-
-\version "2.3.16"
+\version "2.19.21"
\header{
-texidoc = "Fully concave beams should be horizontal. Informally spoken,
+ texidoc = "Fully concave beams should be horizontal. Informally spoken,
concave refers to the shape of the notes that are opposite a
beam. If an up-beam has high notes on its center stems, then we call
it concave.
+ If a beam fails a test, the desired slope is printed next to it.
- If a beam is fails a test, the desired slope is printed
-next to it."
+"
}
-resetMeasure = \set Score.measurePosition = #(ly:make-moment 0 1)
+resetMeasure = \set Score.measurePosition = #(ly:make-moment 0/1)
-% examples from
-rossFourBeams =\relative c'' {
+%% examples from Ross.
+rossFourBeams =\relative {
\time 2/4
- c8[ e b c]
+ c''8[ e b c]
b[ c d b]
c[ f b, c]
f,,[ b a g]
f[g g e]
a[ d, b' g]
- }
-rossThreeBeams = \relative c'' {
+}
+rossThreeBeams = \relative {
\time 6/8
- e[ a, c] f[ d g]
+ e''[ a, c] f[ d g]
f,[ b g] a[ b f]
d'[ c b a b e]
c[ b a c b a]
rossBeams = \relative c'' {
\rossFourBeams
\rossThreeBeams
- }
+}
+
+\layout{
+ ragged-right = ##t
+ #(define debug-beam-quanting #t)
+}
#(define (<> x y) (not (= x y)))
-\score{
- \new Voice {
- \override Beam #'position-callbacks = #(check-slope-callbacks =)
- \rossBeams
-
- }
- \paper{
- raggedright = ##t
- #(define debug-beam-quanting #t)
- }
+\new Voice {
+ \override Beam.positions = #(check-slope-callbacks =)
+ \rossBeams
+
}
-
-