;;;; This file is part of LilyPond, the GNU music typesetter.
;;;;
-;;;; Copyright (C) 1998--2014 Jan Nieuwenhuizen <janneke@gnu.org>
+;;;; Copyright (C) 1998--2015 Jan Nieuwenhuizen <janneke@gnu.org>
;;;; Han-Wen Nienhuys <hanwen@xs4all.nl>
;;;;
;;;; LilyPond is free software: you can redistribute it and/or modify
(define-public (grob::is-live? grob)
(pair? (ly:grob-basic-properties grob)))
+(define-public (grob::name grob)
+ "Return the name of the grob @var{grob} as a symbol."
+ (assq-ref (ly:grob-property grob 'meta) 'name))
+
+(define-public (grob::rhythmic-location grob)
+ "Return a pair consisting of the measure number and moment within
+ the measure of grob @var{grob}."
+ (let* (; all grobs support either spanner- or item-interface
+ (item (if (grob::has-interface grob 'spanner-interface)
+ (ly:spanner-bound grob LEFT)
+ grob))
+ (col (ly:item-get-column item)))
+ (if (ly:grob? col)
+ (ly:grob-property col 'rhythmic-location)
+ '())))
+
+(define-public (grob::when grob)
+ "Return the global timestep (a moment) of grob @var{grob}."
+ (let* (; all grobs support either spanner- or item-interface
+ (item (if (grob::has-interface grob 'spanner-interface)
+ (ly:spanner-bound grob LEFT)
+ grob))
+ (col (ly:item-get-column item)))
+ (if (ly:grob? col)
+ (ly:grob-property col 'when)
+ '())))
+
(define-public (make-stencil-boxer thickness padding callback)
"Return function that adds a box around the grob passed as argument."
(lambda (grob)
line-thickness))
+(define (grob::objects-from-interface grob iface)
+ "For grob @var{grob} return the name and contents of all properties
+ within interface @var{iface} having type @code{ly:grob?} or
+ @code{ly:grob-array?}."
+ (let* ((iface-entry (hashq-ref (ly:all-grob-interfaces) iface))
+ (props (if iface-entry (last iface-entry) '()))
+ (pointer-props
+ (filter
+ (lambda (prop)
+ (let ((type (object-property prop 'backend-type?)))
+ (or (eq? type ly:grob?)
+ (eq? type ly:grob-array?))))
+ props)))
+ (if (null? pointer-props)
+ '()
+ (list iface
+ (map
+ (lambda (prop) (list prop (ly:grob-object grob prop)))
+ pointer-props)))))
+
+(define-public (grob::all-objects grob)
+ "Return a list of the names and contents of all properties having type
+ @code{ly:grob?} or @code{ly:grob-array?} for all interfaces supported by
+ grob @var{grob}."
+ (let loop ((ifaces (ly:grob-interfaces grob)) (result '()))
+ (if (null? ifaces)
+ (cons grob (list result))
+ (let ((entry (grob::objects-from-interface grob (car ifaces))))
+ (if (pair? entry)
+ (loop (cdr ifaces) (append result (list entry)))
+ (loop (cdr ifaces) result))))))
+
+(use-modules (ice-9 pretty-print))
+(define-public (grob::display-objects grob)
+ "Display all objects stored in properties of grob @var{grob}."
+ (pretty-print (grob::all-objects grob))
+ (newline))
+
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; beam slope
(define-public (string-number::calc-text grob)
(let ((event (event-cause grob)))
(or (ly:event-property event 'text #f)
- (number->string (ly:event-property event 'string-number) 10))))
+ (number-format
+ (ly:grob-property grob 'number-type)
+ (ly:event-property event 'string-number)))))
(define-public (stroke-finger::calc-text grob)
(let ((event (event-cause grob)))
(define-public (script-interface::calc-x-offset grob)
(ly:grob-property grob 'positioning-done)
- (let* ((shift (ly:grob-property grob 'toward-stem-shift 0.0))
+ (let* ((shift-when-alone (ly:grob-property grob 'toward-stem-shift 0.0))
+ (shift-in-column (ly:grob-property grob 'toward-stem-shift-in-column))
+ (script-column (ly:grob-object grob 'script-column))
+ (shift
+ (if (and (ly:grob? script-column)
+ (number? shift-in-column)
+ ;; ScriptColumn can contain grobs other than Script.
+ ;; These should not result in a shift.
+ (any (lambda (s)
+ (and (not (eq? s grob))
+ (grob::has-interface s 'script-interface)
+ (not (grob::has-interface s
+ 'accidental-suggestion-interface))))
+ (ly:grob-array->list
+ (ly:grob-object script-column 'scripts))))
+ shift-in-column shift-when-alone))
(note-head-location
(ly:self-alignment-interface::aligned-on-x-parent grob))
(note-head-grob (ly:grob-parent grob X))
(stem-grob (ly:grob-object note-head-grob 'stem)))
(+ note-head-location
- ;; If the property 'toward-stem-shift is defined and the script
- ;; has the same direction as the stem, move the script accordingly.
- ;; Since scripts can also be over skips, we need to check whether
- ;; the grob has a stem at all.
+ ;; If the script has the same direction as the stem, move the script
+ ;; in accordance with the value of 'shift'. Since scripts can also be
+ ;; over skips, we need to check whether the grob has a stem at all.
(if (ly:grob? stem-grob)
(let ((dir1 (ly:grob-property grob 'direction))
(dir2 (ly:grob-property stem-grob 'direction)))
(larger (max (car edge-height) (cdr edge-height))))
(interval-union '(0 . 0) (cons smaller larger)))
'(0 . 0))))
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; measure counter
+
+(define-public (measure-counter-stencil grob)
+ "Print a number for a measure count. The number is centered using
+the extents of @code{BreakAlignment} grobs associated with the left and
+right bounds of a @code{MeasureCounter} spanner. Broken measures are
+numbered in parentheses."
+ (let* ((num (markup (number->string (ly:grob-property grob 'count-from))))
+ (orig (ly:grob-original grob))
+ (siblings (ly:spanner-broken-into orig)) ; have we been split?
+ (num
+ (if (or (null? siblings)
+ (eq? grob (car siblings)))
+ num
+ (make-parenthesize-markup num)))
+ (num (grob-interpret-markup grob num))
+ (num (ly:stencil-aligned-to num X (ly:grob-property grob 'self-alignment-X)))
+ (left-bound (ly:spanner-bound grob LEFT))
+ (right-bound (ly:spanner-bound grob RIGHT))
+ (elts-L (ly:grob-array->list (ly:grob-object left-bound 'elements)))
+ (elts-R (ly:grob-array->list (ly:grob-object right-bound 'elements)))
+ (break-alignment-L
+ (filter
+ (lambda (elt) (grob::has-interface elt 'break-alignment-interface))
+ elts-L))
+ (break-alignment-R
+ (filter
+ (lambda (elt) (grob::has-interface elt 'break-alignment-interface))
+ elts-R))
+ (refp (ly:grob-system grob))
+ (break-alignment-L-ext (ly:grob-extent (car break-alignment-L) refp X))
+ (break-alignment-R-ext (ly:grob-extent (car break-alignment-R) refp X))
+ (num
+ (ly:stencil-translate-axis
+ num
+ (+ (interval-length break-alignment-L-ext)
+ (* 0.5
+ (- (car break-alignment-R-ext)
+ (cdr break-alignment-L-ext))))
+ X)))
+ num))
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; 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 (or (null? forms) (pair? 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)))