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Re: RE:Decaying squiggle
From: |
Richard Shann |
Subject: |
Re: RE:Decaying squiggle |
Date: |
Fri, 24 Jun 2016 08:11:05 +0100 |
On Fri, 2016-06-24 at 07:59 +0100, Richard Shann wrote:
> Could you attach this code as a file - I get it causing a crash in
> ghostscript (after using convert-ly and trying on 2.18.0 and 2.19.43),
Oh,
https://gist.github.com/mwitmer/1370615
it seems to be published - that code has compile just fine.
Richard
> I
> suspect this is because of whitespace being inserted by some part of the
> food chain.
> Thanks!
>
> Richard
>
>
> On Thu, 2016-06-23 at 16:08 -0400, Stephen MacNeil wrote:
> > Hi Andrew
> >
> >
> > This is common in guitar. Modern scores. Mark Witmer wrote code for
> > this it's old but I still use it.
> >
> > %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
> >
> >
> >
> > \version "2.16.0"
> >
> >
> > % vibrato.ly
> >
> > % Author: Mark Witmer
> >
> >
> > % Sets the next trill spanner to draw a waveform with the provided
> > wevelength
> >
> > % and amplitudes. The waveform will go from one amplitude to the next
> > in a
> >
> > % linear fashion.
> >
> > vibrato = #(define-music-function (parser location amplitudes
> > wavelength) (list? number?) #{
> >
> > \once \override TrillSpanner #'after-line-breaking = $(lambda (grob)
> >
> > (ly:grob-set-property! grob 'stencil (makevib grob amplitudes
> > wavelength)))
> >
> > #})
> >
> > #(define adjustvib #t)
> >
> >
> > % Creates the postscript for one system of the vibrato marking
> >
> > #(define (make_ps no-sib? lbound xspan span-so-far amplitude-vector
> > wavelength)
> >
> > (if (or (= xspan -inf.0) (= xspan +inf.0))
> >
> > ""
> >
> > (let ((lbound
> >
> > (cond
> >
> > ((and (> span-so-far 0) adjustvib)
> >
> > (- lbound 18))
> >
> > (no-sib? (+ lbound 1))
> >
> > (else lbound)))
> >
> > (last
> >
> > (inexact->exact (floor (/ (+ span-so-far xspan) wavelength)))))
> >
> > (format
> >
> > #f "gsave currentpoint translate 0.15 setlinewidth newpath /x ~a\
> >
> > def\nx 0.0 moveto\n ~a ~a"
> >
> > lbound
> >
> > (let make-curve
> >
> > ((current (inexact->exact (floor (/ span-so-far wavelength)))))
> >
> > (cond
> >
> > ((= current (vector-length amplitude-vector)) "")
> >
> > ((< (vector-ref amplitude-vector current) 0) "")
> >
> > (else
> >
> > (let ((current-ps
> >
> > (format
> >
> > #f " x ~a add ~a x ~a add ~a x ~a \
> >
> > add 0.0 curveto\n/x x ~a add def\n"
> >
> > (exact->inexact (/ wavelength 3))
> >
> > (vector-ref amplitude-vector current)
> >
> > (exact->inexact (* 2 (/ wavelength 3)))
> >
> > (- (vector-ref amplitude-vector current))
> >
> > wavelength
> >
> > wavelength)))
> >
> > (if (= (+ current 1) last)
> >
> > current-ps
> >
> > (format #f "~a~a" current-ps
> >
> > (make-curve (+ 1 current))))))))
> >
> > "stroke grestore"))))
> >
> >
> > % Returns the width of a grob
> >
> > #(define (grob-width grob)
> >
> > (if (or (= (car (ly:grob-property grob 'X-extent)) -inf.0)
> >
> > (= (car (ly:grob-property grob 'X-extent)) +inf.0))
> >
> > 0
> >
> > (- (cdr (ly:grob-property grob 'X-extent))
> >
> > (car (ly:grob-property grob 'X-extent)))))
> >
> >
> > % Returns the number of ems already traversed by the grob's siblings
> > in previous systems
> >
> > #(define (width-up-to grob siblings count)
> >
> > (if (eq? (car siblings) grob)
> >
> > count
> >
> > (+ (+ count (width-up-to grob (cdr siblings) count))
> >
> > (grob-width (car siblings)))))
> >
> >
> > % Returns the total width of the individual grobs for each system that
> > make up the original grob
> >
> > #(define (calcfull siblings count)
> >
> > (if (eqv? (length siblings) 0)
> >
> > count
> >
> > (calcfull (cdr siblings) (+ count (grob-width (car siblings))))))
> >
> >
> > % Fills a vector of length len with linear interpolations between the
> > values found in amplitudes
> >
> > #(define (fill-amplitude-vector! amplitude-vector len current-index
> > amplitudes)
> >
> > (if (> (length amplitudes) 1)
> >
> > (let ((start-amplitude (car amplitudes))
> >
> > (end-amplitude (cadr amplitudes))
> >
> > (start-index current-index)
> >
> > (end-index (+ current-index
> >
> > (inexact->exact
> >
> > (floor (/ (vector-length amplitude-vector)
> >
> > (- len 1)))))))
> >
> > (do ((n current-index (+ 1 n)))
> >
> > ((or (> n (+ start-index end-index))
> >
> > (>= n (vector-length amplitude-vector))))
> >
> > (vector-set! amplitude-vector n
> >
> > (exact->inexact
> >
> > (+ start-amplitude
> >
> > (* (/ (- n start-index) (- end-index start-index))
> >
> > (- end-amplitude start-amplitude))))))
> >
> > (fill-amplitude-vector!
> >
> > amplitude-vector len end-index (cdr amplitudes)))))
> >
> >
> > % Makes the vector of amplitudes for the vibrato marking
> >
> > #(define (make-amplitude-vector amplitudes total-span wavelength)
> >
> > (let* ((current-start 0)
> >
> > (len (inexact->exact (floor (/ total-span wavelength))))
> >
> > (amplitude-vector (make-vector len)))
> >
> > (if (> (length amplitudes) 1)
> >
> > (fill-amplitude-vector!
> >
> > amplitude-vector (length amplitudes) 0 amplitudes)
> >
> > (vector-fill! amplitude-vector (car amplitudes)))
> >
> > amplitude-vector))
> >
> >
> > % Creates a stencil that draws a sine wave for vibrato based on the
> > provided amplitudes and wavelength
> >
> > #(define (makevib grob amplitudes wavelength)
> >
> > (let* ((orig (ly:grob-original grob))
> >
> > (siblings (if (ly:grob? orig) (ly:spanner-broken-into orig) '()))
> >
> > (span (ly:grob-property grob 'X-extent))
> >
> > (xbeg (car span))
> >
> > (xend (cdr span))
> >
> > (xspan (- xend xbeg))
> >
> > (total-span (if (eqv? (length siblings) 0) (- xspan 3) (- (calcfull
> > siblings 0) 3)))
> >
> > (lbound (if (or (null? siblings) (eq? (car siblings) grob))
> >
> > 0 (+ 14 (cdr (assq 'X (ly:grob-property grob 'left-bound-info))))))
> >
> > (span-so-far (if (null? siblings) 0
> >
> > (width-up-to grob siblings 0))))
> >
> > (ly:make-stencil
> >
> > (list 'embedded-ps
> >
> > (make_ps (null? siblings) lbound xspan span-so-far
> >
> > (make-amplitude-vector amplitudes total-span wavelength)
> >
> > wavelength))
> >
> > '(0 . 0) '(-0.7 . 0.5))))
> >
> >
> > vib = #(define-music-function (parser location sizes) (list?)
> > #{ \vibrato $sizes #0.7 #})
> >
> > sVib = \startTrillSpan
> >
> > eVib = \stopTrillSpan
> >
> >
> > % Example:
> >
> > \relative c' {\time 4/4 \key d \major \vibrato #'(4 0 4) #1.5 c
> > \startTrillSpan d e d c d e d c\stopTrillSpan
> >
> > \vibrato #'(1 6 2 1 3 7 4) #1 c\startTrillSpan d e d c d e d c d e d c
> > d e d c d e d c d e d c d e d c d e d
> >
> > c d e d c d e d c d e d c d e d c d e d c d e d c d e d c d e
> > \stopTrillSpan}
> >
> > %%%%%%%%%%%
> >
> > \paper {
> >
> > ragged-right = ##f
> >
> > }
> >
> >
> > \relative c' {
> >
> > \vibrato #'(4 .2 0) #1.2 c1\startTrillSpan c\stopTrillSpan
> >
> > }
> >
> >
> > %%%%%%%%%%%%%%%%%%%%%%%%%%%%
> >
> >
> >
> >
> > HTH
> >
> > Stephen
> >
> > _______________________________________________
> > lilypond-user mailing list
> > address@hidden
> > https://lists.gnu.org/mailman/listinfo/lilypond-user
>
>
>
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