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Re: problème avec un fichier de configura tion de lilypond.
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From: |
Jean-Jacques Gerbaud |
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Subject: |
Re: problème avec un fichier de configura tion de lilypond. |
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Date: |
Sat, 19 Jan 2013 08:52:45 +0100 |
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User-agent: |
Mozilla/5.0 (X11; Linux i686; rv:17.0) Gecko/20130106 Thunderbird/17.0.2 |
Le 19/01/2013 00:29, Eluze a écrit :
bonsoir
Bonjour Eluze
je ne vois pas de quoi il s'agit - peux-tu fournir ce fichier ainsi que le
code nécessaire!?
Voici déjà le code :
\version "2.17.7"
mesnotes = \relative c {
c'4 e g c |
e g b c
}
<<
\new Staff {
\clef treble
\mesnotes
}
\new TabStaff {
\set TabStaff.stringTunings = #'(-17 -12 -7 -3 2 7)
\mesnotes
}
>>
et voici le fichier
/opt/lilypond/usr/share/lilypond/current/scm/translation-functions.scm
(lilypond est installé dans /opt)
;;;; This file is part of LilyPond, the GNU music typesetter.
;;;;
;;;; (c) 1998--2012 Han-Wen Nienhuys <address@hidden>
;;;; Jan Nieuwenhuizen <address@hidden>
;;;;
;;;; LilyPond is free software: you can redistribute it and/or modify
;;;; it under the terms of the GNU General Public License as published by
;;;; the Free Software Foundation, either version 3 of the License, or
;;;; (at your option) any later version.
;;;;
;;;; LilyPond is distributed in the hope that it will be useful,
;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;;; GNU General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU General Public License
;;;; along with LilyPond. If not, see <http://www.gnu.org/licenses/>.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; clefs
(define-public (clef-octavation-markup oct style)
"The octavation sign formatting function. @var{oct} is supposed to be
a string holding the octavation number, @var{style} determines the
way the octavation number is displayed."
(let* ((delim (if (symbol? style)
(case style
((parenthesized) (cons "(" ")"))
((bracketed) (cons "[" "]"))
(else (cons "" "")))
(cons "" "")))
(text (string-concatenate (list (car delim) oct (cdr delim)))))
(make-vcenter-markup text)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; metronome marks
(define-public (format-metronome-markup event context)
(let ((hide-note (ly:context-property context 'tempoHideNote #f))
(text (ly:event-property event 'text))
(dur (ly:event-property event 'tempo-unit))
(count (ly:event-property event 'metronome-count)))
(metronome-markup text dur count hide-note)))
(define-public (metronome-markup text dur count hide-note)
(let* ((note-mark (if (and (not hide-note) (ly:duration? dur))
(make-smaller-markup
(make-note-by-number-markup (ly:duration-log dur)
(ly:duration-dot-count dur)
1))
#f))
(count-markup (cond ((number? count)
(if (> count 0)
(make-simple-markup (number->string count))
#f))
((pair? count)
(make-concat-markup
(list
(make-simple-markup (number->string (car
count)))
(make-simple-markup " ")
(make-simple-markup "–")
(make-simple-markup " ")
(make-simple-markup (number->string (cdr
count))))))
(else #f)))
(note-markup (if (and (not hide-note) count-markup)
(make-concat-markup
(list
(make-general-align-markup Y DOWN note-mark)
(make-simple-markup " ")
(make-simple-markup "=")
(make-simple-markup " ")
count-markup))
#f))
(text-markup (if (not (null? text))
(make-bold-markup text)
#f)))
(if text-markup
(if (and note-markup (not hide-note))
(make-line-markup (list text-markup
(make-concat-markup
(list (make-simple-markup "(")
note-markup
(make-simple-markup ")")))))
(make-line-markup (list text-markup)))
(if note-markup
(make-line-markup (list note-markup))
(make-null-markup)))))
(define-public (format-mark-alphabet mark context)
(make-bold-markup (make-markalphabet-markup (1- mark))))
(define-public (format-mark-box-alphabet mark context)
(make-bold-markup (make-box-markup (make-markalphabet-markup (1-
mark)))))
(define-public (format-mark-circle-alphabet mark context)
(make-bold-markup (make-circle-markup (make-markalphabet-markup (1-
mark)))))
(define-public (format-mark-letters mark context)
(make-bold-markup (make-markletter-markup (1- mark))))
(define-public (format-mark-numbers mark context)
(make-bold-markup (number->string mark)))
(define-public (format-mark-barnumbers mark context)
(make-bold-markup (number->string (ly:context-property context
'currentBarNumber))))
(define-public (format-mark-box-letters mark context)
(make-bold-markup (make-box-markup (make-markletter-markup (1- mark)))))
(define-public (format-mark-circle-letters mark context)
(make-bold-markup (make-circle-markup (make-markletter-markup (1-
mark)))))
(define-public (format-mark-box-numbers mark context)
(make-bold-markup (make-box-markup (number->string mark))))
(define-public (format-mark-circle-numbers mark context)
(make-bold-markup (make-circle-markup (number->string mark))))
(define-public (format-mark-box-barnumbers mark context)
(make-bold-markup (make-box-markup
(number->string (ly:context-property context
'currentBarNumber)))))
(define-public (format-mark-circle-barnumbers mark context)
(make-bold-markup (make-circle-markup
(number->string (ly:context-property context
'currentBarNumber)))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Bass figures.
(define-public (format-bass-figure figure event context)
(let* ((fig (ly:event-property event 'figure))
(fig-markup (if (number? figure)
;; this is not very elegant, but center-aligning
;; all digits is problematic with other markups,
;; and shows problems in the (lack of) overshoot
;; of feta-alphabet glyphs.
((if (<= 10 figure)
(lambda (y) (make-translate-scaled-markup
(cons -0.7 0) y))
identity)
(cond
((eq? #t (ly:event-property event 'diminished))
(markup #:slashed-digit figure))
((eq? #t (ly:event-property event 'augmented-slash))
(markup #:backslashed-digit figure))
(else (markup #:number (number->string figure 10)))))
#f))
(alt (ly:event-property event 'alteration))
(alt-markup
(if (number? alt)
(markup
#:general-align Y DOWN #:fontsize
(if (not (= alt DOUBLE-SHARP))
-2 2)
(alteration->text-accidental-markup alt))
#f))
(plus-markup (if (eq? #t (ly:event-property event 'augmented))
(markup #:number "+")
#f))
(alt-dir (ly:context-property context 'figuredBassAlterationDirection))
(plus-dir (ly:context-property context 'figuredBassPlusDirection)))
(if (and (not fig-markup) alt-markup)
(begin
(set! fig-markup (markup #:left-align #:pad-around 0.3 alt-markup))
(set! alt-markup #f)))
;; hmm, how to get figures centered between note, and
;; lone accidentals too?
;; (if (markup? fig-markup)
;; (set!
;; fig-markup (markup #:translate (cons 1.0 0)
;; #:center-align fig-markup)))
(if alt-markup
(set! fig-markup
(markup #:put-adjacent
X (if (number? alt-dir)
alt-dir
LEFT)
fig-markup
#:pad-x 0.2 alt-markup)))
(if plus-markup
(set! fig-markup
(if fig-markup
(markup #:put-adjacent
X (if (number? plus-dir)
plus-dir
LEFT)
fig-markup
#:pad-x 0.2 plus-markup)
plus-markup)))
(if (markup? fig-markup)
(markup #:fontsize -2 fig-markup)
empty-markup)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; fret diagrams
(define (create-fretboard context grob placement-list)
"Convert @var{placement-list} into a fretboard @var{grob}."
(let* ((tunings (ly:context-property context 'stringTunings))
(my-string-count (length tunings))
(details (ly:grob-property grob 'fret-diagram-details)))
;; Add string-count from string-tunings to fret-diagram-details.
(set! (ly:grob-property grob 'fret-diagram-details)
(acons 'string-count my-string-count details))
;; Create the dot-placement list for the grob
(set! (ly:grob-property grob 'dot-placement-list) placement-list)))
(define-public
(determine-frets context notes specified-info . rest)
"Determine string numbers and frets for playing @var{notes}
as a chord, given specified information @var{specified-info}.
@var{specified-info} is a list with two list elements,
specified strings @code{defined-strings} and
specified fingerings @code{defined-fingers}. Only a fingering address@hidden
will affect the fret selection, as it specifies an open string.
If @code{defined-strings} is @code{'()}, the context property
@code{defaultStrings} will be used as a list of defined strings.
Will look for predefined fretboards if @code{predefinedFretboardTable}
is not @code {#f}. If @var{rest} is present, it contains the
@code{FretBoard} grob, and a fretboard will be
created. Otherwise, a list of @code{(string fret finger)} lists will
be returned."
;; helper functions
(define (string-frets->placement-list string-frets string-count)
"Convert @var{string-frets} to @code{fret-diagram-verbose}
dot placement entries."
(let* ((placements (list->vector
(map (lambda (x) (list 'mute x))
(iota string-count 1)))))
(for-each (lambda (sf)
(let* ((string (car sf))
(fret (cadr sf))
(finger (caddr sf)))
(vector-set!
placements
(1- string)
(if (= 0 fret)
(list 'open string)
(if finger
(list 'place-fret string fret finger)
(list 'place-fret string fret))))))
string-frets)
(vector->list placements)))
(define (placement-list->string-frets placement-list)
"Convert @var{placement-list} to string-fret list."
(map (lambda (x) (if (eq? (car x) 'place-fret)
(cdr x)
(list (cadr x) 0)))
(filter (lambda (l) (or (eq? (car l) 'place-fret)
(eq? (car l) 'open)))
placement-list)))
(define (entry-count art-list)
"Count the number of entries in a list of articulations."
(length (filter (lambda (x) (not (null? x)))
art-list)))
(define (determine-frets-and-strings
notes
defined-strings
defined-fingers
minimum-fret
maximum-stretch
tuning)
"Determine the frets and strings used to play the notes in
@var{notes}, given @var{defined-strings} and @var{defined-fingers}
along with @var{minimum-fret}, @var{maximum-stretch}, and
@var{tuning}. Returns a list of @code{(string fret finger) lists."
(define restrain-open-strings (ly:context-property context
'restrainOpenStrings
#f))
(define specified-frets '())
(define free-strings (iota (length tuning) 1))
(define (calc-fret pitch string tuning)
"Calculate the fret to play @var{pitch} on @var{string} with
@var{tuning}."
(* 2 (- (ly:pitch-tones pitch) (ly:pitch-tones (list-ref tuning
(1- string)))))) ===->ligne 307
(define (note-pitch note)
"Get the pitch (in semitones) from @var{note}."
(ly:event-property note 'pitch))
(define (note-finger ev)
"Get the fingering from @var{ev}. Return @var{#f}
if no fingering is present."
(let* ((articulations (ly:event-property ev 'articulations))
(finger-found #f))
(map (lambda (art)
(let* ((num (ly:event-property art 'digit)))
(if (and (ly:in-event-class? art 'fingering-event)
(number? num)
(> num 0))
(set! finger-found num))))
articulations)
finger-found))
(define (string-number event)
"Get the string-number from @var{event}. Return @var{#f}
if no string-number is present."
(let ((num (ly:event-property event 'string-number)))
(if (number? num)
num
#f)))
(define (delete-free-string string)
(if (number? string)
(set! free-strings
(delete string free-strings))))
(define (close-enough fret)
"Decide if @var{fret} is acceptable, given the already used frets."
(if (null? specified-frets)
#t
(reduce
(lambda (x y)
(and x y))
#t
(map (lambda (specced-fret)
(or (eq? 0 specced-fret)
(and (not restrain-open-strings)
(eq? 0 fret))
(>= maximum-stretch (abs (- fret specced-fret)))))
specified-frets))))
(define (string-qualifies string pitch)
"Can @var{pitch} be played on @var{string}, given already placed
notes?"
(let* ((fret (calc-fret pitch string tuning)))
(and (or (and (not restrain-open-strings)
(eq? fret 0))
(>= fret minimum-fret))
(integer? fret)
(close-enough fret))))
(define (open-string string pitch)
"Is @var{pitch} and open-string note on @var{string}, given
the current tuning?"
(let* ((fret (calc-fret pitch string tuning)))
(eq? fret 0)))
(define (set-fret! pitch-entry string finger)
(let ((this-fret (calc-fret (car pitch-entry)
string
tuning)))
(if (< this-fret 0)
(ly:warning (_ "Negative fret for pitch ~a on string ~a")
(car pitch-entry) string)
(if (not (integer? this-fret))
(ly:warning (_ "Missing fret for pitch ~a on string ~a")
(car pitch-entry) string)))
(delete-free-string string)
(set! specified-frets (cons this-fret specified-frets))
(list-set! string-fret-fingers
(cdr pitch-entry)
(list string this-fret finger))))
(define (kill-note! string-fret-fingers note-index)
(list-set! string-fret-fingers note-index (list #f #t)))
(define string-fret-fingers
(map (lambda (string finger)
(if (null? finger)
(list string #f)
(list string #f finger)))
defined-strings defined-fingers))
;;; body of determine-frets-and-strings
(let* ((pitch-alist (apply (lambda (mylist)
(let ((index -1))
(map (lambda (note)
(begin
(set! index (1+ index))
(cons (note-pitch note)
index)))
mylist)))
notes '()))
(pitches (map note-pitch notes)))
;; handle notes with strings assigned and fingering of 0
(for-each
(lambda (pitch-entry string-fret-finger)
(let* ((string (list-ref string-fret-finger 0))
(finger (if (eq? (length string-fret-finger) 3)
(list-ref string-fret-finger 2)
'()))
(pitch (car pitch-entry))
(digit (if (null? finger)
#f
finger)))
(if (or (not (null? string))
(eq? digit 0))
(if (eq? digit 0)
;; here we handle fingers of 0 -- open strings
(let ((fit-string
(find (lambda (string)
(open-string string pitch))
free-strings)))
(if fit-string
(set-fret! pitch-entry fit-string #f)
(ly:warning (_ "No open string for pitch ~a")
pitch)))
;; here we handle assigned strings
(let ((this-fret
(calc-fret pitch string tuning))
(handle-negative
(ly:context-property context
'handleNegativeFrets
'recalculate)))
(cond ((or (and (>= this-fret 0) (integer? this-fret))
(eq? handle-negative 'include))
(set-fret! pitch-entry string finger))
((eq? handle-negative 'recalculate)
(begin
(ly:warning
(_ "Requested string for pitch
requires negative fret: string ~a pitch ~a")
string
pitch)
(ly:warning (_ "Ignoring string request and
recalculating."))
(list-set! string-fret-fingers
(cdr pitch-entry)
(if (null? finger)
(list '() #f)
(list '() #f finger)))))
((eq? handle-negative 'ignore)
(begin
(ly:warning
(_ "Requested string for pitch
requires negative fret: string ~a pitch ~a")
string
pitch)
(ly:warning (_ "Ignoring note in tablature."))
(kill-note! string-fret-fingers
(cdr pitch-entry))))))))))
pitch-alist string-fret-fingers)
;; handle notes without strings assigned -- sorted by pitch, so
;; we need to use the alist to have the note number available
(for-each
(lambda (pitch-entry)
(let* ((string-fret-finger (list-ref string-fret-fingers
(cdr pitch-entry)))
(string (list-ref string-fret-finger 0))
(finger (if (eq? (length string-fret-finger) 3)
(list-ref string-fret-finger 2)
'()))
(pitch (car pitch-entry))
(fit-string
(find (lambda (string)
(string-qualifies string pitch))
free-strings)))
(if (not (list-ref string-fret-finger 1))
(if fit-string
(set-fret! pitch-entry fit-string finger)
(begin
(ly:warning (_ "No string for pitch ~a (given frets
~a)")
pitch
specified-frets)
(kill-note! string-fret-fingers
(cdr pitch-entry)))))))
(sort pitch-alist (lambda (pitch-entry-a pitch-entry-b)
(ly:pitch<? (car pitch-entry-b)
(car pitch-entry-a)))))
string-fret-fingers)) ;; end of determine-frets-and-strings
(define (get-predefined-fretboard predefined-fret-table tuning pitches)
"Search through @var{predefined-fret-table} looking for a predefined
fretboard with a key of @var{(tuning . pitches)}. The search will check
both up and down an octave in order to accomodate transposition of the
chords. Returns a placement-list."
(define (get-fretboard key)
(let ((hash-handle
(hash-get-handle predefined-fret-table key)))
(if hash-handle
(cdr hash-handle) ; return table entry
'())))
;; body of get-predefined-fretboard
(let ((test-fretboard (get-fretboard (cons tuning pitches))))
(if (not (null? test-fretboard))
test-fretboard
(let ((test-fretboard
(get-fretboard
(cons tuning (map (lambda (x) (shift-octave x 1)) pitches)))))
(if (not (null? test-fretboard))
test-fretboard
(get-fretboard
(cons tuning (map (lambda (x) (shift-octave x -1))
pitches))))))))
;; body of determine-frets
(let* ((predefined-fret-table
(ly:context-property context 'predefinedDiagramTable))
(tunings (ly:context-property context 'stringTunings))
(string-count (length tunings))
(grob (if (null? rest) '() (car rest)))
(pitches (map (lambda (x) (ly:event-property x 'pitch)) notes))
(defined-strings (map (lambda (x)
(if (null? x)
x
(ly:event-property x 'string-number)))
(car specified-info)))
(defined-fingers (map (lambda (x)
(if (null? x)
x
(ly:event-property x 'digit)))
(cadr specified-info)))
(default-strings (ly:context-property context 'defaultStrings
'()))
(strings-used (if (and (zero? (entry-count defined-strings))
(not (zero? (entry-count
default-strings))))
default-strings
defined-strings))
(predefined-fretboard
(if predefined-fret-table
(get-predefined-fretboard
predefined-fret-table
tunings
pitches)
'())))
(if (null? predefined-fretboard)
(let ((string-frets
(determine-frets-and-strings
notes
strings-used
defined-fingers
(ly:context-property context 'minimumFret 0)
(ly:context-property context 'maximumFretStretch 4)
tunings)))
(if (null? grob)
string-frets
(create-fretboard
context grob (string-frets->placement-list
(filter (lambda (entry)
(car entry))
string-frets)
string-count))))
(if (null? grob)
(placement-list->string-frets predefined-fretboard)
(create-fretboard context grob predefined-fretboard)))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; tablature
;; The TabNoteHead tablatureFormat callbacks.
;; Calculate the fret from pitch and string number as letter
;; The fret letter is taken from 'fretLabels if present
(define-public (fret-letter-tablature-format
context string-number fret-number)
(let ((labels (ly:context-property context 'fretLabels)))
(make-vcenter-markup
(cond
((= 0 (length labels))
(string (integer->char (+ fret-number (char->integer #\a)))))
((and (<= 0 fret-number) (< fret-number (length labels)))
(list-ref labels fret-number))
(else
(ly:warning (_ "No label for fret ~a (on string ~a);
only ~a fret labels provided")
fret-number string-number (length labels))
".")))))
;; Display the fret number as a number
(define-public (fret-number-tablature-format
context string-number fret-number)
(make-vcenter-markup
(format #f "~a" fret-number)))
;; The 5-string banjo has got a extra string, the fifth (duh), which
;; starts at the fifth fret on the neck. Frets on the fifth string
;; are referred to relative to the other frets:
;; the "first fret" on the fifth string is really the sixth fret
;; on the banjo neck.
;; We solve this by defining a new fret-number-tablature function:
(define-public (fret-number-tablature-format-banjo
context string-number fret-number)
(make-vcenter-markup
(number->string (cond
((and (> fret-number 0) (= string-number 5))
(+ fret-number 5))
(else fret-number)))))
;; Tab note head staff position functions
;;
;; Define where in the staff to display a given string. Some forms of
;; tablature put the tab note heads in the spaces, rather than on the
;; lines
(define-public (tablature-position-on-lines context string-number)
(let* ((string-tunings (ly:context-property context 'stringTunings))
(string-count (length string-tunings))
(string-one-topmost (ly:context-property context
'stringOneTopmost))
(staff-line (- (* 2 string-number) string-count 1)))
(if string-one-topmost
(- staff-line)
staff-line)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; bar numbers
(define-public ((every-nth-bar-number-visible n) barnum mp)
(= 0 (modulo barnum n)))
(define-public ((modulo-bar-number-visible n m) barnum mp)
(and (> barnum 1) (= m (modulo barnum n))))
(define-public ((set-bar-number-visibility n) tr)
(let ((bn (ly:context-property tr 'currentBarNumber)))
(ly:context-set-property! tr 'barNumberVisibility
(modulo-bar-number-visible n (modulo bn n)))))
(define-public (first-bar-number-invisible barnum mp)
(> barnum 1))
(define-public (first-bar-number-invisible-save-broken-bars barnum mp)
(or (> barnum 1)
(> (ly:moment-main-numerator mp) 0)))
(define-public
(first-bar-number-invisible-and-no-parenthesized-bar-numbers barnum mp)
(and (> barnum 1)
(= (ly:moment-main-numerator mp) 0)))
(define-public (robust-bar-number-function barnum measure-pos alt-number
context)
(define (get-number-and-power an pow)
(if (<= an alt-number)
(get-number-and-power (+ an (expt 26 (1+ pow))) (1+ pow))
(cons (+ alt-number (- (expt 26 pow) an)) (1- pow))))
(define (make-letter so-far an pow)
(if (< pow 0)
so-far
(let ((pos (modulo (quotient an (expt 26 pow)) 26)))
(make-letter (string-append so-far
(substring "abcdefghijklmnopqrstuvwxyz"
pos
(1+ pos)))
an
(1- pow)))))
(let* ((number-and-power (get-number-and-power 0 0))
(begin-measure (= 0 (ly:moment-main-numerator measure-pos)))
(maybe-open-parenthesis (if begin-measure "" "("))
(maybe-close-parenthesis (if begin-measure "" ")")))
(markup (string-append maybe-open-parenthesis
(number->string barnum)
(make-letter ""
(car number-and-power)
(cdr number-and-power))
maybe-close-parenthesis))))
(define-public (all-bar-numbers-visible barnum mp) #t)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; percent repeat counters
(define-public ((every-nth-repeat-count-visible n) count context)
(= 0 (modulo count n)))
(define-public (all-repeat-counts-visible count context) #t)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; make-engraver helper macro
(defmacro-public make-engraver forms
"Helper macro for creating Scheme engravers.
The usual form for an engraver is an association list (or alist)
mapping symbols to either anonymous functions or to another such
alist.
@code{make-engraver} accepts forms where the first element is either
an argument list starting with the respective symbol, followed by the
function body (comparable to the way @code{define} is used for
defining functions), or a single symbol followed by subordinate forms
in the same manner. You can also just make an alist pair
literally (the @samp{car} is quoted automatically) as long as the
unevaluated @samp{cdr} is not a pair. This is useful if you already
have defined your engraver functions separately.
Symbols mapping to a function would be @code{initialize},
@code{start-translation-timestep}, @code{process-music},
@code{process-acknowledged}, @code{stop-translation-timestep}, and
@code{finalize}. Symbols mapping to another alist specified in the
same manner are @code{listeners} with the subordinate symbols being
event classes, and @code{acknowledgers} and @code{end-acknowledgers}
with the subordinate symbols being interfaces."
(let loop ((forms forms))
(if (cheap-list? forms)
`(list
,@(map (lambda (form)
(if (pair? (car form))
`(cons ',(caar form) (lambda ,(cdar form) ,@(cdr form)))
`(cons ',(car form) ,(loop (cdr form)))))
forms))
forms)))
la ligne 307 est indiquée à droite et "l'erreur" est là :
(ly:pitch-tones (list-ref tuning (1-
string))))))
Voici pour ce problème.
Mais dans un autre fichier, j'ai eu ça comme erreur à la compilation :
Traitement de « /home/elviejo/dispo/Fichiers_Lilypond/LUTH/LSR_luth.ly »
.......
Analyse...
Interprétation en cours de la musique...
erreur de programmation : Grob property path should be list of symbols.
poursuite ; croisons les doigts.
Avertissement : Aucune corde ne contient la hauteur « #<Pitch d, > »
avec un fret « (0 2) »
Avertissement : Aucune corde ne contient la hauteur « #<Pitch e, > »
avec un fret « () »
Avertissement : Aucune corde ne contient la hauteur « #<Pitch f, > »
avec un fret « () »
Avertissement : Aucune corde ne contient la hauteur « #<Pitch g, > »
avec un fret « (4 2) »
........
Comme je l'ai expliqué sur la liste, je voudrais faire une tablature de
luth pour un ami luthiste et je n'arrive pas à faire coïncider les
frettes et les cordes (qui sont accordées, du grave vers l'aigu : sol do
fa la ré sol (ou -17 -12 -7 -3 2 7)
et les frettes
%% Use r for c and skip j fret label
"frets-for-luth" =
#`(,"a","b","r","d","e","f","g","h","i","k","l","m","n")
Merci de te pencher sur ce cas.
--
JJG
Linux ? Y a moins bien mais c'est plus cher !
http://www.radiosuisseclassique.ch/fr