k i)
(ptr-set! buf _uint8 k (bitwise-and s #xff))
(loop (sub1 k) (arithmetic-shift s -8))))))
)
#t
)
|#
(define (adjust-volume h bs buf-size volume-in-10000) (define (adjust-volume h bs buf-size volume-in-10000)
;; bs: bytes ;; bs: bytes
@@ -327,11 +221,11 @@
(unless (= volume-in-10000 10000) (unless (= volume-in-10000 10000)
(for ([i (in-range 0 buf-size bytes-per-sample)]) (for ([i (in-range 0 buf-size bytes-per-sample)])
(let* ([sample (integer-bytes->integer bs #t big? (let* ([sample (int-bytes->integer bs #t big?
i i
(+ i bytes-per-sample))] (+ i bytes-per-sample))]
[scaled (quotient (* sample volume-in-10000) 10000)]) [scaled (quotient (* sample volume-in-10000) 10000)])
(integer->integer-bytes scaled (integer->int-bytes scaled
bytes-per-sample bytes-per-sample
#t #t
big? big?
@@ -342,49 +236,6 @@
;;; planar -> intereleaved ;;; planar -> intereleaved
#|
(define (planar-to-interleaved mem buf-size info)
(let* ([type (buffer-info-type info)]
[bits (buffer-info-sample-bits info)]
[channels (buffer-info-channels info)]
[bytes (arithmetic-shift bits -3)]
[out-size buf-size]
[mem-out (malloc out-size 'atomic)])
(unless (or (eq? type 'planar) (eq? type 'flac))
(error (format "expected planar buffer, got: ~a" type)))
(unless (zero? (remainder buf-size (* channels bytes)))
(error (format "buffer size ~a is not aligned to ~a channels of ~a-bit samples"
buf-size channels bits)))
(let* ([samples-total (quotient buf-size bytes)]
[samples-per-channel (quotient samples-total channels)]
[plane-size (* samples-per-channel bytes)])
(dbg-sound "~a ~a ~a ~a ~a" bits bytes buf-size samples-total samples-per-channel)
;; Input:
;; C0[0] C0[1] ... C0[n]
;; C1[0] C1[1] ... C1[n]
;;
;; Output:
;; C0[0] C1[0] ... Ck[0]
;; C0[1] C1[1] ... Ck[1]
;;
(for ([sample-index (in-range samples-per-channel)])
(for ([channel (in-range channels)])
(let* ([in-pos (+ (* channel plane-size)
(* sample-index bytes))]
[out-pos (* (+ (* sample-index channels)
channel)
bytes)])
(for ([b (in-range bytes)])
(ptr-set! mem-out _uint8 (+ out-pos b)
(ptr-ref mem _uint8 (+ in-pos b)))))))
(list mem-out out-size))))
|#
(define (planar-to-interleaved mem buf-size info) (define (planar-to-interleaved mem buf-size info)
;; mem: bytes ;; mem: bytes
@@ -420,54 +271,6 @@
;;; requested bits to device bits ;;; requested bits to device bits
#|
(define (convert-bits buf buf-size in-bits in-endianness out-bits out-endianness)
(let* ([in-bytes (arithmetic-shift in-bits -3)]
[out-bytes (arithmetic-shift out-bits -3)]
[samples (quotient buf-size in-bytes)]
[out-size (* samples out-bytes)]
[out-buf (malloc out-size 'atomic)]
[shift (- out-bits in-bits)]
[in-little? (is-little-endian? in-endianness)]
[out-little? (is-little-endian? out-endianness)])
(for ([n (in-range samples)])
(let* ([in-pos (* n in-bytes)]
[out-pos (* n out-bytes)]
[sample
(if in-little?
(let* ([last (+ in-pos in-bytes -1)]
[sign (if (> (ptr-ref buf _uint8 last) 127) -1 0)])
(let loop ([k last] [s sign])
(if (< k in-pos)
s
(loop (sub1 k)
(bitwise-ior
(arithmetic-shift s 8)
(ptr-ref buf _uint8 k))))))
(let* ([first in-pos]
[sign (if (> (ptr-ref buf _uint8 first) 127) -1 0)])
(let loop ([k first] [s sign])
(if (= k (+ in-pos in-bytes))
s
(loop (add1 k)
(bitwise-ior
(arithmetic-shift s 8)
(ptr-ref buf _uint8 k)))))))]
[converted (arithmetic-shift sample shift)])
(if out-little?
(let loop ([k out-pos] [s converted])
(unless (= k (+ out-pos out-bytes))
(ptr-set! out-buf _uint8 k (bitwise-and s #xff))
(loop (add1 k) (arithmetic-shift s -8))))
(let loop ([k (+ out-pos out-bytes -1)] [s converted])
(unless (< k out-pos)
(ptr-set! out-buf _uint8 k (bitwise-and s #xff))
(loop (sub1 k) (arithmetic-shift s -8)))))))
(list out-buf out-size)))
|#
(define (convert-bits buf buf-size in-bits in-endianness out-bits out-endianness) (define (convert-bits buf buf-size in-bits in-endianness out-bits out-endianness)
;; buf: bytes ;; buf: bytes
@@ -485,34 +288,16 @@
(for ([n (in-range samples)]) (for ([n (in-range samples)])
(let* ([in-pos (* n in-bytes)] (let* ([in-pos (* n in-bytes)]
[out-pos (* n out-bytes)] [out-pos (* n out-bytes)]
[sample (integer-bytes->integer [sample (int-bytes->integer buf #t in-big? in-pos (+ in-pos in-bytes))]
buf #t in-big?
in-pos
(+ in-pos in-bytes))]
[converted (arithmetic-shift sample shift)]) [converted (arithmetic-shift sample shift)])
(integer->integer-bytes converted (integer->int-bytes converted out-bytes #t out-big? out out-pos)))
out-bytes
#t
out-big?
out
out-pos)))
(list out out-size))) (list out out-size)))
(define (convert-req-bits-to-dev-bits h mem buf-size info) (define (convert-req-bits-to-dev-bits h mem buf-size info)
(if (and (= (buffer-info-sample-bits info) (ao-handle-dev-bits-per-sample h)) (if (and (= (buffer-info-sample-bits info) (ao-handle-dev-bits-per-sample h))
(endian-eq? (buffer-info-endianness info) (ao-handle-dev-endianness h))) (endian-eq? (buffer-info-endianness info) (ao-handle-dev-endianness h)))
(list mem buf-size) (list mem buf-size)
(begin
(dbg-sound "Converting info bits to dev bits: ~a ~a ~a ~a"
(buffer-info-sample-bits info)
(ao-handle-dev-bits-per-sample h)
(buffer-info-endianness info)
(ao-handle-dev-endianness h)
)
(convert-bits mem buf-size (convert-bits mem buf-size
(buffer-info-sample-bits info) (buffer-info-sample-bits info)
(buffer-info-endianness info) (buffer-info-endianness info)
@@ -521,7 +306,6 @@
) )
) )
) )
)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ASync player ;; ASync player
@@ -612,6 +396,7 @@
(set! i n) (set! i n)
) )
) )
(set! i (+ i 1))
) )
) )
@@ -775,339 +560,3 @@
(define (ao_real_output_bits_async h) (define (ao_real_output_bits_async h)
(ao-handle-dev-bits-per-sample h)) (ao-handle-dev-bits-per-sample h))
#|
(define initialized? #f)
(define (ensure-ao-initialized!)
(unless initialized?
(ao_initialize)
(set! initialized? #t)))
;; -------------------------------------------------------------------------
;; Async player state.
(struct play-frame (command music-id at-second music-duration data) #:transparent)
(struct ao-async-handle
(device
requested-bits
device-bits
byte-format
channels
rate
queue
sema
lock
worker
paused-sema
paused-box
stopped-box
at-second-box
music-duration-box
at-music-id-box
buf-size-box
volume-box)
#:mutable)
(define (with-lock l thunk)
(call-with-semaphore l thunk))
(define (box-set-under-lock! h b v)
(with-lock (ao-async-handle-lock h)
(lambda () (set-box! b v))))
(define (box-ref-under-lock h b)
(with-lock (ao-async-handle-lock h)
(lambda () (unbox b))))
(define (enqueue! h frame)
(with-lock (ao-async-handle-lock h)
(lambda ()
(let ([q (ao-async-handle-queue h)]
[n (bytes-length (play-frame-data frame))])
(q:enqueue! q frame)
(set-box! (ao-async-handle-buf-size-box h)
(+ (unbox (ao-async-handle-buf-size-box h)) n)))))
(semaphore-post (ao-async-handle-sema h)))
(define (dequeue/timeout h timeout-ms)
(and (sync/timeout (/ timeout-ms 1000.0) (ao-async-handle-sema h))
(with-lock (ao-async-handle-lock h)
(lambda ()
(let ([q (ao-async-handle-queue h)])
(and (not (q:queue-empty? q))
(let ([frame (q:dequeue! q)])
(set-box! (ao-async-handle-buf-size-box h)
(max 0 (- (unbox (ao-async-handle-buf-size-box h))
(bytes-length (play-frame-data frame)))))
frame)))))))
(define (clear-queue! h)
(with-lock (ao-async-handle-lock h)
(lambda ()
(let ([q (ao-async-handle-queue h)])
(let loop ()
(unless (q:queue-empty? q)
(q:dequeue! q)
(loop))))
(set-box! (ao-async-handle-buf-size-box h) 0)))
;; Drain semaphore posts that belonged to discarded queue elements.
(let loop ()
(when (sync/timeout 0 (ao-async-handle-sema h))
(loop))))
(define (wait-while-paused h)
(let loop ()
(when (box-ref-under-lock h (ao-async-handle-paused-box h))
(sync (ao-async-handle-paused-sema h))
(loop))))
(define (player-loop h)
(let loop ()
(wait-while-paused h)
(define frame (dequeue/timeout h 250))
(cond
[(not frame)
(unless (box-ref-under-lock h (ao-async-handle-stopped-box h))
(sleep 0.005)
(loop))]
[(eq? (play-frame-command frame) 'stop)
(box-set-under-lock! h (ao-async-handle-stopped-box h) #t)
(void)]
[else
(with-lock (ao-async-handle-lock h)
(lambda ()
(set-box! (ao-async-handle-at-second-box h) (play-frame-at-second frame))
(set-box! (ao-async-handle-music-duration-box h) (play-frame-music-duration frame))
(set-box! (ao-async-handle-at-music-id-box h) (play-frame-music-id frame))))
(define out (apply-volume h (play-frame-data frame)))
(ao_play (ao-async-handle-device h) out (bytes-length out))
(loop)])))
;; -------------------------------------------------------------------------
;; Opening and closing.
(define (ao_async_version) 2)
(define (make-format bits rate channels byte-format)
(make-ao_sample_format bits rate channels (endian->int byte-format) #f))
(define (endian->int e)
(case e
[(little-endian) 1]
[(big-endian) 2]
[(native-endian) 4]
[else e]))
(define (try-open-device bits rate channels byte-format wav-file-output)
(define candidates
(append (list bits)
(if (> bits 24) (list 24) null)
(if (> bits 16) (list 16) null)))
(let loop ([xs candidates])
(cond
[(null? xs) (values #f 0)]
[else
(define out-bits (car xs))
(define fmt (make-format out-bits rate channels byte-format))
(define dev
(if wav-file-output
(ao_open_file (ao_driver_id "wav") wav-file-output 1 fmt #f)
(ao_open_live (ao_default_driver_id) fmt #f)))
(if dev
(values dev out-bits)
(loop (cdr xs)))])))
(define (ao_create_async bits rate channels byte-format wav-file-output)
(ensure-ao-initialized!)
(define-values (dev opened-bits)
(try-open-device bits rate channels byte-format wav-file-output))
(and dev
(letrec ([h (ao-async-handle dev
bits
opened-bits
byte-format
channels
rate
(q:make-queue)
(make-semaphore 0)
(make-semaphore 1)
#f
(make-semaphore 0)
(box #f)
(box #f)
(box -1.0)
(box 0.0)
(box -1)
(box 0)
(box 100.0))]
[t (thread (lambda () (player-loop h)))])
(set-ao-async-handle-worker! h t)
h)))
(define (ao_stop_async h)
(when h
(clear-queue! h)
(ao_pause_async h 0)
(enqueue! h (play-frame 'stop 0 0.0 0.0 #""))
(thread-wait (ao-async-handle-worker h))
(ao_close (ao-async-handle-device h))
(void)))
;; -------------------------------------------------------------------------
;; Buffer conversion.
(define (native-little-endian?)
;(= 1 (integer-bytes->integer #"\1\0" #f #t)))
(not (system-big-endian?)))
(define (little-endian-format? byte-format)
(case byte-format
[(little-endian) #t]
[(big-endian) #f]
[(native-endian) (native-little-endian?)]
[else (= byte-format 1)]))
(define (copy-pointer-bytes ptr len)
(define bs (make-bytes len))
(for ([i (in-range len)])
(bytes-set! bs i (ptr-ref ptr _uint8 i)))
bs)
(define (read-sample bs pos byte-count little?)
(define unsigned
(for/fold ([v 0]) ([i (in-range byte-count)])
(define idx (if little? i (- byte-count i 1)))
(bitwise-ior v (arithmetic-shift (bytes-ref bs (+ pos idx)) (* 8 i)))))
(define bits (* byte-count 8))
(define sign (arithmetic-shift 1 (- bits 1)))
(if (zero? (bitwise-and unsigned sign))
unsigned
(- unsigned (arithmetic-shift 1 bits))))
(define (store-sample! bs pos byte-count little? sample)
(for ([i (in-range byte-count)])
(define idx (if little? i (- byte-count i 1)))
(bytes-set! bs (+ pos idx) (bitwise-and sample #xff))
(set! sample (arithmetic-shift sample -8))))
(define (convert-bits sample in-bits out-bits)
(cond
[(> in-bits out-bits) (arithmetic-shift sample (- out-bits in-bits))]
[(< in-bits out-bits) (arithmetic-shift sample (- out-bits in-bits))]
[else sample]))
(define (convert-requested-to-real h bs info)
(define requested-bits (BufferInfo_t-sample_bits info))
(define output-bits (ao-async-handle-device-bits h))
(define in-bytes (/ requested-bits 8))
(define out-bytes (/ output-bits 8))
(cond
[(= requested-bits output-bits) bs]
[else
(define samples (quotient (bytes-length bs) in-bytes))
(define out (make-bytes (* samples out-bytes)))
(define little? (little-endian-format? (ao-async-handle-byte-format h)))
(for ([s (in-range samples)])
(define sample (read-sample bs (* s in-bytes) in-bytes little?))
(define converted (convert-bits sample requested-bits output-bits))
(store-sample! out (* s out-bytes) out-bytes little? converted))
out]))
(define (flac-pointer->interleaved-bytes ptr sample-count info)
;; FLAC buffers are int32_t *buffer[]: channel-oriented signed 32-bit
;; samples. buf_size is the number of samples per channel.
(define bits (BufferInfo_t-sample_bits info))
(define bytes-per-sample (/ bits 8))
(define channels (BufferInfo_t-channels info))
(define little? (little-endian-format? (BufferInfo_t-endiannes info)))
(define out (make-bytes (* sample-count channels bytes-per-sample)))
(define pos 0)
(for ([k (in-range sample-count)])
(for ([ch (in-range channels)])
(define channel-ptr (ptr-ref ptr _pointer ch))
(define sample (ptr-ref channel-ptr _int32 k))
(store-sample! out pos bytes-per-sample little? sample)
(set! pos (+ pos bytes-per-sample))))
out)
(define (ao_play_async h music-id at-second music-duration buf-size mem info)
(define source
(case (BufferInfo_t-type info)
[(ao) (copy-pointer-bytes mem buf-size)]
[(flac) (flac-pointer->interleaved-bytes mem buf-size info)]
[(mp3 ogg)
(eprintf "format ~a not supported yet\n" (BufferInfo_t-type info))
#f]
[else
(eprintf "unknown buffer type ~a\n" (BufferInfo_t-type info))
#f]))
(when source
(define out (convert-requested-to-real h source info))
(enqueue! h (play-frame 'play
music-id
(real->double-flonum at-second)
(real->double-flonum music-duration)
out))))
;; -------------------------------------------------------------------------
;; Status and controls.
(define (ao_clear_async h)
(clear-queue! h))
(define (ao_is_at_second_async h)
(box-ref-under-lock h (ao-async-handle-at-second-box h)))
(define (ao_is_at_music_id_async h)
(box-ref-under-lock h (ao-async-handle-at-music-id-box h)))
(define (ao_music_duration_async h)
(box-ref-under-lock h (ao-async-handle-music-duration-box h)))
(define (ao_bufsize_async h)
(box-ref-under-lock h (ao-async-handle-buf-size-box h)))
(define (ao_real_output_bits_async h)
(ao-async-handle-device-bits h))
(define (ao_pause_async h paused)
(define pause? (not (zero? paused)))
(with-lock (ao-async-handle-lock h)
(lambda ()
(define was-paused? (unbox (ao-async-handle-paused-box h)))
(set-box! (ao-async-handle-paused-box h) pause?)
(when (and was-paused? (not pause?))
(semaphore-post (ao-async-handle-paused-sema h))))))
(define (ao_set_volume_async h percentage)
;; Keep the old public meaning: 100.0 means 100 percent.
(define v (if (integer? percentage) (exact->inexact percentage) percentage))
(with-lock (ao-async-handle-lock h)
(lambda ()
(set-box! (ao-async-handle-volume-box h)
(if (and (>= v 99.9) (<= v 100.1)) 100.0 v)))))
(define (ao_volume_async h)
(box-ref-under-lock h (ao-async-handle-volume-box h)))
(define (apply-volume h bs)
(define volume (box-ref-under-lock h (ao-async-handle-volume-box h)))
(cond
[(= volume 100.0) bs]
[else
(define out (bytes-copy bs))
(define bytes-per-sample (/ (ao-async-handle-device-bits h) 8))
(define little? (little-endian-format? (ao-async-handle-byte-format h)))
(define factor (/ volume 100.0))
(for ([pos (in-range 0 (bytes-length out) bytes-per-sample)])
(define sample (read-sample out pos bytes-per-sample little?))
(define scaled (inexact->exact (truncate (* sample factor))))
(store-sample! out pos bytes-per-sample little? scaled))
out]))
|#
libao.rkt
+1 -1
View File
@@ -1,7 +1,7 @@
#lang racket/base #lang racket/base
(require (prefix-in fin: finalizer) (require (prefix-in fin: finalizer)
(prefix-in ffi: "libao-async-ffi-racket.rkt") (prefix-in ffi: "libao-async-ffi.rkt")
ffi/unsafe ffi/unsafe
ffi/unsafe/custodian ffi/unsafe/custodian
data/queue data/queue
play-test.rkt
+2 -2
View File
@@ -17,8 +17,8 @@
(define test-file4-id 4) (define test-file4-id 4)
(let ((os (system-type 'os))) (let ((os (system-type 'os)))
(when (eq? os 'unix) (when (eq? os 'unix)
(set! test-file3 (build-path tests "mahler-1.ogg")) (set! test-file3 (build-path tests "idyll.mp3"))
(set! test-file4 (build-path tests "mahler-2.ogg")) (set! test-file4 (build-path tests "idyll.flac"))
) )
(when (eq? os 'windows) (when (eq? os 'windows)
(set! test-file3 (build-path tests "idyll.mp3")) (set! test-file3 (build-path tests "idyll.mp3"))
private/downloader.rkt
+3 -3
View File
@@ -24,9 +24,9 @@
;; Version info of the version to download ;; Version info of the version to download
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(define version-major 0) (define version-major 1)
(define version-minor 2) (define version-minor 0)
(define version-patch 1) (define version-patch 0)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Internal functions ;; Internal functions
private/utils.rkt
+44 -4
View File
@@ -19,6 +19,8 @@
warn-sound warn-sound
fatal-sound fatal-sound
sync-log-sound sync-log-sound
integer->int-bytes
int-bytes->integer
) )
(sl-def-log racket-sound sound) (sl-def-log racket-sound sound)
@@ -69,18 +71,56 @@
(soundlibs-directory)) (soundlibs-directory))
(define (get-lib* libs-to-try orig-libs versions) (define (get-lib* libs-to-try orig-libs versions)
(let ((libs-path (cons (build-lib-path) (get-lib-search-dirs))))
(unless (soundlibs-available?) (unless (soundlibs-available?)
(download-soundlibs)) (download-soundlibs))
(if (null? libs-to-try) (if (null? libs-to-try)
(begin (begin
(displayln (format "Warning: Cannot find library, tried ~a in ~a" orig-libs (build-lib-path))) (displayln (format "Warning: Cannot find library, tried ~a in ~a" orig-libs libs-path))
#f) #f)
(ffi-lib (car libs-to-try) versions (ffi-lib (car libs-to-try) versions
#:get-lib-dirs (λ () (cons (build-lib-path) (get-lib-search-dirs))) #:get-lib-dirs (λ () libs-path)
#:fail (λ () (get-lib* (cdr libs-to-try) orig-libs versions)) #:fail (λ ()
))) (ffi-lib (car libs-to-try) versions
#:fail (λ ()
(get-lib* (cdr libs-to-try) orig-libs versions))))
)
)
)
)
(define (get-lib libs-to-try versions) (define (get-lib libs-to-try versions)
(get-lib* libs-to-try libs-to-try versions)) (get-lib* libs-to-try libs-to-try versions))
(define-syntax-rule (integer->int-bytes v size signed? big? bs pos)
(if (= size 3)
(if big?
(begin
(bytes-set! bs pos (bitwise-and (arithmetic-shift v -16) #xff))
(bytes-set! bs (+ pos 1) (bitwise-and (arithmetic-shift v -8) #xff))
(bytes-set! bs (+ pos 2) (bitwise-and v #xff)))
(begin
(bytes-set! bs pos (bitwise-and v #xff))
(bytes-set! bs (+ pos 1) (bitwise-and (arithmetic-shift v -8) #xff))
(bytes-set! bs (+ pos 2) (bitwise-and (arithmetic-shift v -16) #xff))))
(integer->integer-bytes v size signed? big? bs pos)))
(define-syntax-rule (int-bytes->integer bs signed? big? start end)
(let ([size (- end start)])
(if (= size 3)
(let* ([b0 (bytes-ref bs start)]
[b1 (bytes-ref bs (+ start 1))]
[b2 (bytes-ref bs (+ start 2))]
[u (if big?
(bitwise-ior (arithmetic-shift b0 16)
(arithmetic-shift b1 8)
b2)
(bitwise-ior b0
(arithmetic-shift b1 8)
(arithmetic-shift b2 16)))])
(if (and signed? (not (zero? (bitwise-and u #x800000))))
(- u #x1000000)
u))
(integer-bytes->integer bs signed? big? start end))))
) ; end of module ) ; end of module