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tonalisa/lib/sndlib/fade.scm

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  1. ;;; cross fade instruments

  2. ;;;

  3. ;;; cross-fade sweeps up, down, or from mid-spectrum outwards,

  4. ;;; dissolve-fade chooses randomly -- like a graphical dissolve

  5. ;;; neither is exactly spectacular, but they work -- use similar sounds if possible (speech is problematic)

  6. ;;;

  7. ;;; translated from fade.ins

  8. 

  9. (provide 'snd-fade.scm)

  10. 

  11. (if (provided? 'snd)

  12.     (require snd-ws.scm)

  13.     (require sndlib-ws.scm))

  14. 

  15. (definstrument (cross-fade beg dur amp file1 file2 ramp-beg ramp-dur ramp-type bank-dur fs fwidth)

  16.   ;; ramp-type 0=sweep up, 1=sweep down, 2=split from middle

  17. 

  18.   (if (> (+ (max bank-dur ramp-beg) ramp-dur bank-dur) dur)

  19.       (begin

  20. 	(set! ramp-beg (* 0.25 dur))

  21. 	(set! ramp-dur (* dur 0.49))

  22. 	(set! bank-dur (* dur 0.24))))

  23. 	

  24.   (let ((fil1 (make-sampler 0 file1))

  25. 	(fil2 (make-sampler 0 file2))

  26. 	(start (seconds->samples beg))

  27. 	(ramp-samps (seconds->samples ramp-dur))

  28. 	(bank-samps (seconds->samples bank-dur))

  29. 	(fs1 (make-vector fs)))

  30. 

  31.     (let ((bin (/ *clm-srate* (* 2 fs)))

  32. 	  (radius (- 1.0 (/ fwidth (* 2 fs)))))

  33.       (do ((k 0 (+ k 1)))

  34. 	  ((= k fs))

  35. 	(set! (fs1 k) (make-formant (* k bin) radius))))

  36.     (set! fs1 (make-formant-bank fs1))

  37.     

  38.     (let ((end (+ start (seconds->samples dur)))

  39. 	  (bank-incr (/ 1.0 bank-samps))

  40. 	  (ramp-incr (/ 1.0 ramp-samps))

  41. 	  (ramp-start (+ start (seconds->samples ramp-beg))))

  42.       (let ((bank1-start (- ramp-start bank-samps))

  43. 	    (ramp-end (+ ramp-start ramp-samps))

  44. 	    (bank2-start (+ ramp-start ramp-samps)))

  45. 	

  46. 	(do ((i start (+ i 1)))

  47. 	    ((= i bank1-start))

  48. 	  ;; in first section -- just mix in file1

  49. 	  (outa i (* amp (read-sample fil1))))

  50. 	

  51. 	(let ((bank2-end (+ bank2-start bank-samps))

  52. 	      (ramp 0.0)

  53. 	      (outval 0.0)

  54. 	      (inputs (make-float-vector fs))

  55. 	      (ifs (/ 1.0 fs))

  56. 	      (mid 0))

  57. 	  

  58. 	  (do ((i bank1-start (+ i 1))

  59. 	       (bank1 0.0 (+ bank1 bank-incr)))

  60. 	      ((= i ramp-start))

  61. 	    ;; in bank1 section -- fire up the resonators

  62. 	    (let ((inval (read-sample fil1)))

  63. 	      (set! outval (formant-bank fs1 inval))

  64. 	      (outa i (* amp (+ (* bank1 outval) (* (- 1.0 bank1) inval))))))

  65. 	  

  66. 	  ;; in the ramp

  67. 	  (case ramp-type

  68. 	    ((0)

  69. 	     (do ((i ramp-start (+ i 1)))

  70. 		 ((= i ramp-end))

  71. 	       (let ((inval1 (read-sample fil1))

  72. 		     (inval2 (read-sample fil2)))

  73. 		 ;; now the choice of spectral fade -- we should end with all bank1 0.0 and all bank2 1.0

  74. 		 (set! ramp (+ ramp ramp-incr))

  75. 		 

  76. 		 ;; low freqs go first

  77. 		 (if (>= ramp 0.5)

  78. 		     (begin

  79. 		       (set! mid (floor (* (- (* 2.0 ramp) 1.0) fs)))

  80. 		       (fill! inputs inval2 0 mid)

  81. 		       (float-vector-interpolate inputs mid fs 1.0 (- ifs) inval2 inval1)

  82. 		       ;; (do ((k mid (+ k 1)) (ks 1.0 (- ks ifs))) ((>= k fs)) (float-vector-set! inputs k (+ (* ks inval2) (* (- 1.0 ks) inval1))))

  83. 		       )

  84. 		     (begin

  85. 		       (set! mid (min fs (floor (* 2.0 ramp fs))))

  86. 		       (fill! inputs inval1 mid)

  87. 		       (float-vector-interpolate inputs 0 mid (* 2.0 ramp) (- ifs) inval2 inval1)

  88. 		       ;; (do ((k 0 (+ k 1)) (ks (* 2.0 ramp) (- ks ifs))) ((= k mid)) (float-vector-set! inputs k (+ (* ks inval2) (* (- 1.0 ks) inval1))))

  89. 		       ))

  90. 		 (outa i (* amp (formant-bank fs1 inputs))))))

  91. 	    

  92. 	    ((1)

  93. 	     (do ((i ramp-start (+ i 1)))

  94. 		 ((= i ramp-end))

  95. 	       (let ((inval1 (read-sample fil1))

  96. 		     (inval2 (read-sample fil2)))

  97. 		 (set! ramp (+ ramp ramp-incr))

  98. 		 

  99. 		 ;; high freqs go first

  100. 		 (if (>= ramp 0.5)

  101. 		     (let ((r2 (- (* 2.0 ramp) 1.0)))

  102. 		       (set! mid (min fs (ceiling (* (- 1.0 r2) fs))))

  103. 		       (fill! inputs inval2 mid)

  104. 		       (float-vector-interpolate inputs 0 mid r2 ifs inval2 inval1)

  105. 		       ;; (do ((k 0 (+ k 1)) (ks r2 (+ ks ifs))) ((= k mid)) (float-vector-set! inputs k (+ (* ks inval2) (* (- 1.0 ks) inval1))))

  106. 		       )

  107. 		     (begin

  108. 		       (set! mid (ceiling (* (- 1.0 (* 2.0 ramp)) fs)))

  109. 		       (fill! inputs inval1 0 mid)

  110. 		       (float-vector-interpolate inputs mid fs 0.0 ifs inval2 inval1)

  111. 		       ;; (do ((k mid (+ k 1)) (ks 0.0 (+ ks ifs))) ((>= k fs)) (float-vector-set! inputs k (+ (* ks inval2) (* (- 1.0 ks) inval1))))

  112. 		       ))

  113. 		 (outa i (* amp (formant-bank fs1 inputs))))))

  114. 	    

  115. 	    (else

  116. 	     (let ((half-fs (/ fs 2)))

  117. 	       (do ((i ramp-start (+ i 1)))

  118. 		   ((= i ramp-end))

  119. 		 (let ((inval1 (read-sample fil1))

  120. 		       (inval2 (read-sample fil2)))

  121. 		   ;; now the choice of spectral fade -- we should end with all bank1 0.0 and all bank2 1.0

  122. 		   (set! ramp (+ ramp ramp-incr))

  123. 		   ;; sweep from midpoint out

  124. 		   (fill! inputs inval1)

  125. 		   (set! mid (min half-fs (floor (* fs ramp))))

  126. 		   (do ((k (- half-fs mid) (+ k 1))

  127. 			(hk (+ half-fs mid -1) (- hk 1))

  128. 			(ks (max 0.0 (- (* 2.0 ramp) 1.0)) (+ ks ifs)))

  129. 		       ((= k half-fs))

  130. 		     (let ((rfs (min 1.0 ks)))

  131. 		       (set! (inputs k) (+ (* rfs inval2) (* (- 1.0 rfs) inval1)))

  132. 		       (set! (inputs hk) (inputs k))))

  133. 		   (outa i (* amp (formant-bank fs1 inputs))))))))

  134. 	  

  135. 	  (do ((i ramp-end (+ i 1))

  136. 	       (bank2 1.0 (- bank2 bank-incr)))

  137. 	      ((= i bank2-end))

  138. 	    ;; in bank2 section -- ramp out resonators

  139. 	    (let ((inval (read-sample fil2)))

  140. 	      (set! outval (formant-bank fs1 inval))

  141. 	      (outa i (* amp (+ (* bank2 outval) (* (- 1.0 bank2) inval))))))

  142. 	  

  143. 	  (do ((i bank2-end (+ i 1)))

  144. 	      ((= i end))

  145. 	    ;; in last section -- just mix file2

  146. 	    (outa i (* amp (read-sample fil2))))

  147. 	  )))))

  148. 

  149. 

  150. 

  151. ;;; (float-vector->channel (with-sound ((make-float-vector 22050)) (cross-fade 0 .1 1 0 1 .01 .01 0 .1 256 2)))

  152. ;;; (float-vector->channel (with-sound ((make-float-vector 44100)) (cross-fade 0 2 1.0 "oboe.snd" "trumpet.snd" 0.5 1.0 0 .1 256 2)))

  153. ;;; (with-sound (:statistics #t) (cross-fade 0 2 1.0 "oboe.snd" "trumpet.snd" 0.5 1.0 0 .1 256 2))

  154. ;;; (with-sound () (cross-fade 0 2 1.0 "oboe.snd" "trumpet.snd" 0.5 1.0 0 .1 256 2))

  155. ;;; these fades seem more successful to me when done relatively quickly (the opposite of the dissolve below

  156. ;;; which is best if done as slowly as possible).  I like the sweep up best -- a sort of "evaporation" effect.

  157. 

  158. 

  159. (definstrument (dissolve-fade beg dur amp file1 file2 fsize r lo hi)

  160.   (let ((fil1 (make-sampler 0 file1))

  161. 	(fil2 (make-sampler 0 file2))

  162. 	(start (seconds->samples beg))

  163. 	(freq-inc (floor (/ fsize 2)))

  164. 	(ramp-inc (/ 1.0 1024.0)))

  165.     (let ((end (+ start (seconds->samples dur)))

  166. 	  (spectr (make-vector freq-inc #f))

  167. 	  (trigger (floor (/ (* dur *clm-srate*) freq-inc)))

  168. 	  (fs (make-vector freq-inc #f))

  169. 	  (amps (make-float-vector freq-inc amp))

  170. 	  (ctr 0)

  171. 	  (inputs (make-float-vector freq-inc))

  172. 	  (ramps (make-vector freq-inc -1))

  173. 	  (in2s (make-int-vector freq-inc))

  174. 	  (in2-ctr 0)

  175. 	  (ramp-ctr 0))

  176.     

  177.       (if (not (number? hi)) (set! hi freq-inc))

  178.       (let ((bin (floor (/ *clm-srate* fsize)))

  179. 	    (radius (- 1.0 (/ r fsize)))) 

  180. 	(do ((k lo (+ k 1)))

  181. 	    ((= k hi))

  182. 	  (set! (fs k) (make-formant (* k bin) radius))))

  183.       (set! fs (make-formant-bank fs amps)) ; wrap it up...

  184.  

  185.       (do ((i start (+ i 1)))

  186. 	  ((= i end))

  187. 

  188. 	;; once a ramp is set in motion, it takes care of itself -- we need only choose which to trigger

  189. 	(set! ctr (+ ctr 1))

  190. 	(if (> ctr trigger)

  191. 	    (let ((next (floor (random freq-inc))))

  192. 	      ;; find next randomly chosen resonator to flip

  193. 	      (if (not (spectr next))

  194. 		  (set! (spectr next) (- 1.0 ramp-inc))

  195. 		  (call-with-exit

  196. 		   (lambda (bbreak)

  197. 		     (do ((j next (+ j 1))

  198. 			  (k next (- k 1)))

  199. 			 ()

  200. 		       (if (and (< j freq-inc) 

  201. 				(not (spectr j)))

  202. 			   (begin 

  203. 			     (set! (spectr j) (- 1.0 ramp-inc))

  204. 			     (set! next j)

  205. 			     (bbreak)))

  206. 		       (if (and (>= k 0) 

  207. 				(not (spectr k)))

  208. 			   (begin 

  209. 			     (set! (spectr k) (- 1.0 ramp-inc))

  210. 			     (set! next k)

  211. 			     (bbreak)))))))

  212. 	      (set! (ramps ramp-ctr) next)

  213. 	      (set! ramp-ctr (+ ramp-ctr 1))

  214. 	      (set! ctr 0)))

  215. 	

  216. 	(let ((inval1 (read-sample fil1))

  217. 	      (inval2 (read-sample fil2)))

  218. 	  (fill! inputs inval1)

  219. 	  (float-vector-spatter inputs in2s in2-ctr inval2)

  220. 	  ;; (do ((k 0 (+ k 1))) ((= k in2-ctr)) (float-vector-set! inputs (int-vector-ref in2s k) inval2))

  221. 

  222. 	  (when (> ramp-ctr 0)

  223. 	    (let ((rk 0)

  224. 		  (sp 0.0)

  225. 		  (fixup-ramps #f))

  226. 	      (do ((k 0 (+ k 1)))

  227. 		  ((= k ramp-ctr))

  228. 		(set! rk (ramps k))

  229. 		(set! sp (vector-ref spectr rk))

  230. 		(float-vector-set! inputs k (+ (* sp inval1) (* (- 1.0 sp) inval2)))

  231. 		(set! sp (- sp ramp-inc))

  232. 		(if (> sp 0.0)

  233. 		    (vector-set! spectr rk sp)

  234. 		    (begin

  235. 		      (set! (in2s in2-ctr) rk)

  236. 		      (set! in2-ctr (+ in2-ctr 1))

  237. 		      (set! fixup-ramps #t)

  238. 		      (set! (ramps k) -1))))

  239. 	      (if fixup-ramps

  240. 		  (let ((j 0))

  241. 		    (do ((k 0 (+ k 1)))

  242. 			((= k ramp-ctr))

  243. 		      (if (>= (ramps k) 0)

  244. 			  (begin

  245. 			    (set! (ramps j) (ramps k))

  246. 			    (set! j (+ j 1)))))

  247. 		    (set! ramp-ctr j)))))

  248. 	  

  249. 	  (outa i (formant-bank fs inputs)))))))

  250. 

  251. 

  252. ;;; (with-sound (:statistics #t) (dissolve-fade 0 1 1.0 "oboe.snd" "trumpet.snd" 256 2 0 128))

  253. ;;; (float-vector->channel (with-sound ((make-float-vector 44100)) (dissolve-fade 0 2 1 0 1 4096 2 2 #f)))

  254. ;;;

  255. ;;; another neat effect here is to simply let the random changes float along with no

  256. ;;; direction -- if the hit is 1.0 send it toward 0.0 and vice versa -- strange

  257. ;;; pitches emerge from noises etc

  258. 

  259. 

  260. 

  261. #|

  262. ;;; make it easy to see and hear:

  263. 

  264. (with-sound ("p1.snd") 

  265.   (let ((g (make-ncos 200 100)))

  266.     (do ((i 0 (+ i 1)))

  267. 	((= i 100000))

  268.       (outa i (ncos g)))))

  269. 

  270. (with-sound ("p2.snd") 

  271.   (let ((g (make-ncos 123 100)))

  272.     (do ((i 0 (+ i 1)))

  273. 	((= i 100000))

  274.       (outa i (ncos g)))))

  275. 

  276. (with-sound (:statistics #t) 

  277.   (cross-fade 0 2 1.0 "p1.snd" "p2.snd" 0.5 1.0 0 .1 256 2))

  278. 

  279. (with-sound (:statistics #t) 

  280.   (dissolve-fade 0 2 1.0 "p1.snd" "p2.snd" 256 2 0 128))

  281. |#