Clarifies that multi-measure rests can be used for a single bar.

[lilypond.git] / Documentation / user / basic-notation.itely

@c -*- coding: latin-1; mode: texinfo; -*-
@c This file is part of lilypond.tely

@c A menu is needed before every deeper *section nesting of @node's; run
@c     M-x texinfo-all-menus-update
@c to automatically fill in these menus before saving changes


@node Basic notation
@chapter Basic notation

This chapter explains how to use all basic notation features.

@menu
* Note entry::                  
* Alternate music entry::       
* Staff notation::              
* Connecting notes::            
* Expressive marks::            
* Polyphony::                   
* Repeats::                     
@end menu



@node Note entry
@section Note entry
@cindex Note entry

This section is about basic notation elements like notes, rests, and
related constructs, such as stems, tuplets and ties.

@menu
* Notes::                       
* Pitches::                     
* Cautionary accidentals::      
* Micro tones::                 
* Chords::                      
* Rests::                       
* Skips::                       
* Durations::                   
* Augmentation dots::           
* Tuplets::                     
* Scaling durations::           
@end menu


@node Notes
@subsection Notes

@cindex Note specification
@cindex entering notes

A note is printed by specifying its pitch and then its duration,

@lilypond[quote,verbatim,raggedright,fragment]
cis'4 d'8 e'16 c'16
@end lilypond

@seealso

This manual: @ref{Pitches}, @ref{Durations}


@node Pitches
@subsection Pitches

@cindex Pitch names
@cindex pitches

The most common syntax for pitch entry is used for standard notes and
@code{\chordmode} modes.  In these modes, pitches may be designated by
names.  The notes are specified by the letters @code{a} through
@code{g}.  The octave is formed with notes ranging from @code{c}
to @code{b}.  The pitch @code{c} is an octave below middle C and the
letters span the octave above that C

@lilypond[quote,fragment,verbatim,raggedright]
\clef bass
a,4 b, c d e f g a b c' d' e' \clef treble f' g' a' b' c''
@end lilypond

@cindex @code{'}
@cindex @code{,}

The optional octave specification takes the form of a series of
single quote (`@code{'}') characters or a series of comma
(`@code{,}') characters.  Each @code{'} raises the pitch by one
octave; each @code{,} lowers the pitch by an octave

@lilypond[quote,raggedright,fragment,verbatim]
c' c'' e' g d'' d'
@end lilypond

@cindex note names, Dutch

A sharp is formed by adding @code{-is} to the end of a pitch name and
a flat is formed by adding @code{-es}.  Double sharps and double flats
are obtained by adding @code{-isis} or @code{-eses}.  These
names are the Dutch note names.  In Dutch, @code{aes} is contracted to
@code{as}, but both forms are accepted.  Similarly, both
@code{es} and @code{ees} are accepted

@lilypond[fragment,quote,raggedright,verbatim,relative=2]
ceses4
ces
c
cis
cisis
@end lilypond

There are predefined sets of note names for various other languages.
To use them, include the language specific init file.  For
example: @code{\include "english.ly"}.  The available language files
and the note names they define are

@anchor{note name}
@anchor{note names}
@example
                        Note Names               sharp       flat
nederlands.ly  c   d   e   f   g   a   bes b   -is         -es
english.ly     c   d   e   f   g   a   bf  b   -s/-sharp   -f/-flat
                                               -x (double)
deutsch.ly     c   d   e   f   g   a   b   h   -is         -es
norsk.ly       c   d   e   f   g   a   b   h   -iss/-is    -ess/-es
svenska.ly     c   d   e   f   g   a   b   h   -iss        -ess
italiano.ly    do  re  mi  fa  sol la  sib si  -d          -b
catalan.ly     do  re  mi  fa  sol la  sib si  -d/-s       -b
espanol.ly     do  re  mi  fa  sol la  sib si  -s          -b
@end example


@commonprop

In accordance with standard typsetting rules, a natural sign is printed
before a sharp or flat if a previous accidental needs to be
cancelled.  To change this behaviour, use
@code{\set Staff.extraNatural = ##f}

@lilypond[fragment,quote,raggedright,verbatim,relative=2]
ceses4 ces cis c
\set Staff.extraNatural = ##f
ceses4 ces cis c
@end lilypond


@seealso

Program reference: @internalsref{LedgerLineSpanner}, @internalsref{NoteHead}.


@node Cautionary accidentals
@subsection Cautionary accidentals 

@cindex reminder accidental
@cindex @code{?}
@cindex cautionary accidental
@cindex parenthesized accidental
@cindex @code{!}

Normally accidentals are printed automatically, but you may also
print them manually.  A reminder accidental
can be forced by adding an exclamation mark @code{!}
after the pitch.  A cautionary accidental
(i.e., an accidental within parentheses) can be obtained by adding the
question mark `@code{?}' after the pitch.

@lilypond[quote,raggedright,fragment,verbatim]
cis' cis' cis'! cis'?
@end lilypond


@seealso

The automatic production of accidentals can be tuned in many
ways.  For more information, refer to @ref{Automatic accidentals}.



@node Micro tones
@subsection Micro tones

@cindex quarter tones
@cindex semi-flats, semi-sharps

Half-flats and half-sharps are formed by adding @code{-eh} and
@code{-ih}; the following is a series of Cs with increasing pitches

@lilypond[verbatim,raggedright,quote,relative=2,fragment]
\set Staff.extraNatural = ##f
ceseh ceh cih cisih
@end lilypond

Micro tones are also exported to the MIDI file.


@refbugs

There are no generally accepted standards for denoting three quarter
flats, so LilyPond's symbol does not conform to any standard.


@node Chords
@subsection Chords

@cindex Chords

A chord is formed by a enclosing a set of pitches in @code{<} and
@code{>}.  A chord may be followed by a duration, and a set of
articulations, just like simple notes

@lilypond[verbatim,raggedright,fragment,quote,relative=1]
<c e g>4 <c>8
@end lilypond

For more information about chords, see @ref{Chord names}.


@node Rests
@subsection Rests
@cindex Rests


@cindex @code{\rest}
@cindex @code{r}

Rests are entered like notes with the note name @code{r}

@lilypond[fragment,quote,raggedright,verbatim]
r1 r2 r4 r8
@end lilypond

Whole bar rests, centered in middle of the bar,
must be done with multi-measure rests.  They can be used for a
single bar as well as many bars, and are discussed in
@ref{Multi measure rests}.


A rest's vertical position may be explicitly specified by entering a
note with the @code{\rest} keyword appended, the rest will be placed at
the note's place.  This makes manual formatting in polyphonic music
easier.  Automatic rest collision formatting will leave these rests
alone

@lilypond[fragment,quote,raggedright,verbatim]
a'4\rest d'4\rest
@end lilypond

@seealso

Program reference: @internalsref{Rest}.


@node Skips
@subsection Skips

@cindex Skip
@cindex Invisible rest
@cindex Space note
@cindex @code{\skip}
@cindex @code{s}

An invisible rest (also called a `skip') can be entered like a note
with note name `@code{s}' or with @code{\skip @var{duration}}

@lilypond[fragment,quote,raggedright,verbatim,relative=2]
a4 a4 s4 a4 \skip 1 a4
@end lilypond

The @code{s} syntax is only available in note mode and chord mode.  In
other situations, for example, when entering lyrics, you should use
the @code{\skip} command

@lilypond[quote,raggedright,verbatim]
<<
  \relative { a'2 a2 }
  \new Lyrics \lyricmode { \skip 2 bla2 }
>>
@end lilypond

The skip command is merely an empty musical placeholder.  It does not
produce any output, not even transparent output.

The @code{s} skip command does create @internalsref{Staff} and
@internalsref{Voice} when necessary, similar to note and rest
commands.  For example, the following results in an empty staff.

@lilypond[quote,raggedright,verbatim]
{ s4 }
@end lilypond

The fragment @code{@{ \skip 4 @} } would produce an empty page.

@seealso

Program reference: @internalsref{SkipMusic}.


@node Durations
@subsection Durations

@cindex duration
@cindex @code{\longa}
@cindex @code{\breve}
@cindex @code{\maxima}

In Note, Chord, and Lyrics mode, durations are designated by numbers and
dots: durations are entered as their reciprocal values.  For example, a
quarter note is entered using a @code{4} (since it is a 1/4 note), while
a half note is entered using a @code{2} (since it is a 1/2 note).  For
notes longer than a whole you must use the variables @code{\longa} and
@code{\breve}

@example
c'\breve
c'1 c'2 c'4 c'8 c'16 c'32 c'64 c'64
r\longa r\breve
r1 r2 r4 r8 r16 r32 r64 r64
@end example

@lilypond[quote]
\score {
 \relative c'' {
    a\breve*1/2 \autoBeamOff
    a1 a2 a4 a8 a16 a32 a64 a64
   \bar "empty"
   \break
    r\longa*1/4 r\breve *1/2
    r1 r2 r4 r8 r16 r32 r64 r64
  }
  \layout {
    raggedright = ##t
    \context {
      \Staff
        \remove "Clef_engraver"
        \override StaffSymbol #'transparent = ##t
        \override TimeSignature #'transparent = ##t
        \override BarLine #'transparent = ##t
        \consists "Pitch_squash_engraver"
    }
  }
}
@end lilypond

If the duration is omitted then it is set to the previously entered
duration.  The default for the first note is a quarter note.

@lilypond[quote,raggedright,verbatim,fragment]
{ a a a2 a a4 a a1 a }
@end lilypond


@node Augmentation dots
@subsection Augmentation dots

@cindex @code{.}

To obtain dotted note lenghts, simply add a dot (`@code{.}') to
the number.  Double-dotted notes are produced in a similar way.

@lilypond[quote,raggedright,fragment,verbatim]
a'4 b' c''4. b'8 a'4. b'4.. c''8.
@end lilypond

@refcommands

Dots are normally moved up to avoid staff lines, except in polyphonic
situations.  The following commands may be used to force a particular
direction manually

@cindex @code{\dotsUp}
@code{\dotsUp},
@cindex @code{\dotsDown}
@code{\dotsDown},
@cindex @code{\dotsNeutral}
@code{\dotsNeutral}.

@seealso

Program reference: @internalsref{Dots}, and @internalsref{DotColumn}.


@node Tuplets
@subsection Tuplets

@cindex tuplets
@cindex triplets
@cindex @code{\times}

Tuplets are made out of a music expression by multiplying all durations
with a fraction

@example
\times @var{fraction} @var{musicexpr}
@end example

@noindent
The duration of @var{musicexpr} will be multiplied by the fraction.
The fraction's denominator will be printed over the notes, optionally
with a bracket.  The most common tuplet is the triplet in which 3
notes have the length of 2, so the notes are 2/3 of their written
length

@lilypond[quote,raggedright,fragment,verbatim]
g'4 \times 2/3 {c'4 c' c'} d'4 d'4
@end lilypond

Tuplets may be nested, for example,

@lilypond[fragment,raggedright,verbatim,relative=2]
\set tupletNumberFormatFunction = #fraction-tuplet-formatter
\times 4/6 {
  a4 a 
  \times 3/5 { a a a a a }
}
@end lilypond

@refcommands

@cindex @code{\tupletUp}
@code{\tupletUp},
@cindex @code{\tupletDown}
@code{\tupletDown},
@cindex @code{\tupletNeutral}
@code{\tupletNeutral}.


@commonprop

@cindex @code{tupletNumberFormatFunction}
@cindex tuplet formatting

The property @code{tupletSpannerDuration} specifies how long each
bracket should last.  With this, you can make lots of tuplets while
typing @code{\times} only once, thus saving lots of typing.  In the next
example, there are two triplets shown, while @code{\times} was only
used once

@lilypond[quote,fragment,relative=1,raggedright,verbatim]
\set tupletSpannerDuration = #(ly:make-moment 1 4)
\times 2/3 { c'8 c c c c c }
@end lilypond

The format of the number is determined by the property
@code{tupletNumberFormatFunction}.  The default prints only the
denominator, but if it is set to the Scheme function
@code{fraction-tuplet-formatter}, @var{num}:@var{den} will be printed
instead.





@seealso

Program reference: @internalsref{TupletBracket}, and @internalsref{TimeScaledMusic}.

Examples: @inputfileref{input/@/regression,tuplet@/-nest@/.ly}.



@node Scaling durations
@subsection Scaling durations

You can alter the length of duration by a fraction @var{N/M}
appending `@code{*}@var{N/M}' (or `@code{*}@var{N}' if @var{M=1}).  This
will not affect the appearance of the notes or rests produced.

In the following example, the first three notes take up exactly two
beats, but no triplet bracket is printed.
@lilypond[quote,raggedright,fragment,relative=2,verbatim]
\time 2/4
a4*2/3 gis4*2/3 a4*2/3
a4 a4 a4*2
b16*4 c4
@end lilypond


@seealso

This manual: @ref{Tuplets}



@node Alternate music entry
@section Alternate music entry
@cindex Music entry

This section deals with tricks and features of the input language that
were added solely to help entering music and finding and correcting
mistakes.  There are also external tools that make debugging easier.
See @ref{Point and click} for more information.

It is also possible to enter and edit music using other programs, such as
GUI interfaces or MIDI sequencers.  Refer to the LilyPond
website for more information.

@menu
* Relative octaves::            
* Octave check::                
* Transpose::                   
* Bar check::                   
* Barnumber check::             
* Skipping corrected music::    
* Automatic note splitting::    
@end menu


@node Relative octaves
@subsection Relative octaves

@cindex Relative
@cindex Relative octave specification
@cindex @code{\relative}

Octaves are specified by adding @code{'} and @code{,} to pitch names.
When you copy existing music, it is easy to accidentally put a pitch
in the wrong octave and hard to find such an error.  The relative
octave mode prevents these errors by making the mistakes much
larger: a single error puts the rest of the piece off by one octave

@example
\relative @var{startpitch} @var{musicexpr}
@end example

@noindent
or

@example
\relative @var{musicexpr}
@end example

The octave of notes that appear in @var{musicexpr} are calculated as
follows: if no octave changing marks are used, the basic interval
between this and the last note is always taken to be a fourth or
less.  This distance is determined without regarding alterations; a
@code{fisis} following a @code{ceses} will be put above the
@code{ceses}.  In other words, a doubly-augmented fourth is considered
a smaller interval than a diminshed fifth, even though the fourth is
seven semitones while the fifth is only six semitones.

The octave changing marks @code{'} and @code{,} can be added to raise
or lower the pitch by an extra octave.  Upon entering relative mode,
an absolute starting pitch can be specified that will act as the
predecessor of the first note of @var{musicexpr}.  If no starting pitch
is specified, then middle C is used as a start.

Here is the relative mode shown in action
@lilypond[quote,fragment,raggedright,verbatim]
\relative c'' {
  b c d c b c bes a
}
@end lilypond

Octave changing marks are used for intervals greater than a fourth
@lilypond[quote,raggedright,fragment,verbatim]
\relative c'' {
  c g c f, c' a, e''
}
@end lilypond

If the preceding item is a chord, the first note of the chord is used
to determine the first note of the next chord

@lilypond[quote,raggedright,fragment,verbatim]
\relative c' {
  c <c e g>
  <c' e g>
  <c, e' g>
}
@end lilypond

The pitch after the @code{\relative} contains a note name.

The relative conversion will not affect @code{\transpose},
@code{\chordmode} or @code{\relative} sections in its argument.  To use
relative within transposed music, an additional @code{\relative} must
be placed inside @code{\transpose}.


@node Octave check
@subsection Octave check

@cindex Octave check

Octave checks make octave errors easier to correct: a note may be
followed by @code{=}@var{quotes} which indicates what its absolute
octave should be.  In the following example,

@example
\relative c'' @{ c='' b=' d,='' @}
@end example

@noindent
the @code{d} will generate a warning, because a @code{d''} is expected
(because @code{b'} to @code{d''} is only a third), but a @code{d'} is
found.  In the output, the octave is corrected to be a @code{d''} and
the next note is calculated relative to @code{d''} instead of @code{d'}.

There is also a syntax that is separate from the notes.  The syntax

@example
\octave @var{pitch}
@end example

This checks that @var{pitch} (without quotes) yields @var{pitch} (with
quotes) in \relative mode.  If not, a warning is printed, and the
octave is corrected.

In the example below, the first check passes without incident, since
the @code{e} (in relative mode) is within a fifth of @code{a'}.  However,
the second check produces a warning, since the @code{e} is not within
a fifth of @code{b'}.  The warning message is printed, and the octave
is adjusted so that the following notes are in the correct octave
once again.

@example
\relative c' @{
  e
  \octave a'
  \octave b'
@}
@end example


The octave of a note following an octave check is determined with
respect to the note preceding it.  In the next fragment, the last note
is an @code{a'}, above middle C.  That means that the @code{\octave}
check passes successfully, so the check could be deleted without changing
the output of the piece.

@lilypond[quote,raggedright,verbatim,fragment]
\relative c' {
  e
  \octave b
  a
}
@end lilypond


@node Transpose
@subsection Transpose

@cindex Transpose
@cindex transposition of pitches
@cindex @code{\transpose}

A music expression can be transposed with @code{\transpose}.  The
syntax is
@example
\transpose @var{from} @var{to} @var{musicexpr}
@end example

This means that @var{musicexpr} is transposed by the interval between
the pitches @var{from} and @var{to}: any note with pitch @code{from}
is changed to @code{to}.

For example, consider a piece written in the key of D-major.  If
this piece is a little too low for its performer, it can be
transposed up to E-major with
@example
\transpose d e @dots{}
@end example

Consider a part written for violin (a C instrument).  If
this part is to be played on the A clarinet, the following
transposition will produce the appropriate part

@example
\transpose a c @dots{}
@end example

@code{\transpose} distinguishes between enharmonic pitches: both
@code{\transpose c cis} or @code{\transpose c des} will transpose up
half a tone.  The first version will print sharps and the second
version will print flats

@lilypond[quote,raggedright,verbatim]
mus = { \key d \major cis d fis g }
\context Staff {
  \clef "F" \mus
  \clef "G"
  \transpose c g' \mus
  \transpose c f' \mus
}
@end lilypond

@code{\transpose} may also be used to input written notes for a
transposing instrument.  Pitches are normally entered into LilyPond
in C (or ``concert pitch''), but they may be entered in another
key.  For example, when entering music for a B-flat trumpet which
begins on concert D, one would write

@example
\transpose c bes @{ e4 @dots{} @}
@end example

To print this music in B-flat again (ie producing a trumpet part,
instead of a concert pitch conductor's score) you would wrap the
existing music with another @code{transpose}

@example
\transpose bes c @{ \transpose c bes @{ e4 @dots{} @} @}
@end example


@seealso

Program reference: @internalsref{TransposedMusic}.


@refbugs

If you want to use both @code{\transpose} and @code{\relative},
you must put @code{\transpose} outside of @code{\relative}, since
@code{\relative} will have no effect music that appears inside a
@code{\transpose}.


@node Bar check
@subsection Bar check

@cindex Bar check
@cindex @code{barCheckSynchronize}
@cindex @code{|}

Bar checks help detect errors in the durations.  A bar check is
entered using the bar symbol, `@code{|}'.  Whenever it is encountered
during interpretation, it should fall on a measure boundary.  If it
does not, a warning is printed.  In the next example, the second bar
check will signal an error
@example
\time 3/4 c2 e4 | g2 |
@end example

Bar checks can also be used in lyrics, for example

@example
\lyricmode @{
  \time 2/4
  Twin -- kle | Twin -- kle
@}
@end example

Failed bar checks are caused by entering incorrect
durations.  Incorrect durations often completely garble up the score,
especially if the score is polyphonic, so a good place to start correcting
input is by scanning for failed bar checks and incorrect durations.

@cindex @code{|}
@cindex @code{pipeSymbol}

It is also possible to redefine the meaning of @code{|}.  This is done
by assigning a music expression to @code{pipeSymbol},

@lilypond[quote,raggedright,verbatim]
pipeSymbol = \bar "||"

{ c'2 c' | c'2 c' }
@end lilypond


@node Barnumber check
@subsection Barnumber check

When copying large pieces of music, it can be helpful to check that
the LilyPond bar number corresponds to the original that you are
entering from.  This can be checked with @code{\barNumberCheck}, for
example, 

@verbatim
\barNumberCheck #123
@end verbatim

@noindent
will print a warning if the @code{currentBarNumber} is not 123 when it
is processed.


@node Skipping corrected music
@subsection Skipping corrected music


@cindex @code{skipTypesetting}
@cindex @code{showLastLength}

When entering or copying music, only the music near the end (where you
are adding notes) is interesting to view and correct.  To speed up
this correction process, it is possible to skip typesetting of all but
the last few measures. This is achieved by putting

@verbatim
showLastLength = R1*5
\score { ... }
@end verbatim

@noindent
in your source file. This will render only the last 5 measures
(assuming 4/4 time signature) of every @code{\score} in the input
file. For longer pieces, rendering only a small part is often an order
of magnitude quicker than rendering it completely

Skipping parts of a score can be controlled in a more fine-grained
fashing with the property @code{Score.skipTypesetting}.  When it is
set, no typesetting is performed at all.

@lilypond[quote,fragment,raggedright,verbatim]
\relative c'' {
  c8 d
  \set Score.skipTypesetting = ##t
  e e e e e e e e
  \set Score.skipTypesetting = ##f
  c d b bes a g c2 }
@end lilypond

In polyphonic music, @code{Score.skipTypesetting} will affect all
voices and staves, saving even more time.


@node Automatic note splitting
@subsection Automatic note splitting

Long notes can be converted automatically to tied notes.  This is done
by replacing the @internalsref{Note_heads_engraver} by the
@internalsref{Completion_heads_engraver}.
In the following examples, notes crossing the bar line are split and tied.

@lilypond[quote,fragment,verbatim,relative=1,linewidth=12\cm]
\new Voice \with {
  \remove "Note_heads_engraver"
  \consists "Completion_heads_engraver"
} {
  c2. c8 d4 e f g a b c8 c2 b4 a g16 f4 e d c8. c2
}
@end lilypond

This engraver splits all running notes at the bar line, and inserts
ties.  One of its uses is to debug complex scores: if the measures are
not entirely filled, then the ties exactly show how much each measure
is off.


@refbugs

Not all durations (especially those containing tuplets) can be
represented exactly with normal notes and dots, but the engraver will
not insert tuplets.

@code{Completion_heads_engraver} only affects notes; it does not split
rests.


@seealso

Examples: @inputfileref{input/@/regression,completion@/-heads@/.ly}.

@noindent

Program reference: @internalsref{Completion_heads_engraver}.



@node Staff notation
@section Staff notation

@cindex Staff notation

This section describes music notation that occurs on staff level,
such as key signatures, clefs and time signatures.

@menu
* Clef::                        
* Key signature::               
* Time signature::              
* Partial measures::            
* Bar lines::                   
* Unmetered music::             
* System start delimiters::     
* Staff symbol::                
@end menu


@node Clef
@subsection Clef

@cindex @code{\clef}

The clef indicates which lines of the staff correspond to which
pitches.  The clef is set with the @code{\clef} command

@lilypond[quote,raggedright,fragment,verbatim]
{ c''2 \clef alto g'2 }
@end lilypond

@cindex treble clef
@cindex violin clef
@cindex alto clef
@cindex tenor clef
@cindex bass clef
@cindex french clef
@cindex soprano clef
@cindex mezzosoprano clef
@cindex baritone clef
@cindex varbaritone clef
@cindex subbass clef

Supported clefs finclude
@table @code
@item treble, violin, G, G2
 G clef on 2nd line
@item alto, C
 C clef on 3rd line
@item tenor
 C clef on 4th line.
@item bass, F
 F clef on 4th line
@item french
 G clef on 1st line, so-called French violin clef
@item soprano
 C clef on 1st line
@item mezzosoprano
 C clef on 2nd line
@item baritone
 C clef on 5th line
@item varbaritone
 F clef on 3rd line
@item subbass
 F clef on 5th line
@item percussion
 percussion clef
@item tab
 tablature clef
@end table

By adding @code{_8} or @code{^8} to the clef name, the clef is
transposed one octave down or up, respectively, and @code{_15} and
@code{^15} transposes by two octaves.  The argument @var{clefname}
must be enclosed in quotes when it contains underscores or digits.  For
example,

@cindex choral tenor clef
@lilypond[quote,raggedright,verbatim,fragment,relative=1]
\clef "G_8" c4
@end lilypond


@commonprop

The command @code{\clef "treble_8"} is equivalent to setting @code{clefGlyph},
@code{clefPosition} (which controls the Y position of the clef),
@code{middleCPosition} and @code{clefOctavation}.  A clef is printed
when any of these properties are changed.  The following example shows
possibilities when setting properties manually.

@lilypond[quote,raggedright,verbatim]
{
  \set Staff.clefGlyph = #"clefs.F"
  \set Staff.clefPosition = #2
  c'4
  \set Staff.clefGlyph = #"clefs.G"
  c'4
  \set Staff.clefGlyph = #"clefs.C"
  c'4
  \set Staff.clefOctavation = #7
  c'4
  \set Staff.clefOctavation = #0
  \set Staff.clefPosition = #0
  c'4
  \clef "bass"
  c'4
  \set Staff.middleCPosition = #4
  c'4
}
@end lilypond


@seealso

Program reference: @internalsref{Clef}.


@node Key signature
@subsection Key signature

@cindex Key signature
@cindex @code{\key}

The key signature indicates the tonality in which a piece is played.  It
is denoted by a set of alterations (flats or sharps) at the start of the
staff.

Setting or changing the key signature is done with the @code{\key}
command

@example
@code{\key} @var{pitch} @var{type}
@end example

@cindex @code{\minor}
@cindex @code{\major}
@cindex @code{\minor}
@cindex @code{\ionian}
@cindex @code{\locrian}
@cindex @code{\aeolian}
@cindex @code{\mixolydian}
@cindex @code{\lydian}
@cindex @code{\phrygian}
@cindex @code{\dorian}
@cindex church modes

Here, @var{type} should be @code{\major} or @code{\minor} to get
@var{pitch}-major or @var{pitch}-minor, respectively.  You may also
use the standard mode names (also called ``church modes''): @code{\ionian},
@code{\locrian}, @code{\aeolian}, @code{\mixolydian}, @code{\lydian},
@code{\phrygian}, and @code{\dorian}.

This command sets the context property
@code{Staff.keySignature}.  Non-standard key signatures
can be specified by setting this property directly.

Accidentals and key signatures often confuse new users, because
unaltered notes get natural signs depending on the key signature.  For
more information, see @ref{More about pitches}.


@commonprop

A natural sign is printed to cancel any previous accidentals.  This
can be suppressed by setting the @code{Staff.printKeyCancellation}
property.

@lilypond[quote,fragment,raggedright,fragment,verbatim,relative=2]
\key d \major
a b cis d
\key g \minor
a bes c d
\set Staff.printKeyCancellation = ##f
\key d \major
a b cis d
\key g \minor
a bes c d
@end lilypond


@seealso

Program reference: @internalsref{KeyCancellation}, @internalsref{KeySignature}.


@node Time signature
@subsection Time signature

@cindex Time signature
@cindex meter
@cindex @code{\time}

Time signature indicates the metrum of a piece: a regular pattern of
strong and weak beats.  It is denoted by a fraction at the start of the
staff.

The time signature is set with the @code{\time} command

@lilypond[quote,raggedright,fragment,verbatim]
\time 2/4 c'2 \time 3/4 c'2.
@end lilypond

@commonprop

The symbol that is printed can be customized with the @code{style}
property.  Setting it to @code{#'()} uses fraction style for 4/4 and
2/2 time,

@lilypond[fragment,quote,raggedright,verbatim]
\time 4/4 c'1
\time 2/2 c'1
\override Staff.TimeSignature #'style = #'()
\time 4/4 c'1
\time 2/2 c'1
@end lilypond

There are many more options for its layout.  See @ref{Ancient time
signatures} for more examples.

@code{\time} sets the property @code{timeSignatureFraction},
@code{beatLength} and @code{measureLength} in the @code{Timing}
context, which is normally aliased to @internalsref{Score}.  The
property @code{measureLength} determines where bar lines should be
inserted, and how automatic beams should be generated.  Changing the
value of @code{timeSignatureFraction} also causes the symbol to be
printed.

More options are available through the Scheme function
@code{set-time-signature}.  In combination with the
@internalsref{Measure_grouping_engraver}, it will create
@internalsref{MeasureGrouping} signs.  Such signs ease reading
rhythmically complex modern music.  In the following example, the 9/8
measure is subdivided in 2, 2, 2 and 3.  This is passed to
@code{set-time-signature} as the third argument @code{(2 2 2 3)}

@lilypond[quote,raggedright,verbatim]
\score {
  \relative c'' {
    #(set-time-signature 9 8 '(2 2 2 3))
    g8[ g] d[ d] g[ g] a8[( bes g]) |
    #(set-time-signature 5 8 '(3 2))
    a4. g4
  }
  \layout {
    \context {
      \Staff
      \consists "Measure_grouping_engraver"
    }
  }
}
@end lilypond

@seealso

Program reference: @internalsref{TimeSignature}, and @internalsref{Timing_translator}.


@refbugs

Automatic beaming does not use the measure grouping specified with
@code{set-time-signature}.


@node Partial measures
@subsection Partial measures

@cindex anacrusis
@cindex upbeat
@cindex partial measure
@cindex measure, partial
@cindex shorten measures
@cindex @code{\partial}

Partial measures, such as an anacrusis or upbeat, are entered using the

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\partial 16*5 c16 cis d dis e | a2. c,4 | b2
@end lilypond

The syntax for this command is

@example
\partial @var{duration}
@end example

This is internally translated into

@example
\set Timing.measurePosition = -@var{length of duration}
@end example

The property @code{measurePosition} contains a rational number
indicating how much of the measure has passed at this point.


@refbugs

This command does not take into account grace notes at the start of
the music.  When a piece starts with graces notes in the pickup, then
the @code{\partial} should follow the grace notes

@lilypond[verbatim,quote,raggedright,relative,fragment]
\grace f16
\partial 4
g4
a2 g2
@end lilypond


@node Bar lines
@subsection Bar lines

@cindex Bar lines
@cindex @code{\bar}
@cindex measure lines
@cindex repeat bars

Bar lines delimit measures, but are also used to indicate
repeats.  Normally they are inserted automatically.  Line
breaks may only happen on bar lines.

Special types of bar lines can be forced with the @code{\bar} command

@lilypond[quote,raggedright,relative=2,fragment,verbatim]
c4 \bar "|:" c4
@end lilypond

The following bar types are available

@lilypondfile[raggedright,quote]{bar-lines.ly}

To allow a line break where there is no visible bar line, use

@example
\bar ""
@end example

@noindent
This will insert an invisible bar line and allow line breaks at this
point.

In scores with many staves, a @code{\bar} command in one staff is
automatically applied to all staves.  The resulting bar lines are
connected between different staves of a StaffGroup

@lilypond[quote,raggedright,fragment,verbatim]
<<
  \context StaffGroup <<
    \new Staff {
      e'4 d'
      \bar "||"
      f' e'
    }
    \new Staff { \clef bass c4 g e g }
  >>
  \new Staff { \clef bass c2 c2 }
>>
@end lilypond


@commonprop

@cindex @code{whichBar}
@cindex @code{repeatCommands}
@cindex @code{defaultBarType}

The command @code{\bar }@var{bartype} is a short cut for doing
@code{\set Timing.whichBar = }@var{bartype}.  Whenever @code{whichBar}
is set to a string, a bar line of that type is created.

A bar line is created whenever the @code{whichBar} property is set.
At the start of a measure it is set to the contents of
@code{Timing.defaultBarType}.  The contents of @code{repeatCommands} are used
to override default measure bars.

You are encouraged to use @code{\repeat} for repetitions.  See
@ref{Repeats}.


@seealso

In this manual: @ref{Repeats}, @ref{System start delimiters}.

Program reference: @internalsref{BarLine} (created at
@internalsref{Staff} level), @internalsref{SpanBar} (across staves).

Examples: @inputfileref{input/@/test,bar@/-lines@/.ly},


@node Unmetered music
@subsection Unmetered music

@cindex cadenza
@cindex @code{\cadenzaOn}
@cindex @code{\cadenzaOff}

Bar lines and bar numbers are calculated automatically.  For unmetered
music (cadenzas, for example), this is not desirable.  To turn off
automatic bar lines and bar numbers, use the commands @code{\cadenzaOn}
and @code{\cadenzaOff}.

@lilypond[verbatim,quote,raggedright,relative=2,fragment]
c4 d e d
\cadenzaOn
c4 c d8 d d f4 g4.
\cadenzaOff
\bar "|"
d4 e d c
@end lilypond


@refbugs

LilyPond will only insert page breaks at a barline.  Unless the unmetered
music ends before the end of the staff line, you will need to insert
invisible bar lines

@example
\bar ""
@end example

@noindent
to indicate where line breaks can occur.


@node System start delimiters
@subsection System start delimiters

@cindex start of system
@cindex Staff, multiple
@cindex bracket, vertical
@cindex brace, vertical
@cindex grand staff
@cindex staff group
@cindex staff, choir

Many scores consist of more than one staff.  These staves can be
joined in four different ways

@itemize @bullet
@item The group is started with a brace at the left, and bar lines are
connected.  This is done with the @internalsref{GrandStaff} context.

@lilypond[verbatim,raggedright,quote]
\new GrandStaff
\relative <<
  \new Staff { c1 c }
  \new Staff { c c }
>>
@end lilypond

@item The group is started with a bracket, and bar lines are connected.
This is done with the
@internalsref{StaffGroup} context

@lilypond[verbatim,raggedright,quote]
\new StaffGroup
\relative <<
  \new Staff { c1 c }
  \new Staff { c c }
>>
@end lilypond

@item The group is started with a bracket, but bar lines are not
connected.  This is done with the @internalsref{ChoirStaff} context.

@lilypond[verbatim,raggedright,quote]
\new ChoirStaff
\relative <<
  \new Staff { c1 c }
  \new Staff { c c }
>>
@end lilypond

@item The group is started with a vertical line.  Bar lines are not
connected.  This is the default for the score.

@lilypond[verbatim,raggedright,quote]
\relative <<
  \new Staff { c1 c }
  \new Staff { c c }
>>
@end lilypond
@end itemize


@seealso

The bar lines at the start of each system are
@internalsref{SystemStartBar}, @internalsref{SystemStartBrace}, and
@internalsref{SystemStartBracket}.  Only one of these types is created
in every context, and that type is determined by the property
@code{systemStartDelimiter}.


@node Staff symbol
@subsection Staff symbol

@cindex adjusting staff symbol

Notes, dynamic signs, etc., are grouped
with a set of horizontal lines, called a staff (plural `staves').  In
LilyPond, these lines are drawn using a separate layout object called
staff symbol.

The staff symbol may be tuned in the number, thickness and distance
of lines, using properties.  This is demonstrated in the example files
@inputfileref{input/@/test,staff@/-lines@/.ly},
@inputfileref{input/@/test,staff@/-size@/.ly}.

In addition, staves may be started and stopped at will. This is done
with @code{\startStaff} and @code{\stopStaff}.

@lilypond[verbatim,relative=2,fragment]
b4 b
\override Staff.StaffSymbol #'line-count = 2
\stopStaff \startStaff
b b
\revert Staff.StaffSymbol #'line-count
\stopStaff \startStaff
b b  
@end lilypond

In combination with Frenched staves, this may be used to typeset ossia
sections. An example is in @inputfileref{input/@/test@/,ossia.ly},
shown here

@cindex ossia

@lilypondfile{ossia.ly}

@cindex staff lines, setting number of
@cindex staff lines, setting thickness of
@cindex thickness of staff lines, setting
@cindex number of staff lines, setting

@seealso

Program reference: @internalsref{StaffSymbol}.

Examples: @inputfileref{input/@/test,staff@/-lines@/.ly},
@inputfileref{input/@/test@/,ossia.ly},
@inputfileref{input/@/test,staff@/-size@/.ly}.



@node Connecting notes
@section Connecting notes

This section deals with notation that affects groups of notes.

@menu
* Ties::                        
* Slurs::                       
* Phrasing slurs::              
* Automatic beams::             
* Manual beams::                
* Grace notes::                 
@end menu


@node Ties
@subsection Ties

@cindex tie
@cindex @code{~}

A tie connects two adjacent note heads of the same pitch.  The tie in
effect extends the length of a note.  Ties should not be confused with
slurs, which indicate articulation, or phrasing slurs, which indicate
musical phrasing.  A tie is entered using the tilde symbol `@code{~}'

@lilypond[quote,raggedright,fragment,verbatim]
e' ~ e' <c' e' g'> ~ <c' e' g'>
@end lilypond

When a tie is applied to a chord, all note heads whose pitches match
are connected.  When no note heads match, no ties will be created.

A tie is just a way of extending a note duration, similar to the
augmentation dot.  The following example shows two ways of notating
exactly the same concept

@lilypond[quote,fragment,raggedright]
\time 3/4 c'2. c'2 ~ c'4
@end lilypond

@noindent
Ties are used either when the note crosses a bar line, or when dots
cannot be used to denote the rhythm.  When using ties, larger note
values should be aligned to subdivisions of the measure, eg.

@lilypond[fragment,quote,raggedright]
\relative {
  r8 c8 ~ c2 r4 | r8^"not" c2 ~ c8 r4
}
@end lilypond

If you need to tie a lot of notes over bars, it may be easier to use
automatic note splitting (see @ref{Automatic note splitting}).  This
mechanism automatically splits long notes, and ties them across bar
lines.


@commonprop

Ties are sometimes used to write out arpeggios.  In this case, two tied
notes need not be consecutive.  This can be achieved by setting the
@code{tieWaitForNote} property to true.  For example,

@lilypond[fragment,verbatim,relative=1,raggedright]
\set tieWaitForNote = ##t
\grace { c16[~ e~ g]~ } <c, e g>4   
@end lilypond


@refcommands


@cindex @code{\tieUp}
@code{\tieUp},
@cindex @code{\tieDown}
@code{\tieDown},
@cindex @code{\tieNeutral}
@code{\tieNeutral},
@cindex @code{\tieDotted}
@code{\tieDotted},
@cindex @code{\tieDashed}
@code{\tieDashed},
@cindex @code{\tieSolid}
@code{\tieSolid}.


@seealso

In this manual: @ref{Automatic note splitting}.

Program reference: @internalsref{Tie}.


@refbugs

Switching staves when a tie is active will not produce a slanted tie.

Formatting of ties is a difficult subject.  The results are often not
optimal.


@node Slurs
@subsection Slurs

@cindex Slurs

A slur indicates that notes are to be played bound or
@emph{legato}.  They are entered using parentheses

@lilypond[quote,raggedright,relative=2,fragment,verbatim]
f( g a) a8 b( a4 g2 f4)
<c e>2( <b d>2)
@end lilypond

The direction of a slur can be specified with
@code{\slur@emph{DIR}}, where @code{@emph{DIR}} is
either @code{Up}, @code{Down}, or @code{Neutral} (automatically
selected).

However, there is a convenient shorthand for forcing slur
directions.  By adding @code{_} or @code{^} before the opening
parentheses, the direction is also set.  For example,

@lilypond[relative=2,raggedright,quote,verbatim,fragment]
c4_( c) c^( c)
@end lilypond

Only one slur can be printed at once.  If you need to print a long
slur over a few small slurs, please see @ref{Phrasing slurs}.


@commonprop

Some composers write two slurs when they want legato chords.  This can
be achieved in LilyPond by setting @code{doubleSlurs},

@lilypond[verbatim,raggedright,relative,fragment,quote]
\set doubleSlurs = ##t
<c e>4 ( <d f> <c e> <d f> )
@end lilypond


@refcommands

@cindex @code{\slurUp}
@code{\slurUp},
@cindex @code{\slurDown}
@code{\slurDown},
@cindex @code{\slurNeutral}
@code{\slurNeutral},
@cindex @code{\slurDashed}
@code{\slurDashed},
@cindex @code{\slurDotted}
@code{\slurDotted},
@cindex @code{\slurSolid}
@code{\slurSolid}.

@seealso

Program reference: @seeinternals{Slur}.


@node Phrasing slurs
@subsection Phrasing slurs

@cindex phrasing slurs
@cindex phrasing marks

A phrasing slur (or phrasing mark) connects notes and is used to
indicate a musical sentence.  It is written using @code{\(} and @code{\)}
respectively

@lilypond[quote,raggedright,fragment,verbatim,relative=1]
\time 6/4 c'\( d( e) f( e) d\)
@end lilypond

Typographically, the phrasing slur behaves almost exactly like a
normal slur.  However, they are treated as different objects.  A
@code{\slurUp} will have no effect on a phrasing slur; instead, use
@code{\phrasingSlurUp}, @code{\phrasingSlurDown}, and
@code{\phrasingSlurNeutral}.

You cannot have simultaneous phrasing slurs.


@refcommands

@cindex @code{\phrasingSlurUp}
@code{\phrasingSlurUp},
@cindex @code{\phrasingSlurDown}
@code{\phrasingSlurDown},
@cindex @code{\phrasingSlurNeutral}
@code{\phrasingSlurNeutral}.


@seealso

Program reference: @internalsref{PhrasingSlur}.


@node Automatic beams
@subsection Automatic beams

LilyPond inserts beams automatically

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\time 2/4 c8 c c c \time 6/8 c c c c8. c16 c8
@end lilypond

When these automatic decisions are not good enough, beaming can be
entered explicitly.  It is also possible to define beaming patterns
that differ from the defaults.  See @ref{Setting automatic beam behavior}
for details.

Individual notes may be marked with @code{\noBeam} to prevent them
from being beamed

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\time 2/4 c8 c\noBeam c c
@end lilypond


@seealso

Program reference: @internalsref{Beam}.


@node Manual beams
@subsection Manual beams

@cindex beams, manual
@cindex @code{]}
@cindex @code{[}

In some cases it may be necessary to override the automatic beaming
algorithm.  For example, the autobeamer will not put beams over rests
or bar lines.  Such beams are specified manually by marking the begin
and end point with @code{[} and @code{]}

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
{
  r4 r8[ g' a r8] r8 g[ | a] r8
}
@end lilypond


@commonprop

@cindex @code{stemLeftBeamCount}
@cindex @code{stemRightBeamCount}

Normally, beaming patterns within a beam are determined automatically.
If necessary, the properties @code{stemLeftBeamCount} and
@code{stemRightBeamCount} can be used to override the defaults.  If
either property is set, its value will be used only once, and then it
is erased

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
{
   f8[ r16
      f g a]
   f8[ r16
   \set stemLeftBeamCount = #1
      f g a]
}
@end lilypond

The property @code{subdivideBeams} can be set in order to subdivide
all 16th or shorter beams at beat positions, as defined by the
@code{beatLength} property.

@lilypond[fragment,quote,relative=2,verbatim]
c16[ c c c c c c c]
\set subdivideBeams = ##t
c16[ c c c c c c c]
\set Score.beatLength = #(ly:make-moment 1 8)
c16[ c c c c c c c]
@end lilypond
@cindex @code{subdivideBeams}

Line breaks are normally forbidden when beams cross bar lines.  This
behavior can be changed by setting @code{allowBeamBreak}.

@cindex @code{allowBeamBreak}
@cindex beams and line breaks
@cindex beams, kneed
@cindex kneed beams
@cindex auto-knee-gap


@refbugs

Kneed beams are inserted automatically when a large gap is detected
between the note heads.  This behavior can be tuned through the object.

Automatically kneed cross-staff beams cannot be used together with
hidden staves.  See @ref{Hiding staves}.

Beams do not avoid collisions with symbols around the notes, such as
texts and accidentals.


@node Grace notes
@subsection Grace notes

@cindex @code{\grace}
@cindex ornaments
@cindex grace notes
@cindex appoggiatura
@cindex acciaccatura

Grace notes are ornaments that are written out.  The most common ones
are acciaccatura, which should be played as very short.  It is denoted
by a slurred small note with a slashed stem.  The appoggiatura is a
grace note that takes a fixed fraction of the main note, and is
denoted as a slurred note in small print without a slash.  They
are entered with the commands @code{\acciaccatura} and
@code{\appoggiatura}, as demonstrated in the following example

@lilypond[quote,raggedright,relative=2,verbatim,fragment]
b4 \acciaccatura d8 c4 \appoggiatura e8 d4
\acciaccatura { g16[ f] } e4
@end lilypond

Both are special forms of the @code{\grace} command.  By prefixing this
keyword to a music expression, a new one is formed, which will be
printed in a smaller font and takes up no logical time in a measure.

@lilypond[quote,raggedright,relative=2,verbatim,fragment]
c4 \grace c16 c4
\grace { c16[ d16] } c2 c4
@end lilypond

@noindent
Unlike @code{\acciaccatura} and @code{\appoggiatura}, the
@code{\grace} command does not start a slur.

Internally, timing for grace notes is done using a second, `grace'
timing.  Every point in time consists of two rational numbers: one
denotes the logical time, one denotes the grace timing.  The above
example is shown here with timing tuples

@lilypond[quote,raggedright]
<<
  \relative c''{
    c4 \grace c16 c4 \grace {
    c16[ d16] } c2 c4
  }
  \new Lyrics \lyricmode {
    \override LyricText #'font-family = #'typewriter

    \markup { (0,0) } 4
    \grace { \markup {
      ( \fraction 1 4 , \fraction -1 16 ) } 16 }
    \markup { (\fraction 1 4 , 0 ) } 4
    \grace {
      \markup { (\fraction 2 4 , \fraction "-1" 8 ) } 16
      \markup { (\fraction 2 4 , \fraction "-1" 16 ) } 16
    }
    \markup { ( \fraction 2 4 , 0 ) }
  }
>>
@end lilypond

The placement of grace notes is synchronized between different staves.
In the following example, there are two sixteenth grace notes for
every eighth grace note

@lilypond[quote,raggedright,relative=2,verbatim,fragment]
<< \new Staff { e4 \grace { c16[ d e f] } e4 }
   \new Staff { c4 \grace { g8[ b] } c4 } >>
@end lilypond

If you want to end a note with a grace, use the @code{\afterGrace}
command.  It takes two arguments: the main note, and the grace notes
following the main note. 

@lilypond[raggedright, verbatim,relative=2,fragment]
c1 \afterGrace d1 { c16[ d] } c4   
@end lilypond

This will put the grace notes after a ``space'' lasting 3/4 of the
length of the main note.  The fraction 3/4 can be changed by setting
@code{afterGraceFraction}, ie.

@example
afterGraceFraction = #(cons 7 8) 
@end example

@noindent
will put the grace note at 7/8 of the main note. 

The same effect can be achieved manually by doing

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\context Voice {
  << { d1^\trill_( }
     { s2 \grace { c16[ d] } } >>
  c4)
}
@end lilypond

@noindent
By adjusting the duration of the skip note (here it is a half-note),
the space between the main-note and the grace is adjusted.

A @code{\grace} section will introduce special typesetting settings,
for example, to produce smaller type, and set directions.  Hence, when
introducing layout tweaks, they should be inside the grace section,
for example,
@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\new Voice {
  \acciaccatura {
    \stemDown
    f16->
    \stemNeutral
  }
  g4
}
@end lilypond

@noindent
The overrides should also be reverted inside the grace section.

The layout of grace sections can be changed throughout the music using
the function @code{add-grace-property}.  The following example
undefines the Stem direction for this grace, so stems do not always
point up.

@example
\new Staff @{
  #(add-grace-property 'Voice 'Stem 'direction '())
  @dots{}
@}
@end example

@noindent
Another option is to change the variables @code{startGraceMusic},
@code{stopGraceMusic}, @code{startAcciaccaturaMusic},
@code{stopAcciaccaturaMusic}, @code{startAppoggiaturaMusic},
@code{stopAppoggiaturaMusic}.  More information is in the file
@file{ly/@/grace@/-init@/.ly}.


@seealso

Program reference: @internalsref{GraceMusic}.


@refbugs

A score that starts with a @code{\grace} section needs an explicit
@code{\context Voice} declaration, otherwise the main note and the grace
note end up on different staves.

Grace note synchronization can also lead to surprises.  Staff notation,
such as key signatures, bar lines, etc., are also synchronized.  Take
care when you mix staves with grace notes and staves without, for example,

@lilypond[quote,raggedright,relative=2,verbatim,fragment]
<< \new Staff { e4 \bar "|:" \grace c16 d4 }
   \new Staff { c4 \bar "|:" d4 } >>
@end lilypond

@noindent
This can be remedied by inserting grace skips, for the above example

@example
\new Staff @{ c4 \bar "|:" \grace s16 d4 @}
@end example

Grace sections should only be used within sequential music
expressions.  Nesting or juxtaposing grace sections is not supported,
and might produce crashes or other errors.



@node Expressive marks
@section Expressive marks

Expressive marks help musicians to bring more to the music than simple
notes and rhythms.

@menu
* Articulations::               
* Fingering instructions::      
* Dynamics::                    
* Breath marks::                
* Running trills::              
* Glissando::                   
* Arpeggio::                    
@end menu


@node Articulations
@subsection Articulations

@cindex Articulations
@cindex scripts
@cindex ornaments

A variety of symbols can appear above and below notes to indicate
different characteristics of the performance.  They are added to a note
by adding a dash and the character signifying the
articulation.  They are demonstrated here

@lilypondfile[quote,raggedright]{script-abbreviations.ly}

The meanings of these shorthands can be changed.  See
@file{ly/@/script@/-init@/.ly} for examples.

The script is automatically placed, but the direction can be forced as
well.  Like other pieces of LilyPond code, @code{_} will place them
below the staff, and @code{^} will place them above.

@lilypond[quote,raggedright,fragment,verbatim]
c''4^^ c''4_^
@end lilypond

Other symbols can be added using the syntax
@var{note}@code{\}@var{name}.  Again, they
can be forced up or down using @code{^} and @code{_},
e.g.,

@lilypond[quote,raggedright,verbatim,fragment,relative=2]
c\fermata c^\fermata c_\fermata
@end lilypond

@cindex accent
@cindex marcato
@cindex staccatissimo
@cindex espressivo
@cindex fermata
@cindex stopped
@cindex staccato
@cindex portato
@cindex tenuto
@cindex upbow
@cindex downbow
@cindex foot marks
@cindex organ pedal marks
@cindex turn
@cindex open
@cindex flageolet
@cindex reverseturn
@cindex trill
@cindex prall
@cindex mordent
@cindex prallprall
@cindex prallmordent
@cindex prall, up
@cindex prall, down
@cindex mordent
@cindex thumb marking
@cindex segno
@cindex coda
@cindex varcoda

Here is a chart showing all scripts available,

@lilypondfile[raggedright,quote]{script-chart.ly}


@commonprop

The vertical ordering of scripts is controlled with the
@code{script-priority} property.  The lower this number, the closer it
will be put to the note.  In this example, the
@internalsref{TextScript} (the sharp symbol) first has the lowest
priority, so it is put lowest in the first example.  In the second, the
prall trill (the @internalsref{Script}) has the lowest, so it is on the
inside.  When two objects have the same priority, the order in which
they are entered decides which one comes first.

@lilypond[verbatim,relative=3,raggedright,fragment,quote]
\once \override TextScript #'script-priority = #-100
a4^\prall^\markup { \sharp }

\once \override Script #'script-priority = #-100
a4^\prall^\markup { \sharp }
@end lilypond


@seealso

Program reference: @internalsref{Script}.


@refbugs

These signs appear in the printed output but have no effect on the
MIDI rendering of the music.


@node Fingering instructions
@subsection Fingering instructions

@cindex fingering
@cindex finger change

Fingering instructions can be entered using
@example
@var{note}-@var{digit}
@end example
For finger changes, use markup texts

@lilypond[quote,verbatim,raggedright,fragment,relative=1]
c4-1 c-2 c-3 c-4
c^\markup { \finger "2 - 3" }
@end lilypond

You can use the thumb-script to indicate that a note should be
played with the thumb (e.g., in cello music)
@lilypond[quote,verbatim,raggedright,fragment,relative=2]
<a_\thumb a'-3>8 <b_\thumb b'-3>
@end lilypond

Fingerings for chords can also be added to individual notes
of the chord by adding them after the pitches
@lilypond[quote,verbatim,raggedright,fragment,relative=2]
< c-1 e-2 g-3 b-5 >4
@end lilypond


@commonprop

You may exercise greater control over fingering chords by
setting @code{fingeringOrientations}

@lilypond[quote,verbatim,raggedright,fragment,relative=1]
\set fingeringOrientations = #'(left down)
<c-1 es-2 g-4 bes-5 > 4
\set fingeringOrientations = #'(up right down)
<c-1 es-2 g-4 bes-5 > 4
@end lilypond

Using this feature, it is also possible to put fingering instructions
very close to note heads in monophonic music,

@lilypond[verbatim,raggedright,quote,fragment]
\set fingeringOrientations = #'(right)
<es'-2>4
@end lilypond


@seealso

Program reference: @internalsref{Fingering}.

Examples: @inputfileref{input/@/regression,finger@/-chords@/.ly}.


@node Dynamics
@subsection Dynamics

@cindex Dynamics
@cindex @code{\ppp}
@cindex @code{\pp}
@cindex @code{\p}
@cindex @code{\mp}
@cindex @code{\mf}
@cindex @code{\f}
@cindex @code{\ff}
@cindex @code{\fff}
@cindex @code{\ffff}
@cindex @code{\fp}
@cindex @code{\sf}
@cindex @code{\sff}
@cindex @code{\sp}
@cindex @code{\spp}
@cindex @code{\sfz}
@cindex @code{\rfz}

Absolute dynamic marks are specified using a command after a note
@code{c4\ff}.  The available dynamic marks are @code{\ppp},
@code{\pp}, @code{\p}, @code{\mp}, @code{\mf}, @code{\f}, @code{\ff},
@code{\fff}, @code{\fff}, @code{\fp}, @code{\sf}, @code{\sff},
@code{\sp}, @code{\spp}, @code{\sfz}, and @code{\rfz}.

@lilypond[quote,verbatim,raggedright,fragment,relative=2]
c\ppp c\pp c \p c\mp c\mf c\f c\ff c\fff
c2\fp c\sf c\sff c\sp c\spp c\sfz c\rfz
@end lilypond

@cindex @code{\<}
@cindex @code{\>}
@cindex @code{\!}

A crescendo mark is started with @code{\<} and terminated with
@code{\!} or an absolute dynamic.  A decrescendo is started with
@code{\>} and is also terminated with @code{\!} or an absolute
dynamic.  Because these marks are bound to notes, you must
use spacer notes if multiple marks are needed during one note

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
c\< c\! d\> e\!
<< f1 { s4 s4\< s4\! \> s4\! } >>
@end lilypond
This may give rise to very short hairpins.  Use @code{minimum-length}
in @internalsref{Voice}.@internalsref{Hairpin} to lengthen them, for
example

@example
\override Staff.Hairpin #'minimum-length = #5
@end example

@cindex crescendo
@cindex decrescendo
@cindex diminuendo

You can also use a text saying @emph{cresc.} instead of hairpins

@lilypond[quote,raggedright,fragment,relative=2,verbatim]
\setTextCresc
c\< d e f\!
\setHairpinCresc
e\> d c b\!
\setTextDecresc
c\> d e f\!
\setTextDim
e\> d c b\!
@end lilypond

You can also supply your own texts
@lilypond[quote,raggedright,fragment,relative=1,verbatim]
\set crescendoText = \markup { \italic "cresc. poco" }
\set crescendoSpanner = #'dashed-line
a'2\< a a a\!\mf
@end lilypond

To create new dynamic marks or text that should be aligned
with dynamics, see @ref{New dynamic marks}.


@refcommands

@cindex @code{\dynamicUp}
@code{\dynamicUp},
@cindex @code{\dynamicDown}
@code{\dynamicDown},
@cindex @code{\dynamicNeutral}
@code{\dynamicNeutral}.


@seealso

Program reference: @internalsref{DynamicText}, @internalsref{Hairpin}.
Vertical positioning of these symbols is handled by
@internalsref{DynamicLineSpanner}.


@node Breath marks
@subsection Breath marks

Breath marks are entered using @code{\breathe}

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
c'4 \breathe d4
@end lilypond


@commonprop

The glyph of the breath mark can be tuned by overriding the
@code{text} property of the @code{BreathingSign} layout object with
any markup text.  For example,
@lilypond[quote,raggedright,fragment,verbatim,relative=1]
c'4
\override BreathingSign #'text
  = #(make-musicglyph-markup "scripts.rvarcomma")
\breathe
d4
@end lilypond

@seealso

Program reference: @internalsref{BreathingSign}.

Examples: @inputfileref{input/@/regression,breathing@/-sign@/.ly}.


@node Running trills
@subsection Running trills

Long running trills are made with @code{\startTrillSpan} and
@code{\stopTrillSpan},

@lilypond[verbatim,raggedright,relative=2,quote,fragment]
\new Voice {
  << { c1 \startTrillSpan }
     { s2. \grace { d16[\stopTrillSpan e] } } >>
  c4 }
@end lilypond


@refcommands

@code{\startTrillSpan},
@cindex @code{\startTrillSpan}
@code{\stopTrillSpan}.
@cindex @code{\stopTrillSpan}


@seealso

This manual: @ref{Pitched trills}.

Program reference: @internalsref{TrillSpanner}.


@node Glissando
@subsection Glissando

@cindex Glissando
@cindex @code{\glissando}

A glissando is a smooth change in pitch.  It is denoted by a line or a
wavy line between two notes.  It is requested by attaching
@code{\glissando} to a note

@lilypond[quote,raggedright,fragment,relative=2,verbatim]
c2\glissando c'
\override Glissando #'style = #'zigzag
c2\glissando c,
@end lilypond


@seealso

Program reference: @internalsref{Glissando}.

Example files: @file{input/@/regression/@/glissando@/.ly}.


@refbugs

Printing text over the line (such as @emph{gliss.}) is not supported.


@node Arpeggio
@subsection Arpeggio

@cindex Arpeggio
@cindex broken chord
@cindex @code{\arpeggio}

You can specify an arpeggio sign (also known as broken chord) on a
chord by attaching an @code{\arpeggio} to a chord

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
<c e g c>\arpeggio
@end lilypond

A square bracket on the left indicates that the player should not
arpeggiate the chord

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
\arpeggioBracket
<c' e g c>\arpeggio
@end lilypond

The direction of the arpeggio is sometimes denoted by adding an
arrowhead to the wiggly line

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
\context Voice {
  \arpeggioUp
  <c e g c>\arpeggio
  \arpeggioDown
  <c e g c>\arpeggio
}
@end lilypond


@commonprop

When an arpeggio crosses staves, you may attach an arpeggio to the chords
in both staves and set
@internalsref{PianoStaff}.@code{connectArpeggios}

@lilypond[quote,raggedright,fragment,relative=1,verbatim]
\context PianoStaff <<
  \set PianoStaff.connectArpeggios = ##t
  \new Staff { <c' e g c>\arpeggio }
  \new Staff { \clef bass <c,, e g>\arpeggio }
>>
@end lilypond


@refcommands

@code{\arpeggio},
@cindex @code{\arpeggioUp}
@code{\arpeggioUp},
@cindex @code{\arpeggioDown}
@code{\arpeggioDown},
@cindex @code{\arpeggioNeutral}
@code{\arpeggioNeutral},
@cindex @code{\arpeggioBracket}
@code{\arpeggioBracket}.


@seealso

Notation manual: @ref{Ties}, for writing out arpeggios.

Program reference: @internalsref{Arpeggio}.


@refbugs

It is not possible to mix connected arpeggios and unconnected
arpeggios in one @internalsref{PianoStaff} at the same point in time.



@node Polyphony
@section Polyphony

Polyphony in music refers to having more than one voice occuring in
a piece of music.  Polyphony in LilyPond refers to having more than
one voice on the same staff.

@menu
* Basic polyphony::             
* Explicitly instantiating voices::  
* Collision Resolution::        
@end menu


@node Basic polyphony
@subsection Basic polyphony

@cindex polyphony

The easiest way to enter fragments with more than one voice on a staff
is to enter each voice as a sequence (with @code{@{...@}}), and combine 
them simultaneously, separating the voices with @code{\\}

@cindex @code{\\}

@lilypond[quote,verbatim,fragment]
\new Staff \relative c' {
  c16 d e f
  <<
    { g4 f e | d2 e2 } \\
    { r8 e4 d c8 ~ | c b16 a b8 g ~ g2 } \\
    { s2. | s4 b4 c2 }
  >>
}
@end lilypond

The separator causes @internalsref{Voice} contexts@footnote{Polyphonic
voices are sometimes called ``layers'' in other notation packages}
@cindex layers
to be instantiated.  They bear the names @code{"1"}, @code{"2"}, etc.  In
each of these contexts, vertical direction of slurs, stems, etc., is set
appropriately.  

These voices are all seperate from the voice that contains the notes just 
outside the @code{<< \\ >>} construct.  This should be noted when making 
changes at the voice level.  This also means that slurs and ties cannot go 
into or out of a @code{<< \\ >>} construct.  Conversely, parallel voices
from separate @code{<< \\ >>} constructs on the same staff are the the
same voice.  Here is the same example, with different noteheads for each
voice.  Note that the change to the note-head style in the main voice does not affect
the inside of the @code{<< \\ >>} constructs.  Also, the change to the second
voice in the first @code{<< \\ >>} construct is effective in the second
@code{<< \\ >>}, and the voice is tied accross the two constructs.

@lilypond[quote,verbatim,fragment]
\new Staff \relative c' {
  \override NoteHead #'style = #'cross
  c16 d e f
  <<    
    { g4 f e } \\
    { \override NoteHead #'style = #'triangle
    r8 e4 d c8 ~ }
  >> |
  <<
    { d2 e2 } \\ 
    { c8 b16 a b8 g ~ g2 } \\
    { \override NoteHead #'style = #'slash s4 b4 c2 }
  >>
}
@end lilypond

Polyphony does not change the relationship of notes within a
@code{\relative @{ @}} block.  Each note is calculated relative
to the note immediately preceding it.

@example
\relative @{ noteA << noteB \\ noteC >> noteD @}
@end example

@code{noteC} is relative to @code{noteB}, not @code{noteA};
@code{noteD} is relative to @code{noteC}, not @code{noteB} or
@code{noteA}.

@node Explicitly instantiating voices
@subsection Explicitly instantiating voices

@internalsref{Voice} contexts can also also be instantiated manually
inside a @code{<< >>} block to create polyphonic music, using 
@code{\voiceOne}, up to @code{\voiceFour} to assign stem directions 
and a horizontal shift for each part.

Specifically,
@example
<< \upper \\ \lower >>
@end example

@noindent
is equivalent to

@example
<<
  \context Voice = "1" @{ \voiceOne \upper @}
  \context Voice = "2" @{ \voiceTwo \lower @}
>>
@end example

The @code{\voiceXXX} commands set the direction of stems, slurs, ties,
articulations, text annotations, augmentation dots of dotted
notes, and fingerings.  @code{\voiceOne} and @code{\voiceThree} make
these objects point upwards, while @code{\voiceTwo} and @code{\voiceFour}
make them point downwards.  
The command @code{\oneVoice} will revert back to the normal setting.

An expression that appears directly inside a @code{<< >>} belongs to 
the main voice.  This is useful when extra voices appear while the main
voice is playing.  Here is a more correct rendition of the example from
the previous section.  The crossed noteheads demonstrate that the main
melody is now in a single voice context.

@lilypond[quote,raggedright,verbatim]
\new Staff \relative c' {
  \override NoteHead #'style = #'cross
  c16 d e f 
  \voiceOne
  <<    
    { g4 f e | d2 e2 }
    \context Voice="1" { \voiceTwo
      r8 e4 d c8 ~ | c8 b16 a b8 g ~ g2 
      \oneVoice
    }
    \new Voice { \voiceThree 
      s2. | s4 b4 c2 
      \oneVoice
    }
  >>
  \oneVoice
}
@end lilypond

The correct definition of the voices allows the melody to be slurred.
@lilypond[quote,raggedright,verbatim]
\new Staff \relative c' {
  c16^( d e f 
  \voiceOne
  <<    
    { g4 f e | d2 e2) }  
    \context Voice="1" { \voiceTwo
      r8 e4 d c8 ~ | c8 b16 a b8 g ~ g2 
      \oneVoice
    }
    \new Voice { \voiceThree 
      s2. s4 b4 c2 
      \oneVoice
    }
  >>
  \oneVoice
}
@end lilypond

Avoiding the @code{\\} seperator also allows nesting polyphony 
constructs, which in some case might be a more natural way to typeset
the music.

@lilypond[quote,raggedright,verbatim]
\new Staff \relative c' {
  c16^( d e f 
  \voiceOne
  <<    
    { g4 f e | d2 e2) }  
    \context Voice="1" { \voiceTwo
      r8 e4 d c8 ~ | 
      <<
        {c8 b16 a b8 g ~ g2} 
        \new Voice { \voiceThree 
          s4 b4 c2 
          \oneVoice
        }
      >>
    \oneVoice
    }
  >>
  \oneVoice
}
@end lilypond


@node Collision Resolution
@subsection Collision Resolution

Normally, note heads with a different number of dots are not merged, but
when the object property @code{merge-differently-dotted} is set in
the @internalsref{NoteCollision} object, they are merged
@lilypond[quote,verbatim,fragment,raggedright,relative=2]
\context Voice << {
  g8 g8
  \override Staff.NoteCollision
    #'merge-differently-dotted = ##t
  g8 g8
} \\ { g8.[ f16] g8.[ f16] } >>
@end lilypond

Similarly, you can merge half note heads with eighth notes, by setting
@code{merge-differently-headed}
@lilypond[quote,raggedright,fragment,relative=2,verbatim]
\context Voice << {
  c8 c4.
  \override Staff.NoteCollision
    #'merge-differently-headed = ##t
c8 c4. } \\ { c2 c2 } >>
@end lilypond

LilyPond also vertically shifts rests that are opposite of a stem,
for example

@lilypond[quote,raggedright,fragment,verbatim]
\context Voice << c''4 \\ r4 >>
@end lilypond


@refcommands

@cindex @code{\oneVoice}
@code{\oneVoice},
@cindex @code{\voiceOne}
@code{\voiceOne},
@cindex @code{\voiceTwo}
@code{\voiceTwo},
@cindex @code{\voiceThree}
@code{\voiceThree},
@cindex @code{\voiceFour}
@code{\voiceFour}.

@cindex @code{\shiftOn}
@code{\shiftOn},
@cindex @code{\shiftOnn}
@code{\shiftOnn},
@cindex @code{\shiftOnnn}
@code{\shiftOnnn},
@cindex @code{\shiftOff}
@code{\shiftOff}: these commands specify in what chords of the current
voice should be shifted.  The outer voices (normally: voice one and
two) have @code{\shiftOff}, while the inner voices (three and four)
have @code{\shiftOn}.  @code{\shiftOnn} and @code{\shiftOnnn} define
further shift levels.

When LilyPond cannot cope, the @code{force-hshift}
property of the @internalsref{NoteColumn} object and pitched rests can
be used to override typesetting decisions.

@lilypond[quote,verbatim,raggedright]
\relative <<
{
  <d g>
  <d g>
} \\ {
  <b f'>
  \once \override NoteColumn #'force-hshift = #1.7
  <b f'>
} >>
@end lilypond


@seealso

Program reference: the objects responsible for resolving collisions are
@internalsref{NoteCollision} and @internalsref{RestCollision}.

Examples:
@inputfileref{input/@/regression,collision@/-dots@/.ly},
@inputfileref{input/@/regression,collision@/-head-chords@/.ly},
@inputfileref{input/@/regression,collision@/-heads@/.ly},
@inputfileref{input/@/regression,collision@/-mesh@/.ly}, and
@inputfileref{input/@/regression,collisions@/.ly}.


@refbugs

When using @code{merge-differently-headed} with an upstem eighth or a
shorter note, and a downstem half note, the eighth note gets the wrong
offset.

There is no support for clusters where the same note occurs with
different accidentals in the same chord.  In this case, it is
recommended to use enharmonic transcription, or to use special cluster
notation (see @ref{Clusters}).



@node Repeats
@section Repeats

Repetition is a central concept in music, and multiple notations exist
for repetitions.

@menu
* Repeat types::                
* Repeat syntax::               
* Repeats and MIDI::            
* Manual repeat commands::      
* Tremolo repeats::             
* Tremolo subdivisions::        
* Measure repeats::             
@end menu


@node Repeat types
@subsection Repeat types

@cindex repeats
@cindex @code{\repeat}

The following types of repetition are supported

@table @code
@item unfold
Repeated music is fully written (played) out.  This is useful when
entering repetitious music.  This is the only kind of repeat that
is included in MIDI output.

@item volta
Repeats are not written out, but alternative endings (volte) are
printed, left to right with brackets.  This is the standard notation
for repeats with alternatives.  These are not played in MIDI output by default.

@ignore
@item fold
Alternative endings are written stacked.  This has limited use but may be
used to typeset two lines of lyrics in songs with repeats, see
@inputfileref{input,star-spangled-banner@/.ly}.
@end ignore

@item tremolo
Make tremolo beams.  These are not played in MIDI output by default.

@item percent
Make beat or measure repeats.  These look like percent signs.  These
are not played in MIDI output by default.  Percent repeats must be
declared within a Voice context.

@end table


@node Repeat syntax
@subsection Repeat syntax

LilyPond has one syntactic construct for specifying different types of
repeats.  The syntax is

@example
\repeat @var{variant} @var{repeatcount} @var{repeatbody}
@end example

If you have alternative endings, you may add
@cindex @code{\alternative}
@example
\alternative @{
  @var{alternative1}
  @var{alternative2}
  @var{alternative3}
  @dots{}
@}
@end example

@noindent
where each @var{alternative} is a music expression.  If you do not
give enough alternatives for all of the repeats, the first alternative
is assumed to be played more than once.

Standard repeats are used like this
@lilypond[quote,raggedright,fragment,verbatim,relative=2]
c1
\repeat volta 2 { c4 d e f }
\repeat volta 2 { f e d c }
@end lilypond

With alternative endings
@lilypond[quote,raggedright,fragment,verbatim,relative=2]
c1
\repeat volta 2 {c4 d e f}
\alternative { {d2 d} {f f,} }
@end lilypond

@lilypond[quote,raggedright,fragment,verbatim,relative=2]
\context Staff {
  \partial 4
  \repeat volta 4 { e | c2 d2 | e2 f2 | }
  \alternative { { g4 g g } { a | a a a a | b2. } }
}
@end lilypond

It is possible to shorten volta brackets
by setting @code{voltaSpannerDuration}.  In the next example, the
bracket only lasts one measure, which is a duration of 3/4.

@lilypond[verbatim,raggedright,quote]
\relative c''{
  \time 3/4
  c c c
  \set Staff.voltaSpannerDuration = #(ly:make-moment 3 4)
  \repeat "volta" 5 { d d d }
  \alternative { { e e e f f f }
  { g g g } }
}
@end lilypond


@seealso

Examples:

Brackets for the repeat are normally only printed over the topmost
staff.  This can be adjusted by setting the @code{voltaOnThisStaff}
property; see @inputfileref{input/@/regression,volta@/-multi@/-staff@/.ly}.


@refbugs

@cindex repeat, ambiguous

A nested repeat like

@example
\repeat @dots{}
\repeat @dots{}
\alternative
@end example

@noindent
is ambiguous, since it is is not clear to which @code{\repeat} the
@code{\alternative} belongs.  This ambiguity is resolved by always
having the @code{\alternative} belong to the inner @code{\repeat}.
For clarity, it is advisable to use braces in such situations.

Timing information is not remembered at the start of an alternative,
so after a repeat timing information must be reset by hand, for
example by setting @code{Score.measurePosition} or entering
@code{\partial}.  Similarly, slurs or ties are also not repeated.


@node Repeats and MIDI
@subsection Repeats and MIDI

@cindex expanding repeats
@cindex @code{\unfoldRepeats}

With a little bit of tweaking, all types of repeats can be present
in the MIDI output.  This is achieved by applying the
@code{\unfoldRepeats} music function.  This functions changes all
repeats to unfold repeats.

@lilypond[quote,verbatim,fragment,linewidth=8.0\cm]
\unfoldRepeats {
  \repeat tremolo 8 {c'32 e' }
  \repeat percent 2 { c''8 d'' }
  \repeat volta 2 {c'4 d' e' f'}
  \alternative {
    { g' a' a' g' }
    {f' e' d' c' }
  }
}
\bar "|."
@end lilypond

When creating a score file using @code{\unfoldRepeats} for midi, then
it is necessary to make two @code{\score} blocks.  One for MIDI (with
unfolded repeats) and one for notation (with volta, tremolo, and
percent repeats).  For example,

@example
\score @{
  @var{..music..}
  \layout @{ .. @}
@}
\score @{
  \unfoldRepeats @var{..music..}
  \midi @{ .. @}
@}
@end example


@node Manual repeat commands
@subsection Manual repeat commands

@cindex @code{repeatCommands}

The property @code{repeatCommands} can be used to control the layout of
repeats.  Its value is a Scheme list of repeat commands.

@table @asis
@item @code{start-repeat}
Print a @code{|:} bar line.

@item @code{end-repeat}
Print a @code{:|} bar line.

@item @code{(volta @var{text})}
Print a volta bracket saying @var{text}: The text can be specified as
a text string or as a markup text, see @ref{Text markup}.  Do not
forget to change the font, as the default number font does not contain
alphabetic characters;

@item @code{(volta #f)}
Stop a running volta bracket.
@end table

@lilypond[quote,raggedright,verbatim,fragment,relative=2]
c4
  \set Score.repeatCommands = #'((volta "93") end-repeat)
c4 c4
  \set Score.repeatCommands = #'((volta #f))
c4 c4
@end lilypond


@seealso

Program reference: @internalsref{VoltaBracket}, @internalsref{RepeatedMusic},
@internalsref{VoltaRepeatedMusic},
@internalsref{UnfoldedRepeatedMusic}, and
@internalsref{FoldedRepeatedMusic}.


@node Tremolo repeats
@subsection Tremolo repeats

@cindex tremolo beams

To place tremolo marks between notes, use @code{\repeat} with tremolo
style
@lilypond[quote,verbatim,raggedright]
\new Voice \relative c' {
  \repeat "tremolo" 8 { c16 d16 }
  \repeat "tremolo" 4 { c16 d16 }
  \repeat "tremolo" 2 { c16 d16 }
}
@end lilypond

Tremolo marks can also be put on a single note.  In this case, the
note should not be surrounded by braces.
@lilypond[quote,verbatim,raggedright]
\repeat "tremolo" 4 c'16
@end lilypond

Similar output is obtained using the tremolo subdivision, described in
@ref{Tremolo subdivisions}.


@seealso

In this manual: @ref{Tremolo subdivisions}, @ref{Repeats}.

Program reference: @internalsref{Beam}, @internalsref{StemTremolo}.

Example files: @inputfileref{input/@/regression,chord@/-tremolo@/.ly},
@inputfileref{input/@/regression,stem@/-tremolo@/.ly}.


@node Tremolo subdivisions
@subsection Tremolo subdivisions

@cindex tremolo marks
@cindex @code{tremoloFlags}

Tremolo marks can be printed on a single note by adding
`@code{:}[@var{number}]' after the note.  The number indicates the
duration of the subdivision, and it must be at least 8.  A
@var{length} value of 8 gives one line across the note stem.  If the
length is omitted, the last value (stored in @code{tremoloFlags}) is
used

@lilypond[quote,raggedright,verbatim,fragment]
c'2:8 c':32 | c': c': |
@end lilypond


@refbugs

Tremolos entered in this way do not carry over into the MIDI output.


@seealso

In this manual: @ref{Tremolo repeats}.

Elsewhere: @internalsref{StemTremolo}.


@node Measure repeats
@subsection Measure repeats

@cindex percent repeats
@cindex measure repeats

In the @code{percent} style, a note pattern can be repeated.  It is
printed once, and then the pattern is replaced with a special sign.
Patterns of one and two measures are replaced by percent-like signs,
patterns that divide the measure length are replaced by slashes.
Percent repeats must be declared within a @code{Voice} context.

@lilypond[quote,verbatim,raggedright]
\new Voice \relative c' {
  \repeat "percent" 4 { c4 }
  \repeat "percent" 2 { c2 es2 f4 fis4 g4 c4 }
}
@end lilypond


@seealso

Program reference: @internalsref{RepeatSlash}, @internalsref{PercentRepeat},
@internalsref{PercentRepeatedMusic}, and
@internalsref{DoublePercentRepeat}.