;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;; ;;; Banded Waveguide Tibetan Bowl Instrument based on ;;; ====== ========= ======= ==== ========== ;;; ;;; Essl, G. and Cook, P. "Banded ;;; Waveguides: Towards Physical Modelling of Bar ;;; Percussion Instruments", Proceedings of the ;;; 1999 International Computer Music Conference. ;;; ;;; Also, Essl, Serafin, Cook, and Smith J.O., ;;; "Theory of Banded Waveguides", CMJ, 28:1, ;;; pp37-50, Spring 2004. ;;; ;;; ;;; CLM version by Juan Reyes 2004-2005, ;;; NOTES: ;;; As with all physical models, initial conditions matter. ;;; Frequency range is not too broad. 220Hz. is a good ;;; starting point. ;;; ;;; ;;; 08/24/2013 replaced delay line macros with DelayL using clm's delay ug ;;; 08/29/2014 fixed waveguide with feed and reflections ;;; 08/30/2014 Try different delay line lengths. Fixing bandpass radius param. ;;; 09/08/2014 Tibetan bowl, using formant filter ug. ;;; 09/14/2014 This SND's S7 version ;;; (define* (make-bowtable (offset 0.0) (slope 1.0)) (float-vector offset slope)) (define (bowtable b samp) (max 0.0 (- 1.0 (abs (* (b 1) (+ samp (b 0))))))) ;;; Let's try a formant for bandpass filtering (define (make-formantbp freq radius) (make-formant freq radius)) (define (formantbp f sample0) (formant f sample0)) ;;; Delay line structures and functions using SND's delay generator (as per prc95.scm) (defgenerator dlya (outp 0) (input #f)) (define (make-delayl len lag) (make-dlya :input (make-delay len :max-size (ceiling (+ len lag 1))) :outp (- lag len))) (define (delayl d samp) (delay-tick (d 'input) samp) (tap (d 'input) (d 'outp))) ;;;;;;;;;;;;;;;;;;;; (definstrument (singbowl beg dur freq amplitude (maxa 0.9998) ;; max bow velocity (bv 1.0) ;; bow velocity scaler ;; velocity envelope (vel-env '(0 1.0 .95 1.1 1 1.0)) (amp-env '(0 0 0.5 1 1 0)) ;;'(0 0.0 .95 1.0 .99 0.00)) (rev-amount .08) ) (let ((nrmodes 12) (ratius 0.45)) (let* ((start (seconds->samples beg)) (baselen (/ *clm-srate* (* freq ratius))) ;; original stk delayl length (baselag (/ *clm-srate* (* 0.9 freq ratius))) (dtapoffs 7.0) ;; tap offset is 0.0 in StK's version (bandpass (make-vector nrmodes)) (delayslft (make-vector nrmodes)) (delaysrfl (make-vector nrmodes)) (modes (make-float-vector nrmodes)) (gains (make-float-vector nrmodes)) (basegains (make-float-vector nrmodes)) (excitations (make-float-vector nrmodes)) (delastout (make-float-vector nrmodes)) ;; (fradius 0.0) ;; radius for bandpass filter (dlength 0.0) ;; delay-line length (dlag 0.0) ;; delay lag (for tap) ;; (bowtab (make-bowtable :slope 3.0 :offset 0.001)) (ampenv (make-env amp-env :scaler amplitude :duration dur)) ;; (vel-env (make-env vel-env :scaler bv :duration dur)) ;; (maxvelocity maxa) (end (+ start (seconds->samples dur))) ) ;; ;; ;; Tibetan Prayer Bowl (ICMC'02) ;; (set! (modes 0) 0.996108344) (set! (basegains 0) 0.999925960128219) (set! (modes 1) 1.0038916562) (set! (basegains 1) 0.999925960128219) (set! (modes 2) 2.979178) (set! (basegains 2) 0.999982774366897) (set! (modes 3) 2.99329767) (set! (basegains 3) 0.999982774366897) (set! (modes 4) 5.704452) (set! (basegains 4) 1.0) ;; 0.999999999999999999987356406352 (set! (modes 5) 5.704452) (set! (basegains 5) 1.0) ;; 0.999999999999999999987356406352 (set! (modes 6) 8.9982) (set! (basegains 6) 1.0) ;;0.999999999999999999996995497558225 (set! (modes 7) 9.01549726) (set! (basegains 7) 1.0) ;;0.999999999999999999996995497558225 (set! (modes 8) 12.83303) (set! (basegains 8) 0.99965497558225) (set! (modes 9) 12.807382) (set! (basegains 9) 0.999965497558225) (set! (modes 10) 17.2808219) (set! (basegains 10) 0.9999999999999999999965497558225) (set! (modes 11) 21.97602739726) (set! (basegains 11) 0.999999999999999965497558225) ;; ;; (set! (excitations 0) (/ 11.900357 10)) (set! (excitations 1) (/ 11.900357 10)) (set! (excitations 2) (/ 10.914886 10)) (set! (excitations 3) (/ 10.914886 10)) (set! (excitations 4) (/ 42.995041 10)) (set! (excitations 5) (/ 42.995041 10)) (set! (excitations 6) (/ 40.063034 10)) (set! (excitations 7) (/ 40.063034 10)) (set! (excitations 8) (/ 7.063034 10)) (set! (excitations 9) (/ 7.063034 10)) (set! (excitations 10) (/ 57.063034 10)) (set! (excitations 11) (/ 57.063034 10)) ;; ;; setFrequency method in STK's BandedWG ;; (set! fradius (- 0.79998 (* pi (/ 32 *clm-srate*)))) (do ((i 0 (+ i 1))) ((= i nrmodes)) (set! dlength (floor (/ baselen (modes i)))) (set! dlag (floor (/ baselag (modes i)))) ;; (- lag len) --> tap offset (set! (delayslft i) (make-delayl dlength dlag)) (set! (delaysrfl i) (make-delayl dlength dlag)) (set! (gains i) ( basegains i)) (set! (bandpass i) (make-formantbp (* freq (modes i)) fradius)) ) ;; ;;;;;;;;;;;; ;; (do ((i start (+ i 1))) ((= i end)) ;; (let ((input 0.00) (velinput 0.00) (bowvelocity 0.00) (bplastout 0.0) (dlastsampl 0.00) (sample0 0.00) ) (do ((k 0 (+ k 1))) ((= k nrmodes)) (set! velinput (+ velinput (* (basegains k) (delastout k))))) ;; ;; ;; (set! bowvelocity (* 0.3 (env vel-env) maxvelocity)) (set! bowvelocity (* 0.3 maxvelocity)) (set! input (- bowvelocity velinput)) (set! input (* input (bowtable bowtab input))) (set! input (/ input nrmodes )) ;; ;; Here the waveguide ;; (do ((j 0 (1+ j))) ((= j nrmodes)) (set! bplastout (+ bplastout (formantbp (bandpass j) (delayl (delayslft j) (+ input (* (gains j) dlastsampl)) )))) ;; (set! dlastsampl (+ dlastsampl (delayl ( delaysrfl j) bplastout))) (set! (delastout j) dlastsampl) ) ;; ;; (set! sample0 (* 2.0 (env ampenv) bplastout)) ;; (outa i sample0) ;; (if *reverb* (begin (outa i (* sample0 rev-amount) *reverb*))) ))) )) ;;; (with-sound () (singbowl 0 1 200 0.4 )) ;;; (with-sound () (singbowl 0 1 220 0.4 )) ;;; (with-sound () (singbowl 0 1 180 0.2 ))