$nyquist plug-in $version 4 $type process $name (_ "Noise Gate") $manpage "Noise_Gate" $debugbutton false $preview enabled $author (_ "Steve Daulton") $release 3.0.1 $copyright (_ "Released under terms of the GNU General Public License version 2 or later.") ;; Released under terms of the GNU General Public License version 2 or later: ;; http://www.gnu.org/licenses/old-licenses/gpl-2.0.html . $control mode (_ "Select Function") choice (("Gate" (_ "Gate")) ("Analyze" (_ "Analyze Noise Level"))) 0 $control stereo-link (_ "Stereo Linking") choice (("LinkStereo" (_ "Link Stereo Tracks")) ("DoNotLink" (_ "Don't Link Stereo"))) 0 ;; Work around bug 2336 - Text after control is not read by screen reader. $control threshold (_ "Gate threshold (dB)") float "" -40 -96 -6 $control gate-freq (_ "Gate frequencies above (kHz)") float "" 0 0 10 $control level-reduction (_ "Level reduction (dB)") float "" -24 -100 0 $control attack (_ "Attack (ms)") float "" 10 1 1000 $control hold (_ "Hold (ms)") float "" 50 0 2000 $control decay (_ "Decay (ms)") float "" 100 10 4000 ;; The gain envelope for the noisegate function may be a mono sound (stereo-link = 1, or *track* is mono) ;; or an array of sounds (stereo-link = 0 and *track* is stereo). ;; 'Level Reduction' is similar to "Range" or "Floor", but is a (negative) amount of gain ;; rather than a fixed level. ;; ;; To create the gain envelope: ;; 1. If stereo track and stereo-link = 1, get the max of left and right. ;; 2. Add 'hold' when level > threshold. ;; This adds a high level signal for 'hold' seconds when the level ;; falls below the threshold. ;; 3. Nyquist GATE function to generate exponential rise and decay. ;; Unlike analog noise gates, lookahead is used so that the gate ;; begins to open before the signal rises above the threshold. ;; When the threshold is reached, the gate is fully open. ;; This prevents the gate from clipping the beginning of words / sounds. ;; 4. Scale level of envelope and offset so that we have unity gain above ;; threshold, and 'level-reduction' below the threshold. ;; If silence-flag is set (= 1), gain below the threshold is zero. ; Global variables (setf silence-flag (if (> level-reduction -96) 0 1)) (setf gate-freq (* 1000.0 gate-freq)) (setf floor (db-to-linear level-reduction)) (setf threshold (db-to-linear threshold)) (setf attack (/ attack 1000.0)) (setf lookahead attack) (setf decay (/ decay 1000.0)) (setf hold (/ hold 1000.0)) (defun error-check () (let ((max-hz (* *sound-srate* 0.45)) ;10% below Nyquist should be safe maximum. (max-khz (roundn (* 0.00045 *sound-srate*) 1)) (gate-freq-khz (roundn (/ gate-freq 1000.0) 1))) (when (>= gate-freq max-hz) ;; Work around bug 2012. (throw 'err (format nil (_ "Error. \"Gate frequencies above: ~s kHz\" is too high for selected track. Set the control below ~a kHz.") gate-freq-khz max-khz)))) (let ((start (get '*selection* 'start)) (end (get '*selection* 'end))) (when (> (* *sound-srate* (- end start)) (1- (power 2 31))) ;; Work around bug 2012 and 439. (throw 'err (format nil (_ "Error. Selection too long. Maximum length is ~a.") (format-time (/ (1- (power 2 31)) *sound-srate*)))))) (when (< len 100) ;100 samples required ;; Work around bug 2012. (throw 'err (format nil (_ "Error. Insufficient audio selected. Make the selection longer than ~a ms.") (round-up (/ 100000 *sound-srate*)))))) ;;; Analysis functions: ;; Measure the peak level (dB) and suggest setting threshold a little higher. (defun analyze (sig) ; Return analysis text. (let* ((test-length (truncate (min len (/ *sound-srate* 2.0)))) (peakdb (peak-db sig test-length)) (target (+ 1.0 peakdb))) ;suggest 1 dB above noise level ;; Work around bug 2012. (format nil (_ "Peak based on first ~a seconds ~a dB~% Suggested Threshold Setting ~a dB.") (roundn (/ test-length *sound-srate*) 2) (roundn peakdb 2) (roundn target 0)))) (defun peak-db (sig test-len) ;; Return absolute peak (dB). ;; For stereo tracks, return the maximum of the channels. (if (arrayp sig) (let ((peakL (peak (aref sig 0) test-len)) (peakR (peak (aref sig 1) test-len))) (linear-to-db (max peakL peakR))) (linear-to-db test-len))) ;;; Utility functions (defun round-up (num) (round (+ num 0.5))) (defun roundn (num places) ;; Return number rounded to specified decimal places. (if (= places 0) (round num) (let* ((x (format NIL "~a" places)) (ff (strcat "%#1." x "f"))) (setq *float-format* ff) (format NIL "~a" num)))) (defun format-time (s) ;;; format time in seconds as h m. (let* ((hh (truncate (/ s 3600))) (mm (truncate (/ s 60)))) ;i18n-hint: hours and minutes. Do not translate "~a". (format nil (_ "~ah ~am") hh (- mm (* hh 60))))) ;;; Gate Functions (defun noisegate (sig follow) ;; Takes a sound and a 'follow' sound as arguments. ;; Returns the gated audio. (let ((gain (/ (- 1 (* silence-flag floor)))) ; silence-flag is 0 or 1. (env (get-env follow))) (if (> gate-freq 20) (let* ((high (highpass8 sig gate-freq)) (low (lowpass8 sig (* 0.91 gate-freq)))) ;magic number 0.91 improves crossover. (sim (mult high gain env) low)) (mult sig gain env)))) (defun get-env (follow) ;; Return gate's envelope (let* ((gate-env (gate follow lookahead attack decay floor threshold)) (gate-env (clip gate-env 1.0))) ;gain must not exceed unity. (diff gate-env (* silence-flag floor)))) (defun peak-follower (sig) ;; Return signal that gate will follow. (setf sig (multichan-expand #'snd-abs sig)) (when (and (arrayp sig)(= stereo-link 0)) (setf sig (s-max (aref sig 0) (aref sig 1)))) (if (> hold 0) (multichan-expand #'snd-oneshot sig threshold hold) sig)) (defun process () (error-check) ;; For stereo tracks, 'peak-follower' may return a sound ;; or array of sounds, so pass it to 'noisegate' rather than ;; calculating in 'noisegate'. (multichan-expand #' noisegate *track* (peak-follower *track*))) ;; Run program (case mode (0 (catch 'err (process))) (T (analyze *track*)))