;nyquist plug-in ;version 3 ;type process ;categories "http://lv2plug.in/ns/lv2core#MixerPlugin" ;name "Adjustable Fade..." ;action "Applying Fade..." ;info "by Steve Daulton (www.easyspacepro.com).\nReleased under GPL v2.\n" ;; adjustable-fade.ny by Steve Daulton Dec 2012 ;; Released under terms of the GNU General Public License version 2: ;; http://www.gnu.org/licenses/old-licenses/gpl-2.0.html ;; ;; For information about writing and modifying Nyquist plug-ins: ;; http://wiki.audacityteam.org/wiki/Nyquist_Plug-ins_Reference ;control type "Fade Type" choice "Fade Up,Fade Down,S-Curve Up,S-Curve Down" 0 ;control curve "Mid-fade Adjust (%)" real "" 0 -100 100 ;control units "Start/End as" choice "% of Original,dB Gain" 0 ;control gain-string-0 "Start (or end)" string "" "0" "" ;control gain-string-1 "End (or start)" string "" "100" "" ;control preset " Handy Presets\n(override controls)" choice "None Selected,Linear In,Linear Out,Exponential In,Exponential Out,Logarithmic In,Logarithmic Out,Rounded In,Rounded Out,Cosine In,Cosine Out,S-Curve In,S-Curve Out" 0 (setq err "") ; bad things may happen outside of the slider range. (setq curve (min 1 (max -1 (/ curve 100.0)))) ;;; Convert string to value (defun string-to-val (string) (setq val-array (read (make-string-input-stream (format nil "(~a)" string)))) (if (and (= (length val-array) 1) (numberp (car val-array))) (let ((val (float (car val-array)))) (case units (0 (/ val 100)) (t (db-to-linear val)))))) ;;; invalid string error (defun invalid-string (x y) (unless x (setf err (format nil "~aYou entered \"~a\"~%~ \"Start (or end):\" must be one number.~%" err gain-string-0))) (unless y (setf err (format nil "~aYou entered \"~a\"~%~ \"End (or start):\" must be one number.~%" err gain-string-1))) err) ;;; invalid values (defun check-values (x y) (when (or (< x 0)(< y 0)) (setf err (format nil "~a% values cannot be negative.~%" err)))) ;;; select and apply fade (defun fade (sig type curve g0 g1) (mult sig (case preset (0 (case type ; Custom fade (0 (simple (min g0 g1) (max g0 g1) curve)) (1 (simple (max g0 g1) (min g0 g1) curve)) (2 (raised-cos (min g0 g1)(max g0 g1) curve)) (T (raised-cos (max g0 g1) (min g0 g1) curve)))) (1 (linear 0 1)) ; Linear In (2 (linear 1 0)) ; Linear Out (3 (log-exp-curve -60 0)) ; Exponential In (4 (log-exp-curve -60 1)) ; ExponentialOut (5 (log-exp-curve 15.311 0)) ; Logarithmic In (6 (log-exp-curve 15.311 1)) ; Logarithmic Out (7 (simple-curve 0 1 0.5)) ; Rounded In (8 (simple-curve 1 0 0.5)) ; Rounded Out (9 (cosine-curve 0 1)) ; Cosine In (10 (cosine-curve 1 0)) ; Cosine Out (11 (raised-cos 0 1 0.0)) ; S-Curve In (t (raised-cos 1 0 0.0))))) ; S-Curve Out ;;; Simple Curve: ;;; Use cosine for + values and linear for -ve. (defun simple (g0 g1 curve) (cond ((= g0 g1) g0) ; amplify ((and (> curve 0)(< curve 0.5)) ; +ve curve less than 0.5, lin to cosine (let ((curve (* curve 2))) (sim (mult (- 1 curve) (scale-curve g0 g1 (linear g0 g1))) ; linear (mult curve (scale-curve g0 g1 (cosine-curve g0 g1)))))) ; cosine curve ((> curve 0) (cos-curve g0 g1 (- 1.5 curve))) ; +ve curve > 0.5 (t (simple-curve g0 g1 (- 1 (* 2 curve)))))) ; -ve curve ;;; linear fade to the power of pow (defun simple-curve (g0 g1 pow) (curve-adjust g0 g1 pow (linear g0 g1))) ;;; cosine fade to the power of pow (defun cos-curve (g0 g1 pow) (curve-adjust g0 g1 pow (cosine-curve g0 g1))) (defun curve-adjust (g0 g1 pow env) (scale-curve g0 g1 (if (= pow 1) env (snd-exp (mult pow (snd-log env)))))) ;;; scale curves to min, max (defun scale-curve (g0 g1 env) (sum (min g0 g1) (mult (abs (- g0 g1)) env))) ;;; cosine curve (defun cosine-curve (g0 g1) (let ((step (hz-to-step (/ 0.25 (get-duration 1)))) (phase (if (> g0 g1) 90 0))) (osc step 1 *sine-table* phase))) ;;; linear fade in, out (defun linear (g0 g1) (control-srate-abs *sound-srate* (if (> g0 g1) ; g0 = g1 does not occur here. (pwlv 1 1 0) ; fade out (pwlv 0 1 1)))) ; else fade in ;;; raised cosine fades (defun raised-cos (g0 g1 curve) (setq curve (if (> curve 0) (exp-scale-mid (* 2 curve)) ; mid-point -3dB @ Adjust = 50% (exp-scale-mid (* 1.63 curve)))) ; mid-point -12dB @ Adjust = -50% (setf env (control-srate-abs *sound-srate* ; sound srate required for accuracy. (cond ((= g0 g1) g0) ; amplify ((> g0 g1) ; fade down (snd-exp (mult (pwlv (- 1 curve) 1 1) (snd-log (raised-cosin 90))))) (t (snd-exp ; fade up (mult (pwlv 1 1 (- 1 curve)) (snd-log (raised-cosin -90)))))))) (sum (min g0 g1) (mult (abs (- g0 g1)) env))) ;;; raised cosine curve (defun raised-cosin (phase) (let ((hz (hz-to-step (/ (get-duration 2))))) (mult 0.5 (sum 1 (osc hz 1 *sine-table* phase))))) ;;; log or exponential curve scaled 0 to 1 ;;; x is the minimum level in dB before scaling (defun log-exp-curve (x direction) (control-srate-abs *sound-srate* (let ((x (db-to-linear x))) ;; If direction=0 fade-in else fade-out (if (= direction 0) (setf env (pwev x 1 1)) (setf env (pwev 1 1 x))) (mult (/ (- 1 x)) ; normalize to 0 dB (diff env x))))) ; drop down to silence ;;; curve scaling for S-curve (defun exp-scale-mid (x) (let ((e (exp 1.0))) (/ (- (exp (- 1 x)) e) (- 1 e)))) (let ((gain0 (string-to-val gain-string-0)) (gain1 (string-to-val gain-string-1))) (if (and gain0 gain1) (check-values gain0 gain1) (setf err (format nil "~a" (invalid-string gain0 gain1)))) (if (= (length err) 0) (fade s type curve gain0 gain1) (format nil "Error.~%~a." err)))