audacia/plug-ins/adjustable-fade.ny

$nyquist plug-in
$version 4
$type process
$preview linear
$preview selection
$name (_ "Adjustable Fade")
$manpage "Adjustable_Fade"
$debugbutton false
$action (_ "Applying Fade...")
$author (_ "Steve Daulton")
$release 2.3.0
$copyright (_ "Released under terms of the GNU General Public License version 2")

;; 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:
;; https://wiki.audacityteam.org/wiki/Nyquist_Plug-ins_Reference

$control type (_ "Fade Type") choice (
   ("Up" (_ "Fade Up"))
   ("Down" (_ "Fade Down"))
   ("SCurveUp" (_ "S-Curve Up"))
   ("SCurveDown" (_ "S-Curve Down"))
) 0
$control curve (_ "Mid-fade Adjust (%)") real "" 0 -100 100
$control units (_ "Start/End as") choice (
   ("Percent" (_ "% of Original"))
   ("dB" (_ "dB Gain"))
) 0 
$control gain0 (_ "Start (or end)") float-text "" 0 nil nil
$control gain1 (_ "End (or start)") float-text "" 100 nil nil
$control preset (_ "Handy Presets (override controls)") choice (
   ("None" (_ "None Selected"))
   ("LinearIn" (_ "Linear In"))
   ("LinearOut" (_ "Linear Out"))
   ("ExponentialIn" (_ "Exponential In"))
   ("ExponentialOut" (_ "Exponential Out"))
   ("LogarithmicIn" (_ "Logarithmic In"))
   ("LogarithmicOut" (_ "Logarithmic Out"))
   ("RoundedIn" (_ "Rounded In"))
   ("RoundedOut" (_ "Rounded Out"))
   ("CosineIn" (_ "Cosine In"))
   ("CosineOut" (_ "Cosine Out"))
   ("SCurveIn" (_ "S-Curve In"))
   ("SCurveOut" (_ "S-Curve Out"))
) 0


(defun get-input (sig)
"Preview takes the entire selection so that we know the correct
selection length, but preview only needs to process preview length."
;; (if *previewp* sig (multichan-expand #'trim-input sig)))
  (if (get '*track* 'view)  ;NIL if preview
      sig
      (multichan-expand #'trim-input sig)))

(defun trim-input (sig)
"Trim input when previewing."
  (let ((dur (min (get-duration 1)
                  (get '*project* 'preview-duration))))
    (setf sig (extract-abs 0 dur *track*))))

;;; invalid values
(defun check-values (x y)
  (if (= units 0)  ;percentage values
    (cond
      ((or (< x 0)(< y 0))
        (throw 'err (format nil (_ "~aPercentage values cannot be negative.") err)))
      ((or (> x 1000)(> y 1000))
        (throw 'err (format nil (_ "~aPercentage values cannot be more than 1000 %.") err))))
    (cond   ;dB values
      ((or (> x 100)(> y 100))
        (throw 'err (format nil (_ "~adB values cannot be more than +100 dB.~%~%~
                                 Hint: 6 dB doubles the amplitude~%~
                                 \t-6 dB halves the amplitude." err)))))))

;;; select and apply fade
(defun fade (sig type curve g0 g1)
  (check-values gain0 gain1)
  (mult (get-input 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))))

(defmacro gainscale (gain type)
  `(setf ,gain
      (if (= ,type 0)  ; percent
          (/ ,gain 100.0)
          (db-to-linear ,gain))))


(setf curve (/ curve 100.0))
(setf gain0 (gainscale gain0 units))
(setf gain1 (gainscale gain1 units))
(setf err (format nil (_ "Error~%~%")))


(catch 'err (fade *track* type curve gain0 gain1))