/usr/share/snd/musglyphs.scm is in snd 18.1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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;;; each function in that package becomes a Scheme function of the form:
;;; name x y size style snd chn ax
;;; style: #t for lines, #f (default) for filled polygon
;;;
;;; although Snd based here, all this file needs externally are draw-lines, draw-dot, and fill-polygon
;;; currently this works only in Motif
(provide 'snd-musglyphs.scm)
(define (make-polygon args)
(let set-vals ((vects args)
(start 0)
(vals (make-vector (let total-length ((vects args) (len 0))
(cond ((null? vects) len)
((vector? (car vects)) (total-length (cdr vects) (+ len (length (car vects)))))
((car vects) (total-length (cdr vects) (+ len 1)))
(else (total-length (cdr vects) len)))))))
(cond ((null? vects) vals)
((vector? (car vects))
(let ((vect (car vects)))
(do ((len (length vect))
(i 0 (+ 1 i)))
((= i len) (set-vals (cdr vects) (+ start len) vals))
(set! (vals (+ start i)) (vect i)))))
((car vects)
(set! (vals start) (car vects))
(set-vals (cdr vects) (+ start 1) vals))
(else (set-vals (cdr vects) start vals)))))
(define (make-bezier-1 x0 y0 x1 y1 x2 y2 x3 y3 n)
;; creates a line-segment approximation of a bezier curve: n = number of segments
;; this is built into Snd as make-bezier, but I wanted an all Scheme version
(let ((cx (* 3 (- x1 x0)))
(cy (* 3 (- y1 y0))))
(let ((bx (- (* 3 (- x2 x1)) cx))
(by (- (* 3 (- y2 y1)) cy)))
(let ((ax (- x3 x0 cx bx))
(ay (- y3 y0 cy by))
(incr (/ 1.0 n))
(pts (make-vector (* 2 (+ n 1)))))
(set! (pts 0) x0)
(set! (pts 1) y0)
(do ((i 0 (+ 1 i))
(val incr (+ val incr)))
((> i n) pts)
(set! (pts (* i 2)) (floor (+ x0 (* val (+ cx (* val (+ bx (* val ax))))))))
(set! (pts (+ (* i 2) 1)) (floor (+ y0 (* val (+ cy (* val (+ by (* val ay)))))))))))))
;; pass our Snd context into the graphics procedures (there's probably a cleaner way)
(define ps-snd 0)
(define ps-chn 0)
(define ps-ax 0)
(define yoff 0)
(define xoff 0)
;; now make a little Postscript interpreter...
(define curx 0) ; the Postscript "path" handlers
(define cury 0)
(define pathlist ())
(define ps-size 50)
(define bezier-segments 50)
(define (->x x)
(floor (+ xoff (* ps-size x))))
(define (->y y)
;; Postscript is right side up, X is upside-down
(floor (- yoff (* ps-size y))))
;; now functions and macros to make it possible to load the original Common Lisp glyphs directly
(define (moveto score x y)
(set! curx x)
(set! cury y)
#f)
(define (rmoveto score x y)
(set! curx (+ curx x))
(set! cury (+ cury y))
#f)
(define (curveto score x0 y0 x1 y1 x2 y2)
(set! pathlist (cons (make-bezier-1 (->x curx) (->y cury) (->x x0) (->y y0)
(->x x1) (->y y1) (->x x2) (->y y2)
bezier-segments)
pathlist))
(set! curx x2)
(set! cury y2)
#f)
(define (lineto score x y)
(let ((v (make-vector 2)))
(set! (v 0) (->x x))
(set! (v 1) (->y y))
(set! curx x)
(set! cury y)
(set! pathlist (cons v pathlist))
#f))
(define (rlineto score x y)
(let ((v (make-vector 2)))
(set! curx (+ curx x))
(set! cury (+ cury y))
(set! (v 0) (->x curx))
(set! (v 1) (->y cury))
(set! pathlist (cons v pathlist))
#f))
(if (provided? 'snd-gtk)
(begin
(define* (fill-in score :rest args)
(if (pair? pathlist)
(let ((cr (make-cairo (car (channel-widgets ps-snd ps-chn)))))
(fill-polygon
(make-polygon
(reverse pathlist))
ps-snd ps-chn ps-ax cr)
(free-cairo cr)))
(set! pathlist ())
#f)
(define (draw score arg)
(if (pair? pathlist)
(let ((cr (make-cairo (car (channel-widgets ps-snd ps-chn)))))
(draw-lines
(make-polygon
(reverse pathlist))
ps-snd ps-chn ps-ax cr)
(free-cairo cr)))
(set! pathlist ())
#f)
(define (circle score x0 y0 rad . rest)
(let ((cr (make-cairo (car (channel-widgets ps-snd ps-chn)))))
(draw-dot (->x x0) (->y y0)
(floor (* ps-size rad 2))
ps-snd ps-chn ps-ax cr)
(free-cairo cr)))
(define (fill-rectangle-1 . args)
(let ((cr (make-cairo (car (channel-widgets ps-snd ps-chn))))
(new-args (copy args (make-list 9 #f))))
(if (not (new-args 6))
(set! (new-args 6) time-graph))
(set! (new-args 8) cr)
(apply fill-rectangle new-args)
(free-cairo cr))))
(begin
(define* (fill-in score :rest args)
(if (not (null? pathlist))
(fill-polygon
(make-polygon
(reverse pathlist))
ps-snd ps-chn ps-ax))
(set! pathlist ())
#f)
(define (draw score arg)
(if (not (null? pathlist))
(draw-lines
(make-polygon
(reverse pathlist))
ps-snd ps-chn ps-ax))
(set! pathlist ())
#f)
(define (circle score x0 y0 rad . rest)
(draw-dot (->x x0) (->y y0)
(floor (* ps-size rad 2))
ps-snd ps-chn ps-ax))
(define fill-rectangle-1 fill-rectangle)
))
;(define-macro (defvar name value) `(define ,name ,value))
(define defvar define)
;(define-macro (setf a b) `(set! ,a ,b))
;(define-macro setf set!)
(define setf set!)
(define-macro (defun name ignored-args . body)
;; in cmn-glyphs every defun has two args, the "score" and an optional "style"
`(define ,name (lambda args
((lambda (score style) ; needed by the procedure body
(let ((arglen (length args))
(style #f))
(if (> arglen 0) (set! xoff (list-ref args 0)))
(if (> arglen 1) (set! yoff (list-ref args 1)))
(if (> arglen 2) (set! ps-size (list-ref args 2)))
(if (> arglen 3) (set! style (list-ref args 3)))
(if (> arglen 4) (set! ps-snd (list-ref args 4)))
(if (> arglen 5) (set! ps-chn (list-ref args 5)))
(if (> arglen 6) (set! ps-ax (list-ref args 6)))
,@body))
#f #f))))
(define t #t)
(define-macro (in-package name) #f)
(define (music-font score) #f)
(define g-mustext (lambda args #f))
(define (output-type score) #f)
;(if (defined? 'declare) (define old-declare declare) (define old-declare #f))
;(define (declare args) #f)
(define sound-comment comment)
;(define comment
; (dilambda
; (lambda* ((scr #f) (msg 0))
; "(comment (scr #f) (msg 0)) tries to make musglyph.scm safe for comments"
; (if (or (number? msg)
; (not scr))
; (sound-comment scr)))
; (lambda* (snd (val #f))
; (if (not val)
; (apply (setter sound-comment) (list #f snd))
; (apply (setter sound-comment) (list snd val))))))
(define progn begin)
(load "cmn-glyphs.lisp")
;;; a portion of CMN here to make it easier to display notes
(define frequency->note-octave-and-accidental
(let ((frequency->pitch
(lambda (freq)
(floor (* 12 (+ (log (/ freq 16.351) 2)
(/ 1.0 24)))))))
(lambda (freq)
(let* ((pitch (frequency->pitch freq))
(pclass (modulo pitch 12)))
(let ((octave (floor (/ pitch 12)))
(cclass (case pclass
((0 1) 0) ; c-sharp
((2) 1)
((3 4) 2) ; e-flat
((5 6) 3) ; f-sharp
((7) 4)
((8 9) 5) ; a-flat
(else 6)))) ; b-flat
(list pclass octave
(if (memv pclass '(1 6))
:sharp
(and (memv pclass '(3 8 10))
:flat))
cclass
pitch))))))
(define note-data->pclass car)
(define note-data->octave cadr)
(define note-data->accidental caddr)
(define note-data->cclass cadddr)
(define (note-data->pitch val) (list-ref val 4))
(if (provided? 'snd-gtk)
(define (draw-staff x0 y0 width line-sep)
(do ((cr (make-cairo (car (channel-widgets ps-snd ps-chn))))
(line 0 (+ 1 line))
(x x0)
(y y0 (+ y (floor line-sep))))
((= line 5)
(free-cairo cr))
(draw-line x y (floor (+ x width)) y ps-snd ps-chn time-graph cr)))
(define (draw-staff x0 y0 width line-sep)
(do ((line 0 (+ 1 line))
(x x0)
(y y0 (+ y (floor line-sep))))
((= line 5))
(draw-line x y (floor (+ x width)) y))))
(define treble-tag-y 30)
(define bass-tag-y (+ treble-tag-y (* 4 *mix-waveform-height*)))
(define (draw-a-note freq dur x0 ty0 size with-clef treble)
(let* ((note-data (frequency->note-octave-and-accidental freq))
(accidental (note-data->accidental note-data))
(cclass (note-data->cclass note-data))
(octave (note-data->octave note-data))
(y0 (if treble treble-tag-y bass-tag-y)))
(let ((line-sep (* size .250))
(line (- (if treble
(+ (* (- 5 octave) 7) 3)
(+ (* (- 3 octave) 7) 5))
cclass))
(notehead-x x0)
(notehead-y y0))
(let ((width (* (+ (if with-clef (if treble 0.9 1.2) 0.75)
(if accidental 0.1 0.0)
(if (< dur .8) 0.5 0.0))
size)))
(draw-staff x0 y0 width line-sep))
(if with-clef
(begin
(if treble
(draw-treble-clef x0 (+ y0 (* size .76)) size)
(draw-bass-clef (+ x0 (* size .075)) (+ y0 (* size .26)) size))
(set! x0 (+ x0 (* size .8))))
(set! x0 (+ x0 (* size (if accidental .1 .25)))))
;; accidental
(if accidental
(begin
((if (eq? accidental :sharp) draw-sharp draw-flat) x0 (+ y0 (* .02 size) (* line-sep 0.5 line)) size)
(set! x0 (+ x0 line-sep))))
;; notehead
(set! notehead-y (+ y0 (* .02 size) (* line-sep 0.5 line)))
(set! notehead-x x0)
((if (< dur 1.5)
draw-quarter-note
(if (< dur 3.5)
draw-half-note
draw-whole-note))
notehead-x notehead-y size)
;; leger line(s)
(if (> line 9)
(do ((i 10 (+ i 2)))
((>= i line))
(fill-rectangle-1 (floor (- x0 (* .1 size)))
(floor (+ y0 (* -.02 size) (* line-sep 0.5 i)))
(floor (* .5 size))
(floor (* .05 size)))))
(if (< line 0)
(do ((i -2 (- i 2)))
((< i line))
(fill-rectangle-1 (floor (- x0 (* .1 size)))
(floor (+ y0 (* -.02 size) (* line-sep 0.5 i)))
(floor (* .5 size))
(floor (* .05 size)))))
;; stem
(if (< dur 3)
(fill-rectangle-1
(if (> line 3) ; stem up
(values (floor (+ x0 line-sep))
(floor (+ y0 (* 0.02 size) (* size -0.8) (* line-sep 0.5 line))))
(values (floor (- x0 (* size 0.02)))
(floor (+ y0 (* line-sep line 0.5)))))
(floor (* size 0.05))
(floor (* size 0.8))))
;; flags
(if (< dur .6)
(let ((base (+ y0 (* line-sep 0.5 line))))
(if (> line 2)
(draw-8th-flag-up (+ x0 line-sep) (+ base (* size -0.6)) size)
(draw-8th-flag-down x0 (+ base (* .7 size)) size))
(if (< dur .3)
(begin
(if (> line 2)
(draw-extend-flag-up (+ x0 line-sep) (+ base (* size -0.8)) size)
(draw-extend-flag-down x0 (+ base (* .9 size)) size))
(if (< dur .15)
(if (> line 2)
(draw-extend-flag-up (+ x0 line-sep) (+ base (* size -1.0)) size)
(draw-extend-flag-down x0 (+ base (* 1.1 size)) size)))))))
(list notehead-x notehead-y))))
#|
;; this is the example in the documentation
(define (draw-mix-tag id ox oy x y)
(let ((width *mix-tag-width*)
(height *mix-tag-height*)
(home (mix-home id)))
(if (not (= oy -1)) ; already erased?
(fill-rectangle-1 (- ox 1 (/ width 2)) (- oy 1 height) (+ width 2) (+ height 2) (car home) (cadr home) time-graph #t))
(fill-rectangle-1 (- x (/ width 2)) (- y height) width height (car home) (cadr home))))
(hook-push draw-mix-hook
(lambda (hook)
(let ((id (hook 'id))
(ox (hook 'old-x))
(oy (hook 'old-y))
(x (hook 'x))
(y (hook 'y)))
(draw-mix-tag id ox oy x y)
(draw-a-note (or (mix-property 'frequency id) 440.0)
(/ (length id) (srate))
x y
(* 2 *mix-waveform-height*)
#f
(eq? (mix-property 'instrument id) 'violin)))
(set! (hook 'result) #t)))
(hook-push after-graph-hook
(lambda (hook)
(let ((size (* 2 *mix-waveform-height*)))
(draw-staff 0 treble-tag-y (* 1.0 size) (* .25 size))
(draw-staff 0 bass-tag-y (* 1.0 size) (* .25 size))
(draw-treble-clef 0 (+ treble-tag-y (* size .76)) size)
(draw-bass-clef (* size .075) (+ bass-tag-y (* size .26)) size))))
(set! *mix-waveform-height* 20)
(let ((oldie (find-sound "test.snd")))
(if (sound? oldie)
(close-sound oldie)))
(let ((index (new-sound "test.snd" :channels 1)))
(define (violin beg dur freq amp)
(let* ((frq-hz (* 2 (->frequency freq #t)))
(id (car (mix (with-temp-sound () (fm-violin 0 dur frq-hz amp))
(->sample beg) 0 index 0 ; start, file in-chan, sound, channel
#t #t)))) ; with tag and auto-delete
(set! (mix-property 'frequency id) frq-hz)
(set! (mix-property 'instrument id) 'violin)))
(define (cello beg dur freq amp)
(let* ((frq-hz (* 2 (->frequency freq #t)))
(id (car (mix (with-temp-sound () (fm-violin 0 dur frq-hz amp :fm-index 1.5))
(->sample beg) 0 index 0
#t #t))))
(set! (mix-property 'frequency id) frq-hz)
(set! (mix-property 'instrument id) 'cello)))
(as-one-edit
(lambda ()
(violin 0 1 'e4 .2) (violin 1 1.5 'g4 .2) (violin 2.5 .5 'g3 .2)
(cello 0 1 'c3 .2) (cello 1 1.5 'e3 .2) (cello 2.5 .5 'g2 .2)
(violin 3 3 'f4 .2)
(cello 3 3 'd3 .2)
(violin 6 1 'e4 .2) (violin 7 1 'g3 .2) (violin 8 1 'e4 .2)
(cello 6 1 'c3 .2) (cello 7 1 'g2 .2) (cello 8 1 'c3 .2)
(violin 9 3 'd4 .2)
(cello 9 3 'b2 .2)
(violin 12 1 'f4 .2) (violin 13 1.5 'a4 .2) (violin 14.5 .5 'g3 .2)
(cello 12 1 'd3 .2) (cello 13 1.5 'f3 .2) (cello 14.5 .5 'g2 .2)
(violin 15 3 'g4 .2)
(cello 15 3 'e3 .2)
(violin 18 1 'f4 .2) (violin 19 1 'g3 .2) (violin 20 1 'f4 .2)
(cello 18 1 'd3 .2) (cello 19 1 'g2 .2) (cello 20 1 'd3 .2)
(violin 21 3 'e4 .2)
(cello 21 3 'c3 .2))))
|#
#|
;;; here is the same example, but with vertical drag interpreted as pitch change, and the
;;; note head itself is the mix tag:
(set! *show-mix-waveforms* #f)
(hook-push draw-mix-hook
(lambda (hook)
(let* ((id (hook 'id))
(x (hook 'x))
(y (hook 'y))
(xy (draw-a-note (or (mix-property 'frequency id) 440.0)
(/ (length id) (srate))
x y
(* 2 *mix-waveform-height*)
#f
(eq? (mix-property 'instrument id) 'violin)))
(note-x (round (car xy)))
(note-y (round (- (cadr xy) *mix-tag-height*))))
(if (not (mix-property 'original-tag-y id))
(begin
(set! (mix-property 'original-frequency id) (mix-property 'frequency id))
(set! (mix-property 'original-tag-y id) note-y)
(set! (mix-property 'interval id) 0)))
(set! (hook 'result) (list note-x note-y)))))
(hook-push after-graph-hook
(lambda (hook)
(let ((size (* 2 *mix-waveform-height*)))
(draw-staff 0 treble-tag-y (* 1.0 size) (* .25 size))
(draw-staff 0 bass-tag-y (* 1.0 size) (* .25 size))
(draw-treble-clef 0 (+ treble-tag-y (* size .76)) size)
(draw-bass-clef (* size .075) (+ bass-tag-y (* size .26)) size))))
(hook-push mix-drag-hook
(lambda (hook)
(let* ((n (hook 'id))
(x (hook 'x))
(y (hook 'y))
(orig-y (mix-property 'original-tag-y n)))
(if orig-y
(let ((interval (round (/ (* 12 (- (+ *mix-tag-height* orig-y) y))
(* 2 *mix-waveform-height*))))
(current-interval (mix-property 'interval n)))
;; this gives the number of semitones we have drifted
(if (not (= current-interval interval))
(begin
(set! (mix-property 'interval n) interval)
(set! (mix-property 'frequency n) (* (mix-property 'original-frequency n)
(expt 2.0 (/ interval 12.0)))))))))))
(hook-push mix-release-hook
(lambda (hook)
(let ((n (hook 'id))
(samps (hook 'samples)))
(as-one-edit
(lambda ()
(set! (mix-position id) (+ samps (mix-position id)))
(let ((interval (mix-property 'interval id)))
(if (not (= interval 0))
(let ((last-interval (mix-property 'last-interval id)))
(if (or (not last-interval)
(not (= last-interval interval)))
(set! (mix-speed id) (expt 2.0 (/ interval 12.0))))))
(set! (mix-property 'last-interval id) interval))))
(set! (hook 'result) #t))))
(set! *mix-waveform-height* 20)
(let ((oldie (find-sound "test.snd")))
(if (sound? oldie)
(close-sound oldie)))
(let ((violin-sync 1)
(violin-color (make-color 0 0 0.85)) ; blueish
(cello-sync 2)
(cello-color (make-color 1 .7 0)) ; orangeish
(index (new-sound "test.snd" :channels 1))) ; :size (* 22050 22))))
(define (violin beg dur freq amp)
(let* ((frq-hz (* 2 (->frequency freq #t)))
(id (car (mix (with-temp-sound () (fm-violin 0 dur frq-hz amp))
(->sample beg) 0 index 0 ; start, file in-chan, sound, channel
#t #t)))) ; with tag and auto-delete
(set! (mix-property 'frequency id) frq-hz)
(set! (mix-property 'instrument id) 'violin)
(set! (mix-sync id) violin-sync)
(set! (mix-color id) violin-color)))
(define (cello beg dur freq amp)
(let* ((frq-hz (* 2 (->frequency freq #t)))
(id (car (mix (with-temp-sound () (fm-violin 0 dur frq-hz amp :fm-index 1.5))
(->sample beg) 0 index 0
#t #t))))
(set! (mix-property 'frequency id) frq-hz)
(set! (mix-property 'instrument id) 'cello)
(set! (mix-sync id) cello-sync)
(set! (mix-color id) cello-color)))
(as-one-edit
(lambda ()
(violin 0 1 'e4 .2) (violin 1 1.5 'g4 .2) (violin 2.5 .5 'g3 .2)
(cello 0 1 'c3 .2) (cello 1 1.5 'e3 .2) (cello 2.5 .5 'g2 .2)
(violin 3 3 'f4 .2)
(cello 3 3 'd3 .2)
(violin 6 1 'e4 .2) (violin 7 1 'g3 .2) (violin 8 1 'e4 .2)
(cello 6 1 'c3 .2) (cello 7 1 'g2 .2) (cello 8 1 'c3 .2)
(violin 9 3 'd4 .2)
(cello 9 3 'b2 .2)
(violin 12 1 'f4 .2) (violin 13 1.5 'a4 .2) (violin 14.5 .5 'g3 .2)
(cello 12 1 'd3 .2) (cello 13 1.5 'f3 .2) (cello 14.5 .5 'g2 .2)
(violin 15 3 'g4 .2)
(cello 15 3 'e3 .2)
(violin 18 1 'f4 .2) (violin 19 1 'g3 .2) (violin 20 1 'f4 .2)
(cello 18 1 'd3 .2) (cello 19 1 'g2 .2) (cello 20 1 'd3 .2)
(violin 21 3 'e4 .2)
(cello 21 3 'c3 .2)
index)))
|#
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