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- ;;; SNDWARP
-
- (provide 'snd-sndwarp.scm)
- (if (not (provided? 'snd-env.scm)) (load "env.scm")) ; normalize-envelope
-
- ;;;
- ;;; CLM 3 implementation of Richard Karpen's SNDWARP Csound Ugen.
- ;;; By Bret Battey. http://www.BatHatMedia.com
- ;;; translated to Scheme by Bill S Feb-05
- ;;; changes for the optimizer 24-Oct-06
- ;;;
- ;;; Except as noted below, the parameters are modeled directly after
- ;;; the Csound version of sndwarp.
-
- ;;; ISSUES
- ;;;
- ;;; Output in this new CLM version is seeming quite noisy/clipped (?)
- ;;; Varying stereo/mono input/output has not been tested in clm2 alterations.
- ;;; Hasn't been tested with differing input and output file sampling rates.
- ;;; Uses half-sine envelope only; doesn't support alternative windowing envs.
- ;;; Csound-style attack doesn't strictly match Csound results
-
- ;;; SNDWARP KEY PARAMETERS
- ;;;
- ;;; amp = Amplitude
- ;;; [number]
- ;;;
- ;;; amp-env = Amplitude envelope
- ;;; [envelope]
- ;;;
- ;;; stretch = Stretch value or time pointer envelope (see 'time-ptr')
- ;;; [number or envelope expressed in either stretch values
- ;;; (for stretch mode) or in seconds (in time-ptr mode)]
- ;;;
- ;;; srate = Resampling scalar (1 = same pitch, .5 = 1 octave lower, etc.)
- ;;; A negative srate will read backwards into the soundfile from
- ;;; the start of each read window (not available in Csound version).
- ;;; [number or envelope]
- ;;;
- ;;; inputbeg = Source file input offset. In 'stretch' mode (see 'time-ptr'),
- ;;; soundfile read will begin at inputbeg. In 'time-ptr' mode,
- ;;; inputbeg will be added to the time pointer.
- ;;; [number, in seconds]
- ;;;
- ;;; wsize = Size of the sndwarp windows.
- ;;; [number, in seconds]
- ;;;
- ;;; randw = Range of random values to be added to wsize
- ;;; [number, in seconds]
- ;;;
- ;;; overlaps = number of window overlaps
- ;;; [number per second]
- ;;;
- ;;; time-ptr = Flag to determine whether stretching or time-pointer mode
- ;;; is to be used in interpreting the 'stretch' parameter.
- ;;; In stretch mode, the value of 'stretch' will scale the time
- ;;; of the sound. For example, a value of 2 will stretch the sound
- ;;; by 2 times. Note that stretch values of or near 0 are not
- ;;; viable since window advance times are determined by dividing
- ;;; by the stretch value.
- ;;; In time-ptr mode, the value(s) of stretch are readin pointers
- ;;; into the soundfile. For example, to read through a file
- ;;; backwards from 2 seconds at half speed, one would use a
- ;;; stretch envelope like [0 2 1 0] with a 4 second note duration.
- ;;; [NIL = stretch mode, T = time-ptr mode]
- ;;;
- ;;; scale-time-ptr = Flag to determine whether the time-ptr envelope will be
- ;;; interpreted in absolute seconds or rescaled to fit the
- ;;; duration of the input sound file.
- ;;; {not part of csound implementation}
- ;;; [NIL = absolute, T = rescale]
- ;;;
- ;;; zero-start-time-ptr = Flag to determine when in time-ptr mode whether
- ;;; the first section of windows will start at
- ;;; time-ptr = 0.
- ;;; The csound sndwarp makes this assumption, so you
- ;;; always get a bit of the attack of the sound even
- ;;; if you try to run the time pointer starting in
- ;;; the middle or end.
- ;;; [NIL = first section starts according to time-ptr,
- ;;; T = first section always starts at time-ptr = 0]
- ;;;
- ;;; sndwarp-window-offset = Flag to determine how the windows are offset
- ;;; in time. T = Csound sndwarp style, windows
- ;;; in different layers line up.
- ;;; NIL = spread evenly.
- ;;;
- ;;; loc = Stereo panning position, where 0 = left and 1 = right.
- ;;; Uses simple sqrt method.
- ;;; [number or envelope]
- ;;;
- ;;; rev = Scalar for reverb sending to a CLM reverb instrument.
- ;;; [number or envelope]
- ;;;
- ;;; status = Flag to control whether SNDWARP prints a window %-complete count
- ;;; while working.
- ;;; [NIL = no status printing, T = status printing]
- ;;;
- ;;; srcwidth = width of the sinc function used in the interpolation function of
- ;;; CLM's "src" -- which provides the resampling in sndwarp. Defaults to
- ;;; 5. If you hear high-frequency artifacts in the output sound, try
- ;;; increasing this number.
- ;;;
-
- ;;; SNDWARP DEFAULTS
-
- (define sndwarp-amp 1.0)
- (define sndwarp-amp-env '(0 1 100 1))
- (define sndwarp-stretch 1.0)
- (define sndwarp-srate 1.0)
- (define sndwarp-inputbeg 0.0)
- (define sndwarp-wsize 0.1) ; csound manual recommended start = .1
- (define sndwarp-randw 0.02) ; csound manual recommended start = .02
- (define sndwarp-overlaps 15) ; csound manual recommended start = 15
- (define sndwarp-time-ptr #f)
- (define sndwarp-scale-time-ptr #f)
- (define sndwarp-zero-start-time-ptr #f) ; #t to match csound
- (define sndwarp-window-offset #f) ; #t to match csound
- (define sndwarp-loc 0.5)
- (define sndwarp-rev 0.1)
- (define sndwarp-srcwidth 5)
-
- ;;; UTILITY FUNCTIONS
-
- (define clmsw-2pi (* 2 pi))
-
- ;;; SNDWARP
-
- (define* (sndwarp begtime dur file
- (amp sndwarp-amp)
- (amp-env sndwarp-amp-env)
- (stretch sndwarp-stretch)
- (srate sndwarp-srate)
- (inputbeg sndwarp-inputbeg)
- (wsize sndwarp-wsize)
- (randw sndwarp-randw)
- (overlaps sndwarp-overlaps)
- (time-ptr sndwarp-time-ptr)
- (scale-time-ptr sndwarp-scale-time-ptr)
- (zero-start-time-ptr sndwarp-zero-start-time-ptr)
- (window-offset sndwarp-window-offset)
- (loc sndwarp-loc)
- (rev sndwarp-rev)
- (srcwidth sndwarp-srcwidth))
-
- (define (clmsw-envelope-or-number in)
- (if (number? in) (list 0 in 1 in) in))
- (let* ((stereo-i (= (mus-sound-chans file) 2))
- (f-a (make-readin file :channel 0))
- (f-b (and stereo-i
- (make-readin file :channel 1))))
- (let ((beg (seconds->samples begtime))
- (fsr (mus-sound-srate file))
- (rdA (make-src :input (lambda (dir) (readin f-a)) :srate 0.0 :width srcwidth))
- (rdB (and stereo-i
- (make-src :input (lambda (dir) (readin f-b)) :srate 0.0 :width srcwidth)))
- (windf (make-oscil))
- (wsizef (make-env (clmsw-envelope-or-number wsize) :duration dur))
-
- (ampf (make-env amp-env :scaler amp :duration dur))
- (sratef (make-env (clmsw-envelope-or-number srate) :duration dur))
- (timef (let ((time-env (clmsw-envelope-or-number stretch))
- (fdur (mus-sound-duration file)))
- (make-env
- (if (and time-ptr scale-time-ptr)
- (normalize-envelope time-env (- fdur inputbeg))
- time-env)
- :duration dur)))
- (locf (make-env (clmsw-envelope-or-number loc) :duration dur)))
- (let ((end (+ beg (seconds->samples dur)))
- (stereo-o #f)
- (writestart 0)
- (readstart (round (* fsr inputbeg)))
- (eow-flag #f)
- (overlap-ratio 0.0000)
- (overlap-ratio-compl 0.0000)
- (outa-val 0.0000)
- (outb-val 0.0000))
-
- (do ((overlap 0 (+ 1 overlap)))
- ((or eow-flag (= overlap overlaps)))
- (set! overlap-ratio (/ overlap overlaps))
- (set! overlap-ratio-compl (- 1 overlap-ratio))
- (set! eow-flag #f)
- (set! writestart beg)
- (set! (mus-location ampf) beg)
- (set! (mus-location locf) beg)
- (do ((section 0 (+ 1 section)))
- ((or eow-flag (= overlap overlaps)))
- (set! (mus-location timef) writestart)
- (set! (mus-location sratef) writestart)
- (set! (mus-location wsizef) writestart)
- (set! wsize (env wsizef))
- (let* ((winlen (if (= overlap 0 section) ; first section of first overlap isn't randomized
- wsize
- (+ wsize (random randw))))
- (winsamps (seconds->samples winlen))
- (srate-val (env sratef)))
- (let ((time-val (env timef)))
- ;; Even for the first section's truncated envelopes, the frequency of the envelope must be as if the envelope were full duration.
- (set! (mus-frequency windf) (* .5 (/ fsr winsamps)))
- ;; Set windowing oscillator to starting phase and appropriate frequency to provide half-sine envelope over window.
- ;; Phase must be altered for first envelope of each overlap stream.
- (set! (mus-phase windf)
- (if (and (= section 0)
- (not (= overlap 0)))
- (* .5 clmsw-2pi overlap-ratio-compl)
- 0.0))
- ;; Either use the absolute time pointer or a scaled increment.
- ;; If first section in scaled mode, must initialize section readstart to beginning plus first overlap position.
- ;; In both cases, need to alter readstart and length of first section's windows based on phase of overlap
- (if time-ptr
- ;; TIME-PTR mode
- (if (= section 0)
- ;; initial section
- (let ((overlap-start
- (if (and window-offset
- (not (= overlap 0)))
- ;; Csound style - start each overlap series further into the soundfile
- (round (* winlen overlap-ratio-compl))
- ;; Alternative style - start each overlap series at 0
- 0))
- ;; To match csound version, first section must start reading at 0. Using zero-start-time-ptr
- ;; flag = #f, however, allows first section to start as determined by time-ptr instead.
- (adj-time-val (if zero-start-time-ptr 0.0 time-val)))
- (set! readstart (round (* fsr (+ inputbeg overlap-start adj-time-val))))
- (if (not (= overlap 0)) (set! winsamps (floor (* winsamps overlap-ratio)))))
- ;; remaining sections
- (set! readstart (round (* fsr (+ inputbeg time-val)))))
- ;; STRETCH mode
- (if (= section 0)
- ;; initial section
- (let ((init-read-start
- (if (and window-offset
- (not (= overlap 0)))
- ;; Csound style - start each overlap series further into the soundfile
- (round (* winlen overlap-ratio-compl))
- ;; Alternative style - start each overlap series at 0
- 0)))
- (set! readstart (round (* fsr (+ inputbeg init-read-start))))
- (if (not (= overlap 0)) (set! winsamps (floor (* winsamps overlap-ratio)))))
- ;; remaining sections
- (set! readstart (round (+ readstart (* fsr (/ winlen time-val))))))))
- ;; Set readin position and sampling rate
- (set! (mus-location f-a) readstart)
- (set! (mus-increment rdA) srate-val)
- (mus-reset rdA)
- (if stereo-i
- (begin
- (set! (mus-location f-b) readstart)
- (set! (mus-increment rdB) srate-val)
- (mus-reset rdB)))
- ;; Write window out
- (do ((k 0 (+ 1 k))
- (i writestart (+ i 1)))
- ((or eow-flag (= k winsamps)))
- (if (> i end)
- (begin
- (set! eow-flag #t)
- (set! overlap (+ 1 overlaps)))
- (let* ((amp-val (env ampf))
- (loc-val (env locf))
- (win-val (oscil windf))
- (sampa (* (src rdA) win-val))
- (sampb (if stereo-i (* (src rdB) win-val))))
- ;; channel panning
- (if stereo-o
- (let ((apan (sqrt loc-val))
- (bpan (sqrt (- 1 loc-val))))
- (set! outa-val (* amp-val apan sampa))
- (set! outb-val (* amp-val bpan (if stereo-i sampb sampa))))
- ;; stereo in, mono out
- (set! outa-val (* amp-val (if stereo-i
- (* (+ sampa sampb) .75)
- ;; mono in, mono out
- sampa))))
- ;; output
- (outa i outa-val)
- (if stereo-o
- (begin
- (outb i outb-val)
- (if *reverb* (outa i (* rev outa-val) *reverb*)))))))
- (if (and (not eow-flag) ;; For first section, have to backup readstart
- (= section 0)
- (> overlap 0)
- (not time-ptr))
- (set! readstart (- readstart (round (* fsr winlen overlap-ratio-compl)))))
- (set! writestart (+ writestart winsamps)))))))))
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