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- ;; CLM implementation of Xenakis' Dynamic Stochastic Synthesis as heard in
- ;; his GENDY3, S.709, Legende d'Eer, etc.
- ;; 12/17/03
- ;; revised 01/22/06
- ;; Bill Sack wsack@buffalo.edu
-
- ;; revised slightly to accommodate the run macro, Bill 13-Jun-06
-
- (if (provided? 'snd)
- (require snd-ws.scm)
- (require sndlib-ws.scm))
- (require snd-env.scm)
-
- (definstrument
- (stochastic start dur
- (amp .9) (bits 16) (xmin 1) (xmax 20) (xwig 0) (xstep 1) (ywig 0) (xfb 0)
- (init-array '((10 0) (10 1) (10 0) (10 -.7) (10 0) (10 .5)
- (10 0) (10 -.3) (10 0) (10 .2) (10 0) (10 -.1))))
- ;;some explanation of the parameters:
- ;;amp - scales overall amplitude
- ;;bits - the resolution of the wave's amplitude dimension
- ;;xmin - minimum number of samples between time breakpoints. must be equal to or greater than 1
- ;;xmax - maximum number of samples between time breakpoints.
- ;;xwig - amplitude applied to random walk function in time dimension
- ;;xstep - quantization of freedom in time dimension, in samples. minimum of 1
- ;;ywig - amplitude applied to random walk function in amplitude dimension, in
- ;; percent of overall possible amplitude
- ;;xfb - an attempt at an FIR low-pass filter - the old (n + (x * n-1)) trick,
- ;; not really that useful
- ;;init-array - initial x and y breakpoints for wave. x values must be
- ;; integers and 1 or greater, y values between -1.0 and 1.0
- (let* ((beg (seconds->samples start))
- (end (+ beg (seconds->samples dur))))
- (let ((d-click (make-env (list 0 1 (- end 100) 1 end 0) :duration dur))
- ;;make float-vector to hold x,y breakpoints
- (xy-array (make-float-vector (* (length init-array) 2)))
- (y 0.0)
- (dx 0)
- (prev-dx 0)
- (dy 0.0)
- (j 0.0)
- (m 0)
- (dt 0)
- (output 0.0)
- (oldy 0.0)
- (xdev 0)
- (ydev 0)
- (b (expt 2 (- bits 1)))
- (xy-array-l (* (length init-array) 2)))
-
- ;;fill xy-array with values from init-array
- (do ((iy 0 (+ iy 2));;index for reading values from init-array (a 2-dimensional list)
- (jy 0 (+ jy 1)));;index for writing to xy-array (a 1-dimensional float-vector)
- ((= iy xy-array-l))
- (set! (xy-array iy) ((init-array jy) 0))
- (set! (xy-array (+ iy 1))
- ;;convert signed float y values into signed integers
- (floor (* b
- ((init-array jy) 1)))))
-
- (do ((i beg (+ i 1)))
- ((= i end))
- (when (= dx dt);;when current sample is a breakpoint
- (set! dx (floor (xy-array (modulo m xy-array-l))))
- (set! y (xy-array (+ (modulo m xy-array-l) 1)))
- (set! prev-dx (floor (xy-array (modulo (- m 2) xy-array-l))))
- (set! dy (- y oldy))
- (set! oldy y)
- ;;straight uniform distribution for y
- (set! ydev (round (mus-random (* .01 b ywig))))
- ;;gaussian distribution for x
- (set! xdev
- (* xstep (round
- (* xwig
- (sqrt (* -2.0 (log (- 1 (random 1.0))))) ; ??
- (cos (random 6.283185307179586))))))
- (set! (xy-array (modulo m xy-array-l))
- ;;mirror stuff for x
- (if (>= (round xmax) (+ dx xdev) (round xmin))
- (round (+ (* xfb prev-dx)
- (* (- 1 xfb) (+ dx xdev))))
- (max (min (round (+ (* xfb prev-dx)
- (* (- 1 xfb) (- dx xdev))))
- (round xmax))
- (round xmin))))
- (set! (xy-array (+ (modulo m xy-array-l) 1))
- ;;mirror stuff for y
- (if (>= b (+ y ydev) (- b))
- (+ y ydev)
- (max (min (- y ydev) b) (- b))))
- (set! m (+ m 2))
- (set! dt 0))
- (set! dt (+ dt 1))
- (set! j (+ j (/ dy dx)));linear interpolation
- (set! output (/ j b));normalization -1 to 1
- (outa i (* amp output (env d-click)))))))
-
- ;(with-sound (:statistics #t)(stochastic 0 10 :xwig .25 :ywig 10.0))
-
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