@c Note: -*-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 @c @c FIXME: singular vs. plural: Beams/Beam @node Notation manual @chapter Notation manual This chapter describes all the different types of notation supported by LilyPond. It is intended as a reference for users that are already somewhat familiar with using LilyPond. @menu * Note entry:: * Easier music entry:: * Staff notation:: * Polyphony:: * Beaming:: * Accidentals:: * Expressive marks:: * Repeats:: * Rhythmic music:: * Piano music:: * Vocal music:: * Tablatures:: * Chord names:: * Orchestral music:: * Ancient notation:: * Contemporary notation:: * Special notation:: @end menu @c FIXME: Note entry vs Music entry at top level menu is confusing. @node Note entry @section Note entry @cindex Note entry The basic elements of any piece of music are the notes. This section is about basic notation elements notes, rests and related constructs, such as stems, tuplets and ties. @menu * Notes:: * Pitches:: * Chromatic alterations:: * Chords:: * Rests:: * Skips:: * Durations:: * Stems:: * Ties:: * Tuplets:: @end menu @node Notes @subsection Notes A note is printed by specifying its pitch and then its duration: @footnote{Notes constitute the most basic elements of LilyPond input, but they do not form valid input on their own without a @code{\score} block. However, for the sake of brevity and simplicity we will generally omit @code{\score} blocks and @code{\paper} declarations in this manual.} @lilypond[fragment,verbatim] cis'4 d'8 e'16 c'16 @end lilypond @node Pitches @subsection Pitches @cindex Pitch names @cindex Note specification @cindex pitches @cindex entering notes The most common syntax for pitch entry is used in @code{\chords} and @code{\notes} mode. In Note and Chord mode, pitches may be designated by names. The notes are specified by the letters @code{a} through @code{g}, while 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[fragment,verbatim] \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 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. Half-flats and half-sharps are formed by adding @code{-eh} and @code{-ih}; the following is a series of Cs with increasing pitches: @cindex quarter tones @cindex semi-flats, semi-sharps @lilypond[verbatim,relative=2] ceses4 ceseh ces ceh c cih cis cisih 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 @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[fragment,verbatim] c' c'' es' g' as' gisis' ais' @end lilypond @refcommands Notes can be hidden and unhidden with the following commands: @cindex @code{\hideNotes} @code{\hideNotes}, @cindex @code{\unHideNotes} @code{\unHideNotes}. @seealso Internals: @internalsref{NoteEvent}, and @internalsref{NoteHead}. @node Chromatic alterations @subsection Chromatic alterations Normally accidentals are printed automatically, but you may also print them manually. A reminder accidental @cindex reminder accidental @cindex @code{?} can be forced by adding an exclamation mark @code{!} after the pitch. A cautionary accidental @cindex cautionary accidental @cindex parenthesized accidental (i.e. an accidental within parentheses) can be obtained by adding the question mark `@code{?}' after the pitch: @lilypond[fragment,verbatim] cis' cis' cis'! cis'? @end lilypond The automatic production of accidentals can be tuned in many ways. For more information, refer to @ref{Accidentals}. @node Chords @subsection 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. @node Rests @subsection Rests @cindex Rests Rests are entered like notes, with the note name @code{r}: @lilypond[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 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. This makes manual formatting in polyphonic music easier. Rest collision testing will leave these rests alone: @lilypond[raggedright,verbatim] a'4\rest d'4\rest @end lilypond @seealso Internals: @internalsref{RestEvent}, and @internalsref{Rest}. @c FIXME: naming. @node Skips @subsection Skips @cindex Skip @cindex Invisible rest @cindex Space note 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[raggedright,verbatim] a2 s4 a4 \skip 1 a4 @end lilypond The @code{s} syntax is only available in note mode and chord mode. In other situations, you should use the @code{\skip} command: @lilypond[raggedright,verbatim] \score { \new Staff << { \time 4/8 \skip 2 \time 4/4 } \notes\relative c'' { a2 a1 } >> } @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[raggedright,verbatim] \score { \notes { s4 } } @end lilypond The same fragment using @code{\skip} results in an empty page. @seealso Internals: @internalsref{SkipEvent}, @internalsref{SkipMusic}. @node Durations @subsection Durations @cindex duration 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 variables: @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[noindent] \score { \notes \relative c'' { a\breve \autoBeamOff a1 a2 a4 a8 a16 a32 a64 a64 r\longa r\breve r1 r2 r4 r8 r16 r32 r64 r64 } \paper { \translator { \StaffContext \remove "Clef_engraver" \override StaffSymbol #'transparent = ##t \override TimeSignature #'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. The duration can be followed by dots (`@code{.}') in order to obtain dotted note lengths: @cindex @code{.} @lilypond[fragment,verbatim] a' b' c''8 b' a'4 a'4. b'4.. c'8. @end lilypond @cindex @code{r} @cindex @code{s} 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: @lilypond[fragment,relative=2,verbatim] \time 2/4 a4*2/3 gis4*2/3 a4*2/3 a4 @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{\dotsBoth} @code{\dotsBoth}. @seealso Internals: @internalsref{Dots}, and @internalsref{DotColumn}. @node Stems @subsection Stems Whenever a note is found, a @internalsref{Stem} object is created automatically. For whole notes and rests, they are also created but made invisible. @refcommands @cindex @code{\stemUp} @code{\stemUp}, @cindex @code{\stemDown} @code{\stemDown}, @cindex @code{\stemBoth} @code{\stemBoth}. @node Ties @subsection Ties @cindex Tie @cindex ties @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[fragment,verbatim] e' ~ e' ~ @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. In its meaning a tie is just a way of extending a note duration, similar to the augmentation dot; in the following example there are two ways of notating exactly the same concept: @c @lilypond[fragment,raggedright] \time 3/4 c'2. c'2 ~ c'4 @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}). @refcommands @cindex @code{\tieUp} @code{\tieUp}, @cindex @code{\tieDown} @code{\tieDown}, @cindex @code{\tieBoth} @code{\tieBoth}, @cindex @code{\tieDotted} @code{\tieDotted}, @cindex @code{\tieSolid} @code{\tieSolid}. @seealso In this manual: @ref{Automatic note splitting}. Internals: @internalsref{TieEvent}, @internalsref{Tie}. For tying only a subset of the note heads of a pair of chords, see @inputfileref{input/regression,tie-chord-partial.ly}. @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 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: @cindex @code{\times} @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[fragment,verbatim] g'4 \times 2/3 {c'4 c' c'} d'4 d'4 @end lilypond 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, saving lots of typing. In the next example, there are two triplets shown, while @code{\times} was only used once: @lilypond[fragment,relative,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. @cindex @code{tupletNumberFormatFunction} @cindex tuplet formatting @refcommands @cindex @code{\tupletUp} @code{\tupletUp}, @cindex @code{\tupletDown} @code{\tupletDown}, @cindex @code{\tupletBoth} @code{\tupletBoth}. @seealso Internals: @internalsref{TupletBracket}, and @internalsref{TimeScaledMusic}. Examples: @inputfileref{input/regression,tuplet-nest.ly}. @refbugs Nested tuplets are not formatted automatically. In this case, outer tuplet brackets should be moved manually, which is demonstrated in @inputfileref{input/regression,tuplet-nest.ly}. @node Easier music entry @section Easier music entry @cindex Music entry When entering music it is easy to introduce errors. This section deals with tricks and features of the input language that were added solely to help entering music, and find and correct mistakes. It is also possible to use external programs, for example GUI interfaces, or MIDI transcription programs, to enter or edit music. Refer to the website for more information. Finally, there are tools make debugging easier, by linking the input file and the output shown on screen. See @ref{Point and click} for more information. @menu * Relative octaves:: * Octave check:: * Bar check:: * Skipping corrected music:: * Automatic note splitting:: @end menu @node Relative octaves @subsection Relative octaves @cindex Relative @cindex relative octave specification 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: a single error puts the rest of the piece off by one octave: @cindex @code{\relative} @example \relative @var{startpitch} @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}). 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 must be specified that will act as the predecessor of the first note of @var{musicexpr}. Here is the relative mode shown in action: @lilypond[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[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[fragment,verbatim] \relative c' { c } @end lilypond @cindex @code{\notes} The pitch after the @code{\relative} contains a note name. To parse the pitch as a note name, you have to be in note mode, so there must be a surrounding @code{\notes} keyword (which is not shown here). The relative conversion will not affect @code{\transpose}, @code{\chords} or @code{\relative} sections in its argument. If you want to use relative within transposed music, you must place an additional @code{\relative} inside the @code{\transpose}. @node Octave check @subsection 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 @c take care with @code, adds confusing quotes. the d will generate a warning, because a d'' is expected, but a d' is found. In the output, the octave is corrected this and the following notes. There is also a syntax that is separate from the notes. @example \octave @var{pitch} @end example This checks that @var{pitch} (without octave) yields @var{pitch} (with octave) in \relative mode. If not, a warning is printed, and the octave is corrected, for example, the first check is passed successfully. The second check fails with an error message. The octave is adjusted so 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 a @code{a'}, above middle C. Hence, the @code{\octave} check may be deleted without changing the meaning of the piece. @lilypond[verbatim,fragment] \relative c' { e \octave b a } @end lilypond @node Bar check @subsection Bar check @cindex 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. Depending on the value of @code{barCheckSynchronize}, the beginning of the measure will be relocated. 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 \lyrics @{ \time 2/4 Twin -- kle | Twin -- kle @} @end example @cindex skipTypesetting Failed bar checks are caused by entering incorrect durations. Incorrect durations often completely garble up the score, especially if it is polyphonic, so you should start correcting the score by scanning for failed bar checks and incorrect durations. To speed up this process, you can use @code{skipTypesetting}, described in the next section. @node Skipping corrected music @subsection Skipping corrected music The property @code{Score.skipTypesetting} can be used to switch on and off typesetting completely during the interpretation phase. When typesetting is switched off, the music is processed much more quickly. This can be used to skip over the parts of a score that have already been checked for errors: @lilypond[fragment,raggedright,verbatim] \relative c'' { c8 d \set Score.skipTypesetting = ##t e f g a g c, f e d \set Score.skipTypesetting = ##f c d b bes a g c2 } @end lilypond @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[noindent,verbatim,relative=1] \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; the engraver will not insert tuplets. @seealso Examples: @inputfileref{input/regression,completion-heads.ly}. Internals: @internalsref{Completion_heads_engraver}. @node Staff notation @section Staff notation This section describes music notation that occurs on staff level, such as keys, clefs and time signatures. @cindex Staff notation @menu * Staff symbol:: * Key signature:: * Clef:: * Ottava brackets:: * Time signature:: * Partial measures:: * Unmetered music:: * Bar lines:: @end menu @node Staff symbol @subsection Staff symbol @cindex adjusting staff symbol Notes, dynamic signs, etc. are grouped with a set of horizontal lines, into a staff (plural `staves'). In our system, these lines are drawn using a separate layout object called staff symbol. @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 Internals: @internalsref{StaffSymbol}. Examples: @inputfileref{input/test,staff-lines.ly}, @inputfileref{input/test,staff-size.ly}. @refbugs If a staff is ended halfway a piece, the staff symbol may not end exactly on the bar line. @node Key signature @subsection Key signature @cindex Key signature @cindex @code{\key} The key signature indicates the scale in which a piece is played. It is denoted by a set of alterations (flats or sharps) at the start of the staff. @syntax 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} Here, @var{type} should be @code{\major} or @code{\minor} to get @var{pitch}-major or @var{pitch}-minor, respectively. The standard mode names @code{\ionian}, @code{\locrian}, @code{\aeolian}, @code{\mixolydian}, @code{\lydian}, @code{\phrygian}, and @code{\dorian} are also defined. This command sets the context property @internalsref{Staff}.@code{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. The tutorial explains why this is so in @ref{More about pitches}. @refbugs The ordering of a key cancellation is wrong when it is combined with repeat bar lines. The cancellation is also printed after a line break. @seealso Internals: @internalsref{KeyChangeEvent}, and @internalsref{KeySignature}. @cindex @code{keySignature} @node Clef @subsection Clef @cindex @code{\clef} The clef indicates which lines of the staff correspond to which pitches. @syntax The clef can be set or changed with the @code{\clef} command: @lilypond[fragment,verbatim] \key f\major c''2 \clef alto g'2 @end lilypond Supported clef-names include: @c Moved standard clefs to the top /MB @table @code @cindex treble clef @cindex violin clef @item treble, violin, G, G2 G clef on 2nd line @item alto, C @cindex alto clef C clef on 3rd line @item tenor @cindex tenor clef C clef on 4th line. @item bass, F @cindex bass clef F clef on 4th line @item french @cindex french clef G clef on 1st line, so-called French violin clef @item soprano @cindex soprano clef C clef on 1st line @item mezzosoprano @cindex mezzosoprano clef C clef on 2nd line @item baritone @cindex baritone clef C clef on 5th line @item varbaritone @cindex varbaritone clef F clef on 3rd line @item subbass @cindex subbass clef F clef on 5th line @item percussion percussion 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[verbatim,fragment,relative] \clef "G_8" c4 @end lilypond This command is equivalent to setting @code{clefGlyph}, @code{clefPosition} (which controls the Y position of the clef), @code{centralCPosition} and @code{clefOctavation}. A clef is printed when any of these properties are changed. @seealso Internals: the object for this symbol is @internalsref{Clef}. @node Ottava brackets @subsection Ottava brackets ``Ottava'' brackets introduce an extra transposition of an octave for the staff. They are created by invoking the function @code{set-octavation}: @cindex ottava @cindex 15ma @cindex octavation @lilypond[verbatim,fragment] \relative c''' { a2 b #(set-octavation 1) a b #(set-octavation 0) a b } @end lilypond The @code{set-octavation} function also takes -1 (for 8va bassa) and 2 (for 15ma) as arguments. Internally the function sets the properties @code{ottavation} (e.g. to @code{"8va"}) and @code{centralCPosition}. For overriding the text of the bracket, set @code{ottavation} after invoking @code{set-octavation}, i.e., @example #(set-octavation 1) \set Staff.ottavation = #"8" @end example @seealso Internals: @internalsref{OttavaBracket}. Examples: @inputfileref{input/regression,ottava.ly}, @inputfileref{input/regression,ottava-broken.ly}. @refbugs @code{set-octavation} will get confused when clef changes happen during an octavation bracket. @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. @syntax The time signature is set or changed by the @code{\time} command: @lilypond[fragment,verbatim] \time 2/4 c'2 \time 3/4 c'2. @end lilypond 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. There are many more options for its layout. See @inputfileref{input/test,time.ly} for more examples. This command 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[verbatim] \score { \notes \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 } \paper { raggedright = ##t \translator { \StaffContext \consists "Measure_grouping_engraver" }}} @end lilypond @seealso Internals: @internalsref{TimeSignature}, and @internalsref{Timing_engraver}. @refbugs Automatic beaming does not use measure grouping specified with @code{set-time-signature}. @node Partial measures @subsection Partial measures @cindex Partial @cindex anacrusis @cindex partial measure @cindex measure, partial @cindex shorten measures @cindex @code{\partial} Partial measures, for example in upsteps, are entered using the @code{\partial} command: @lilypond[fragment,verbatim,relative=1] \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 @cindex @code{|} The property @code{measurePosition} contains a rational number indicating how much of the measure has passed at this point. @node Unmetered music @subsection Unmetered music Bar lines and bar numbers are calculated automatically. For unmetered music (e.g. cadenzas), this is not desirable. By setting @code{Score.timing} to false, this automatic timing can be switched off. @refcommands @cindex @code{\cadenzaOn} @code{\cadenzaOn}, @cindex @code{\cadenzaOff} @code{\cadenzaOff}. @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. @syntax Special types of bar lines can be forced with the @code{\bar} command: @c @lilypond[relative=1,fragment,verbatim] c4 \bar "|:" c4 @end lilypond The following bar types are available: @lilypond[fragment,relative,raggedright,verbatim] c4 \bar "|" c \bar "" c \bar "|:" c \bar "||" c \bar ":|" c \bar ".|" c \bar ".|." c \bar ":|:" c \bar "|." c \bar ":" c @end lilypond For allowing line breaks, there is a special command, @example \bar "empty" @end example 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 @internalsref{StaffGroup}: @c @lilypond[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 The command @code{\bar @var{bartype}} is a short cut for doing @code{\set Score.whichBar = @var{bartype}} Whenever @code{whichBar} is set to a string, a bar line of that type is created. At the start of a measure it is set to @code{defaultBarType}. The contents of @code{repeatCommands} are used to override default measure bars. Property @code{whichBar} can also be set directly, using @code{\set} or @code{\bar}. These settings take precedence over the automatic @code{whichBar} settings. @cindex whichBar @cindex repeatCommands @cindex defaultBarType You are encouraged to use @code{\repeat} for repetitions. See @ref{Repeats}. @seealso In this manual: @ref{Repeats}. Internals: the bar line objects that are created at @internalsref{Staff} level are called @internalsref{BarLine}, the bar lines that span staves are @internalsref{SpanBar}s. @cindex bar lines at start of system @cindex start of system 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}. Examples: @inputfileref{input/test,bar-lines.ly}, @node Polyphony @section Polyphony @cindex polyphony The easiest way to enter fragments with more than one voice on a staff is to split chords using the separator @code{\\}. You can use it for small, short-lived voices or for single chords: @lilypond[verbatim,fragment] \context Staff \relative c'' { c4 << { f d e } \\ { b c2 } >> c4 << g' \\ b, \\ f' \\ d >> } @end lilypond The separator causes @internalsref{Voice} contexts@footnote{Polyphonic voices are sometimes called "layers" 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. @cindex @code{\voiceOne} @cindex @code{\voiceFour} This can also be done by instantiating @internalsref{Voice} contexts by hand, and using @code{\voiceOne}, up to @code{\voiceFour} to assign a stem directions and horizontal shift for each part: @c @lilypond[raggedright,verbatim] \relative c'' \context Staff << \new Voice { \voiceOne cis2 b } \new Voice { \voiceThree b4 ais ~ ais4 gis4 } \new Voice { \voiceTwo fis4~ fis4 f ~ f } >> @end lilypond @noindent The command @code{\oneVoice} will revert back to the normal setting. @cindex @code{\oneVoice} 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[verbatim,fragment,raggedright] \relative c'' \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[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: @lilypond[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}. The following commands specify in what chords of the current voice should be shifted: the outer voice has @code{\shiftOff}, and the inner voices have @code{\shiftOn}, @code{\shiftOnn}, etc. @cindex @code{\shiftOn} @code{\shiftOn}, @cindex @code{\shiftOnn} @code{\shiftOnn}, @cindex @code{\shiftOnnn} @code{\shiftOnnn}, @cindex @code{\shiftOff} @code{\shiftOff}. @seealso Internals: the objects responsible for resolving collisions are @internalsref{NoteCollision} and @internalsref{RestCollision}. Examples: See also example files @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 Resolving collisions is a intricate subject, and only a few situations are handled. When LilyPond cannot cope, the @code{force-hshift} property of the @internalsref{NoteColumn} object and pitched rests can be used to override typesetting decisions. When using @code{merge-differently-headed} with an upstem 8th or a shorter note, and a downstem half note, the 8th 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 Beaming @section Beaming Beams are used to group short notes into chunks that are aligned with the metrum. They are inserted automatically in most cases: @lilypond[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. Individual notes may be marked with @code{\noBeam}, to prevent them from being beamed: @lilypond[fragment,verbatim,relative=2] \time 2/4 c8 c\noBeam c c @end lilypond @seealso Internals: @internalsref{Beam}. @cindex Automatic beams @menu * Manual beams:: * Setting automatic beam behavior:: @end menu @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 by manually: the begin and end point are marked with @code{[} and @code{]}: @lilypond[fragment,relative,verbatim] \context Staff { r4 r8[ g' a r8] r8 g[ | a] r8 } @end lilypond @cindex @code{stemLeftBeamCount} Normally, beaming patterns within a beam are determined automatically. When this mechanism fouls up, the properties @code{stemLeftBeamCount} and @code{stemRightBeamCount} can be used to control the beam subdivision on a stem. If either property is set, its value will be used only once, and then it is erased: @lilypond[fragment,relative,verbatim] \context Staff { f8[ r16 f g a] f8[ r16 \set stemLeftBeamCount = #1 f g a] } @end lilypond @cindex @code{stemRightBeamCount} 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. This accomplishes the same effect as twiddling with @code{stemLeftBeamCount} and @code{stemRightBeamCount}, but it take less typing: @lilypond[relative=1,verbatim,noindent] 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 subdivideBeams Kneed beams are inserted automatically, when a large gap is detected between the note heads. This behavior can be tuned through the object property @code{auto-knee-gap}. Normally, line breaks are 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 @cindex Frenched staves Automatically kneed beams cannot be used together with hidden staves. @node Setting automatic beam behavior @subsection Setting automatic beam behavior @cindex @code{autoBeamSettings} @cindex @code{(end * * * *)} @cindex @code{(begin * * * *)} @cindex automatic beams, tuning @cindex tuning automatic beaming @c [TODO: use \applycontext] In normal time signatures, automatic beams can start on any note but can only end in a few positions within the measure: beams can end on a beat, or at durations specified by the properties in @code{autoBeamSettings}. The defaults for @code{autoBeamSettings} are defined in @file{scm/auto-beam.scm}. The value of @code{autoBeamSettings} is changed with two functions: @example #(override-auto-beam-setting '(@var{be} @var{p} @var{q} @var{n} @var{m}) @var{a} @var{b} [@var{context}]) #(revert-auto-beam-setting '(@var{be} @var{p} @var{q} @var{n} @var{m})) @end example Here, @var{be} is the symbol @code{begin} or @code{end}. It determines whether the rule applies to begin or end-points. The quantity @var{p}/@var{q} refers to the length of the beamed notes (and `@code{* *}' designates notes of any length), @var{n}/@var{M} refers to a time signature (wildcards `@code{* *}' may be entered to designate all time signatures), @var{a}/@var{b} is a duration. By default, this command changes settings for the current voice. It is also possible to adjust settings at higher contexts, by adding a @var{context} argument. For example, if automatic beams should end on every quarter note, use the following: @example #(override-auto-beam-setting '(end * * * *) 1 4) @end example Since the duration of a quarter note is 1/4 of a whole note, it is entered as @code{(ly:make-moment 1 4)}. The same syntax can be used to specify beam starting points. In this example, automatic beams can only end on a dotted quarter note: @example #(override-auto-beam-setting '(end * * * *) 3 8) @end example In 4/4 time signature, this means that automatic beams could end only on 3/8 and on the fourth beat of the measure (after 3/4, that is 2 times 3/8, has passed within the measure). Rules can also be restricted to specific time signatures. A rule that should only be applied in @var{N}/@var{M} time signature is formed by replacing the second asterisks by @var{N} and @var{M}. For example, a rule for 6/8 time exclusively looks like @example #(override-auto-beam-setting '(begin * * 6 8) @dots{}) @end example If a rule should be to applied only to certain types of beams, use the first pair of asterisks. Beams are classified according to the shortest note they contain. For a beam ending rule that only applies to beams with 32nd notes (and no shorter notes), use @code{(end 1 32 * *)}. If a score ends while an automatic beam has not been ended and is still accepting notes, this last beam will not be typeset at all. @cindex automatic beam generation @cindex autobeam @cindex @code{autoBeaming} @cindex lyrics For melodies that have lyrics, you may want to switch off automatic beaming. This is done by setting @code{autoBeaming} to @code{#f}. @refcommands @cindex @code{\autoBeamOff} @code{\autoBeamOff}, @cindex @code{\autoBeamOn} @code{\autoBeamOn}. @refbugs The rules for ending a beam depend on the shortest note in a beam. So, while it is possible to have different ending rules for eight beams and sixteenth beams, a beam that contains both eight and sixteenth notes will use the rules for the sixteenth beam. In the example below, the autobeamer makes eight beams and sixteenth end at 3 eights; the third beam can only be corrected by specifying manual beaming. @lilypond[raggedright,fragment,relative,noverbatim] #(override-auto-beam-setting '(end * * * *) 3 8) % rather show case where it goes wrong %\time 12/8 c'8 c c c16 c c c c c c[ c c c] c8[ c] c4 \time 12/8 c'8 c c c16 c c c c c c c c c c8 c c4 @end lilypond It is not possible to specify beaming parameters that act differently in different parts of a measure. This means that it is not possible to use automatic beaming in irregular meters such as @code{5/8}. @node Accidentals @section Accidentals @cindex Accidentals This section describes how to change the way that accidentals are inserted automatically before the running notes. @menu * Using the predefined accidental variables:: * Customized accidental rules:: @end menu @node Using the predefined accidental variables @subsection Using the predefined accidental variables Common rules for typesetting macros have been canned in a function. This function is called as follows: @cindex @code{set-accidental-style} @example #(set-accidental-style 'modern 'Voice) @end example The function takes two arguments: a symbol that denotes the style (in the example, @code{modern}), and another symbol that denotes the context name (in this example, @code{Staff}). If no context name is supplied, @code{Staff} is the default. The following styles are supported: @table @code @item default This is the default typesetting behavior. It should correspond to 18th century common practice: Accidentals are remembered to the end of the measure in which they occur and only on their own octave. @item voice @c The normal behavior is to remember the accidentals on Staff-level. This variable, however, typesets accidentals individually for each voice. Apart from that, the rule is similar to @code{code}. This leads to some weird and often unwanted results because accidentals from one voice do not get canceled in other voices: @lilypond[raggedright,relative,fragment,verbatim] \context Staff << #(set-accidental-style 'voice) << { es g } \\ { c, e } >> >> @end lilypond Hence you should only use @code{voice} if the voices are to be read solely by individual musicians. If the staff is to be used by one musician (e.g. a conductor) then you use @code{modern} or @code{modern-cautionary} instead. @item modern @cindex @code{modern} style accidentals This rule corresponds to the common practice in the 20th century. This rule prints the same accidentals as @code{default}, but temporary accidentals also are canceled in other octaves. Furthermore, in the same octave, they also get canceled in the following measure: @lilypond[raggedright,fragment,verbatim] #(set-accidental-style 'modern) cis' c'' cis'2 | c'' c' @end lilypond @item @code{modern-cautionary} @cindex @code{modern-cautionary} This rule is similar to @code{modern}, but the ``extra'' accidentals (the ones not typeset by @code{default}) are typeset as cautionary accidentals. They are printed in reduced size or with parentheses: @lilypond[raggedright,fragment,verbatim] #(set-accidental-style 'modern-cautionary) cis' c'' cis'2 | c'' c' @end lilypond @cindex @code{modern-voice} @item modern-voice is used for multivoice accidentals to be read both by musicians playing one voice and musicians playing all voices. Accidentals are typeset for each voice, but they @emph{are} canceled across voices in the same @internalsref{Staff}. @cindex @code{modern-voice-cautionary} @item modern-voice-cautionary is the same as @code{modern-voice}, but with the extra accidentals (the ones not typeset by @code{voice}) typeset as cautionaries. Even though all accidentals typeset by @code{default} @emph{are} typeset by this variable then some of them are typeset as cautionaries. @item piano @cindex @code{piano} accidentals 20th century practice for piano notation. Very similar to @code{modern} but accidentals also get canceled across the staves in the same @internalsref{GrandStaff} or @internalsref{PianoStaff}. @item piano-cautionary @cindex @code{#(set-accidental-style 'piano-cautionary)} As @code{#(set-accidental-style 'piano)' , str)} but with the extra accidentals typeset as cautionaries. @item no-reset @cindex @code{no-reset} accidental style Same as @code{default} but with accidentals lasting ``forever'' and not only until the next measure: @lilypond[raggedright,fragment,verbatim,relative] #(set-accidental-style 'no-reset) c1 cis cis c @end lilypond @item forget This is sort of the opposite of @code{no-reset}: Accidentals are not remembered at all---and hence all accidentals are typeset relative to the key signature, regardless of what was before in the music: @lilypond[raggedright,fragment,verbatim,relative] #(set-accidental-style 'forget) \key d\major c4 c cis cis d d dis dis @end lilypond @end table @node Customized accidental rules @subsection Customized accidental rules For determining when to print an accidental, several different rules are tried. The rule that gives the highest number of accidentals is used. Each rule consists of @table @var @item context: In which context is the rule applied. For example, if @var{context} is @internalsref{Score} then all staves share accidentals, and if @var{context} is @internalsref{Staff} then all voices in the same staff share accidentals, but staves do not. @item octavation: Whether the accidental changes all octaves or only the current octave. Valid choices are @table @samp @item same-octave: This is the default algorithm. Accidentals are typeset if the note changes the accidental of that note in that octave. Accidentals lasts to the end of the measure and then as many measures as specified in the value. I.e. 1 means to the end of next measure, -1 means to the end of previous measure (that is: no duration at all), etc. #t means forever. @item any-octave: Accidentals are typeset if the note is different from the previous note on the same pitch in any octave. The value has same meaning as in same-octave. @end table @item laziness Over how many bar lines the accidental lasts. If @var{laziness} is @code{-1} then the accidental is forget immediately, and if @var{laziness} is @code{#t} then the accidental lasts forever. @end table @seealso Internals: @internalsref{Accidental_engraver}, @internalsref{Accidental}, and @internalsref{AccidentalPlacement}. @refbugs Currently the simultaneous notes are considered to be entered in sequential mode. This means that in a chord the accidentals are typeset as if the notes in the chord happened once at a time - in the order in which they appear in the input file. This is only a problem when there are simultaneous notes whose accidentals depend on each other. The problem only occurs when using non-default accidentals. In the default scheme, accidentals only depend on other accidentals with the same pitch on the same staff, so no conflicts possible. This example shows two examples of the same music giving different accidentals depending on the order in which the notes occur in the input file: @lilypond[raggedright,fragment,verbatim] \set Staff.autoAccidentals = #'( Staff (any-octave . 0) ) cis'4 r2 | cis'4 r2 | r | r | @end lilypond This problem can be solved by manually inserting @code{!} and @code{?} for the problematic notes. @node Expressive marks @section Expressive marks @c todo: should change ordering @c where to put text spanners, metronome marks, @c fingering? @menu * Slurs:: * Phrasing slurs:: * Breath marks:: * Metronome marks:: * Text spanners:: * Analysis brackets:: * Articulations:: * Fingering instructions:: * Text scripts:: * Grace notes:: * Glissando:: * Dynamics:: @end menu @node Slurs @subsection Slurs @cindex Slurs A slur indicates that notes are to be played bound or @emph{legato}. @syntax They are entered using parentheses: @lilypond[relative=1,fragment,verbatim] f( g)( a) a8 b( a4 g2 f4) 2( 2) @end lilypond @c TODO: should explain that ^( and _( set directions @c should set attachments with ^ and _ ? Slurs avoid crossing stems, and are generally attached to note heads. However, in some situations with beams, slurs may be attached to stem ends. If you want to override this layout you can do this through the object property @code{attachment} of @internalsref{Slur} in @internalsref{Voice} context. Its value is a pair of symbols, specifying the attachment type of the left and right end points: @lilypond[fragment,relative,verbatim] \slurUp \override Stem #'length = #5.5 g'8(g g4) \override Slur #'attachment = #'(stem . stem) g8( g g4) @end lilypond If a slur would strike through a stem or beam, the slur will be moved away upward or downward. If this happens, attaching the slur to the stems might look better: @lilypond[fragment,relative,verbatim] \stemUp \slurUp d32( d'4 d8..) \override Slur #'attachment = #'(stem . stem) d,32( d'4 d8..) @end lilypond @refcommands @cindex @code{\slurUp} @code{\slurUp}, @cindex @code{\slurDown} @code{\slurDown}, @cindex @code{\slurBoth} @code{\slurBoth}, @cindex @code{\slurDotted} @code{\slurDotted}, @cindex @code{\slurSolid} @code{\slurSolid}. @seealso Internals: @seeinternals{Slur}, and @internalsref{SlurEvent}. @refbugs Producing nice slurs is a difficult problem, and LilyPond currently uses a simple, empiric method to produce slurs. In some cases, its results are ugly. @cindex Adjusting slurs @node Phrasing slurs @subsection Phrasing slurs @cindex phrasing slurs @cindex phrasing marks A phrasing slur (or phrasing mark) connects chords and is used to indicate a musical sentence. It is started using @code{\(} and @code{\)} respectively: @lilypond[fragment,verbatim,relative] \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, you should use @code{\phrasingSlurUp}, @code{\phrasingSlurDown}, and @code{\phrasingSlurBoth}. The commands @code{\slurUp}, @code{\slurDown}, and @code{\slurBoth} will only affect normal slurs and not phrasing slurs. @refcommands @cindex @code{\phrasingSlurUp} @code{\phrasingSlurUp}, @cindex @code{\phrasingSlurDown} @code{\phrasingSlurDown}, @cindex @code{\phrasingSlurBoth} @code{\phrasingSlurBoth}. @seealso Internals: see also @internalsref{PhrasingSlur}, and @internalsref{PhrasingSlurEvent}. @refbugs Phrasing slurs have the same limitations in their formatting as normal slurs. Putting phrasing slurs over rests leads to spurious warnings. @node Breath marks @subsection Breath marks Breath marks are entered using @code{\breathe}: @lilypond[fragment,relative,verbatim] c'4 \breathe d4 @end lilypond The glyph of the breath mark can be tweaked by overriding the @code{text} property of the @code{BreathingSign} layout object with any markup text. For example, @lilypond[fragment,verbatim,relative] c'4 \override BreathingSign #'text = #(make-musicglyph-markup "scripts-rvarcomma") \breathe d4 @end lilypond @seealso Internals: @internalsref{BreathingSign}, @internalsref{BreathingSignEvent}. Examples: @inputfileref{input/regression,breathing-sign.ly}. @node Metronome marks @subsection Metronome marks @cindex Tempo @cindex beats per minute @cindex metronome marking Metronome settings can be entered as follows: @example \tempo @var{duration} = @var{per-minute} @end example In the MIDI output, they are interpreted as a tempo change, and in the paper output, a metronome marking is printed: @cindex @code{\tempo} @lilypond[fragment,verbatim] \tempo 8.=120 c''1 @end lilypond @seealso Internals: @internalsref{MetronomeChangeEvent}. @node Text spanners @subsection Text spanners @cindex Text spanners Some performance indications, e.g. @i{rallentando} or @i{accelerando}, are written as texts, and extended over many measures with dotted lines. You can create such texts using text spanners: attach @code{\startTextSpan} and @code{\stopTextSpan} to the start and ending note of the spanner. The string to be printed, as well as the style, is set through object properties: @lilypond[fragment,relative,verbatim] \relative c' { c1 \override TextSpanner #'direction = #-1 \override TextSpanner #'edge-text = #'("rall " . "") c2\startTextSpan b c\stopTextSpan a } @end lilypond @seealso Internals @internalsref{TextSpanEvent}, @internalsref{TextSpanner}. Examples: @inputfileref{input/regression,text-spanner.ly}. @node Analysis brackets @subsection Analysis brackets @cindex brackets @cindex phrasing brackets @cindex musicological analysis @cindex note grouping bracket Brackets are used in musical analysis to indicate structure in musical pieces. LilyPond supports a simple form of nested horizontal brackets. To use this, add the @internalsref{Horizontal_bracket_engraver} to @internalsref{Staff} context. A bracket is started with @code{\startGroup} and closed with @code{\stopGroup}: @lilypond[raggedright,verbatim] \score { \notes \relative c'' { c4\startGroup\startGroup c4\stopGroup c4\startGroup c4\stopGroup\stopGroup } \paper { \translator { \StaffContext \consists "Horizontal_bracket_engraver" }}} @end lilypond @seealso Internals: @internalsref{HorizontalBracket}, @internalsref{NoteGroupingEvent}. Examples: @inputfileref{input/regression,note-group-bracket.ly}. @node Articulations @subsection Articulations @cindex 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[]{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 if you need to force directions, you can use @code{_} to force them down, or @code{^} to put them up: @lilypond[fragment,verbatim] c''4^^ c''4_^ @end lilypond Other symbols can be added using the syntax @var{note}@code{\}@var{name}, e.g. @code{c4\fermata}. Again, they can be forced up or down using @code{^} and @code{_}, e.g. @lilypond[verbatim,fragment,relative=2] c\fermata c^\fermata c_\fermata @end lilypond @cindex accent @cindex marcato @cindex staccatissimo @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 @lilypondfile[]{script-chart.ly} @refcommands @cindex @code{\scriptUp} @code{\scriptUp}, @cindex @code{\scriptDown} @code{\scriptDown}, @cindex @code{\scriptBoth} @code{\scriptBoth}. @seealso Internals: @internalsref{ScriptEvent}, and @internalsref{Script}. @refbugs These note ornaments appear in the printed output but have no effect on the MIDI rendering of the music. @node Fingering instructions @subsection Fingering instructions @cindex fingering Fingering instructions can be entered using @example @var{note}-@var{digit} @end example For finger changes, use markup texts: @c @lilypond[verbatim,raggedright,fragment] c'4-1 c'4-2 c'4-3 c'4-4 c'^\markup { \fontsize #-3 \number "2-3" } @end lilypond @cindex finger change @cindex scripts @cindex superscript @cindex subscript You can use the thumb-script to indicate that a note should be played with the thumb (e.g. in cello music): @lilypond[verbatim,raggedright,fragment] 8(_\thumb )_\thumb (_\thumb )_\thumb @end lilypond Fingerings for chords can also be added to individual notes of the chord by adding them after the pitches: @lilypond[verbatim,raggedright,fragment,relative=1] < c-1 e-2 g-3 b-5 > 4 @end lilypond @noindent In this case, setting @code{fingeringOrientations} will put fingerings next to note heads: @lilypond[verbatim,raggedright,fragment,relative=1] \set fingeringOrientations = #'(left down) 4 \set fingeringOrientations = #'(up right down) 4 @end lilypond By using single note chords, fingering instructions can be put close to note heads in monophonic music. @seealso Internals: @internalsref{FingerEvent}, and @internalsref{Fingering}. Examples: @inputfileref{input/regression,finger-chords.ly}. @node Text scripts @subsection Text scripts @cindex Text scripts @cindex text items, non-empty @cindex non-empty texts It is possible to place arbitrary strings of text or markup text (see @ref{Text markup}) above or below notes by using a string: @code{c^"text"}. By default, these indications do not influence the note spacing, but by using the command @code{\fatText}, the widths will be taken into account: @c @lilypond[fragment,raggedright,verbatim] \relative c' { c4^"longtext" \fatText c4_"longlongtext" c4 } @end lilypond It is possible to use @TeX{} commands in the strings, but this should be avoided because the exact dimensions of the string can then no longer be computed. @refcommands @cindex @code{\fatText} @code{\fatText}, @cindex @code{\emptyText} @code{\emptyText}. @seealso In this manual: @ref{Text markup}. Internals: @internalsref{TextScriptEvent}, @internalsref{TextScript}. @node Grace notes @subsection Grace notes @c should have blurb about accaciatura / appogiatura @cindex @code{\grace} @cindex ornaments @cindex grace notes 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, is and 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: @cindex appoggiatura @cindex acciaccatura @lilypond[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[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' time. 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[raggedright] << \relative c''{ c4 \grace c16 c4 \grace { c16[ d16] } c2 c4 } \new Lyrics \lyrics { \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 graces notes for every eighth grace note: @lilypond[relative=2,verbatim,fragment] << \new Staff { e4 \grace { c16[ d e f] } e4 } \new Staff { c'4 \grace { g8[ b] } c4 } >> @end lilypond If you want to end a note with a grace, then the standard trick is to put the grace notes after a ``space note'', e.g. @lilypond[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[fragment,verbatim,relative=1] \new Voice { \acciaccatura { \override Stem #'direction = #-1 f16-> \revert Stem #'direction } g4 } @end lilypond @noindent The overrides should also be reverted inside the grace section. If the layout of grace sections must be changed throughout the music, then this can be accomplished through the function @code{add-grace-property}. The following example undefines the Stem direction grace section, 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{startAccacciaturaMusic}, @code{stopAccacciaturaMusic}, @code{startAppoggiaturaMusic}, @code{stopAppoggiaturaMusic}. More information is in the file @file{ly/grace-init.ly}. @seealso Internals: @internalsref{GraceMusic}. @refbugs A score that starts with an @code{\grace} section needs an explicit @code{\context Voice} declaration, otherwise the main note and 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[relative=2,verbatim,fragment] << \new Staff { e4 \bar "|:" \grace c16 d4 } \new Staff { c4 \bar "|:" d4 } >> @end lilypond 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 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. @syntax A glissando line can be requested by attaching a @code{\glissando} to a note: @lilypond[fragment,relative,verbatim] c'\glissando c' @end lilypond @seealso Internals: @internalsref{Glissando}, and @internalsref{GlissandoEvent}. @refbugs Adding additional texts (such as @emph{gliss.}) is not supported. @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[verbatim,raggedright,fragment,relative] c'\ppp c\pp c \p c\mp c\mf c\f c\ff c\fff c2\sf c\rfz @end lilypond @cindex @code{\cr} @cindex @code{\rc} @cindex @code{\decr} @cindex @code{\rced} @cindex @code{\<} @cindex @code{\>} @cindex @code{\"!} A crescendo mark is started with @code{\<} and terminated with @code{\!}. A decrescendo is started with @code{\>} and also terminated with @code{\!}. Because these marks are bound to notes, if you must use spacer notes if multiple marks during one note are needed: @lilypond[fragment,verbatim] c''\< c''\! d''\decr e''\rced << f''1 { 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 You can also use a text saying @emph{cresc.} instead of hairpins. Here is an example how to do it: @lilypond[fragment,relative=2,verbatim] c4 \cresc c4 c c c \endcresc c4 @end lilypond @cindex crescendo @cindex decrescendo You can also supply your own texts: @lilypond[fragment,relative,verbatim] \context Voice { \set crescendoText = \markup { \italic "cresc. poco" } \set crescendoSpanner = #'dashed-line a'2\< a a a\!\mf } @end lilypond @cindex diminuendo @refcommands @cindex @code{\dynamicUp} @code{\dynamicUp}, @cindex @code{\dynamicDown} @code{\dynamicDown}, @cindex @code{\dynamicBoth} @code{\dynamicBoth}. @cindex direction, of dynamics @seealso Internals: @internalsref{CrescendoEvent}, @internalsref{DecrescendoEvent}, and @internalsref{AbsoluteDynamicEvent}. Dynamics are objects of @internalsref{DynamicText} and @internalsref{Hairpin}. Vertical positioning of these symbols is handled by the @internalsref{DynamicLineSpanner} object. If you want to adjust padding or vertical direction of the dynamics, you must set properties for the @internalsref{DynamicLineSpanner} object. @node Repeats @section Repeats @cindex repeats @cindex @code{\repeat} Repetition is a central concept in music, and multiple notations exist for repetitions. In LilyPond, most of these notations can be captured in a uniform syntax. One of the advantages is that they can be rendered in MIDI accurately. The following types of repetition are supported: @table @code @item unfold Repeated music is fully written (played) out. Useful for MIDI output, and entering repetitive music. @item volta This is the normal notation: Repeats are not written out, but alternative endings (volte) are printed, left to right. @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 @c tremolo, beamed @item tremolo Make tremolo beams. @item percent Make beat or measure repeats. These look like percent signs. @end table @menu * Repeat syntax:: * Repeats and MIDI:: * Manual repeat commands:: * Tremolo repeats:: * Tremolo subdivisions:: * Measure repeats:: @end menu @node Repeat syntax @subsection Repeat syntax @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 @code{@{} @var{alternative1} @var{alternative2} @var{alternative3} @dots{} @code{@}} @end example where each @var{alternative} is a music expression. If you do not give enough alternatives for all of the repeats, then the first alternative is assumed to be played more than once. Normal notation repeats are used like this: @lilypond[fragment,verbatim,relative=1] c1 \repeat volta 2 { c4 d e f } \repeat volta 2 { f e d c } @end lilypond With alternative endings: @lilypond[fragment,verbatim,relative=1] c1 \repeat volta 2 {c4 d e f} \alternative { {d2 d} {f f,} } @end lilypond @lilypond[fragment,verbatim,relative=1] \context Staff { \partial 4 \repeat volta 4 { e | c2 d2 | e2 f2 | } \alternative { { g4 g g } { a | a a a a | b2. } } } @end lilypond @refbugs If you do a nested repeat like @example \repeat @dots{} \repeat @dots{} \alternative @end example @noindent then it is ambiguous 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. @cindex ambiguity @node Repeats and MIDI @subsection Repeats and MIDI @cindex expanding repeats For instructions on how to unfold repeats for MIDI output, see the example file @inputfileref{input/test,unfold-all-repeats.ly}. @refbugs 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 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, where each repeat command can be @table @asis @item the symbol @code{start-repeat}, which prints a @code{|:} bar line, @item the symbol @code{end-repeat}, which prints a @code{:|} bar line, @item the list @code{(volta @var{text})}, which prints 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. Or, @item the list @code{(volta #f)}, which stops a running volta bracket: @end table @lilypond[verbatim,fragment,relative=2] c4 \set Score.repeatCommands = #'((volta "93") end-repeat) c4 c4 \set Score.repeatCommands = #'((volta #f)) c4 c4 @end lilypond @seealso Internals: @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[verbatim,raggedright] \score { \context Voice \notes\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[verbatim,raggedright] \repeat "tremolo" 4 c16 @end lilypond A similar mechanism is the tremolo subdivision, described in @ref{Tremolo subdivisions}. @seealso In this manual: @ref{Tremolo subdivisions}, @ref{Repeats}. Internals: tremolo beams are @internalsref{Beam} objects. Single stem tremolos are @internalsref{StemTremolo} objects. The music expression is @internalsref{TremoloEvent}. 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{length}]' after the note. The length must be at least 8. A @var{length} value of 8 gives one line across the note stem. If the length is omitted, then then the last value (stored in @code{tremoloFlags}) is used: @lilypond[verbatim,fragment] c'2:8 c':32 | c': c': | @end lilypond @c [TODO : stok is te kort bij 32en] @refbugs Tremolos in this style do not carry over into the MIDI output. @seealso In this manual: @ref{Tremolo repeats}. Elsewhere: @internalsref{StemTremolo}, @internalsref{TremoloEvent}. @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 a one and two measures are replaced by percent-like signs, patterns that divide the measure length are replaced by slashes: @lilypond[verbatim,raggedright] \context Voice { \repeat "percent" 4 { c'4 } \repeat "percent" 2 { c'2 es'2 f'4 fis'4 g'4 c''4 } } @end lilypond @seealso Internals: @internalsref{RepeatSlash}, @internalsref{PercentRepeat}, @internalsref{PercentRepeatedMusic}, and @internalsref{DoublePercentRepeat}. @node Rhythmic music @section Rhythmic music @menu * Showing melody rhythms:: * Entering percussion:: * Percussion staves:: @end menu @node Showing melody rhythms @subsection Showing melody rhythms Sometimes you might want to show only the rhythm of a melody. This can be done with the rhythmic staff. All pitches of notes on such a staff are squashed, and the staff itself has a single line: @lilypond[fragment,relative,verbatim] \context RhythmicStaff { \time 4/4 c4 e8 f g2 | r4 g r2 | g1:32 | r1 | } @end lilypond @seealso Internals: @internalsref{RhythmicStaff}. Examples: @inputfileref{input/regression,rhythmic-staff.ly}. @node Entering percussion @subsection Entering percussion @cindex percussion @cindex drums @syntax Percussion notes may be entered in @code{\drums} mode, which is similar to @code{notes}. Each piece of percussion has a full name and an abbreviated name, and both be used in input files: @lilypond[raggedright] \drums { hihat4 hh4 } @end lilypond The complete list of drum names is in the init file @file{ly/drumpitch-init.ly}. @c TODO: properly document this. @seealso Internals: @internalsref{DrumNoteEvent}. @node Percussion staves @subsection Percussion staves @cindex percussion @cindex drums A percussion part for more than one instrument typically uses a multiline staff where each position in the staff refers to one piece of percussion. To typeset the music, the notes must be interpreted in a @internalsref{DrumStaff} and @internalsref{DrumVoice} contexts: @c @lilypond[raggedright,verbatim] up = \drums { crashcymbal4 hihat8 halfopenhihat hh hh hh openhihat } down = \drums { bassdrum4 snare8 bd r bd sn4 } \score { \new DrumStaff << \new DrumVoice { \voiceOne \up } \new DrumVoice { \voiceTwo \down } >> } @end lilypond The above example shows verbose polyphonic notation. The short polyphonic notation, described in @ref{Polyphony}, can also be used if the @internalsref{DrumVoices} are instantiated by hand first. For example, @lilypond[fragment] \drums \new DrumStaff << \context DrumVoice = "1" { s1 *2 } \context DrumVoice = "2" { s1 *2 } { bd4 sn4 bd4 sn4 << { \repeat unfold 16 hh16 } \\ { bd4 sn4 bd4 sn4 } >> } >> @end lilypond There are also other layout possibilities. To use these, set the property @code{drumStyleTable} in context @internalsref{DrumVoice}. The following variables have been predefined: @table @code @item drums-style is the default. It typesets a typical drum kit on a five-line staff @lilypond[noindent] nam = \lyrics { cymc cyms cymr hh hhc hho hhho hhp cb hc bd sn ss tomh tommh tomml toml tomfh tomfl } mus = \drums { cymc cyms cymr hh | hhc hho hhho hhp | \break cb hc bd sn ss tomh tommh tomml toml tomfh tomfl s16 } \score { << \new DrumStaff\with { \remove Bar_engraver \remove Time_signature_engraver \override Stem #'transparent = ##t \override Stem #'Y-extent-callback = ##f minimumVerticalExtent = #'(-4.0 . 5.0) } \mus \context Lyrics \nam >> \paper { %% need to do this, because of indented @itemize linewidth= 9 \cm \translator { \ScoreContext \override BarNumber #'transparent =##T }}} @end lilypond The drum scheme supports six different toms. When there fewer toms, simply select the toms that produce the desired result, i.e. to get toms on the three middle lines you use @code{tommh}, @code{tomml} and @code{tomfh}. @item timbales-style to typeset timbales on a two line staff: @lilypond[raggedright] nam = \lyrics { timh ssh timl ssl cb } mus = \drums { timh ssh timl ssl cb s16 } \score { << \context DrumStaff \with { \remove Bar_engraver \remove Time_signature_engraver \override Stem #'transparent = ##t \override Stem #'Y-extent-callback = ##f \override StaffSymbol #'line-count = #2 \override StaffSymbol #'staff-space = #2 minimumVerticalExtent = #'(-3.0 . 4.0) drumStyleTable = #timbales-style } \mus \context Lyrics \nam >> } @end lilypond @item congas-style to typeset congas on a two line staff: @lilypond[raggedright] nam = \lyrics { cgh cgho cghm ssh cgl cglo cglm ssl } mus = \drums { cgh cgho cghm ssh cgl cglo cglm ssl s16 } \score { << \context DrumStaff\with { \remove Bar_engraver \remove Time_signature_engraver drumStyleTable = #congas-style \override StaffSymbol #'line-count = #2 %% this sucks; it will lengthen stems. \override StaffSymbol #'staff-space = #2 \override Stem #'transparent = ##t \override Stem #'Y-extent-callback = ##f } \mus \context Lyrics \nam >> } @end lilypond @item bongos-style to typeset bongos on a two line staff: @lilypond[raggedright] nam = \lyrics { boh boho bohm ssh bol bolo bolm ssl } mus = \drums { boh boho bohm ssh bol bolo bolm ssl s16 } \score { << \context DrumStaff\with { \remove Bar_engraver \remove Time_signature_engraver \override StaffSymbol #'line-count = #2 drumStyleTable = #bongos-style %% this sucks; it will lengthen stems. \override StaffSymbol #'staff-space = #2 \override Stem #'transparent = ##t \override Stem #'Y-extent-callback = ##f } \mus \context Lyrics \nam >> } @end lilypond @item percussion-style to typeset all kinds of simple percussion on one line staves: @lilypond[raggedright] nam = \lyrics { tri trio trim gui guis guil cb cl tamb cab mar hc } mus = \drums { tri trio trim gui guis guil cb cl tamb cab mar hc s16 } \score { << \context DrumStaff\with{ \remove Bar_engraver drumStyleTable = #percussion-style \override StaffSymbol #'line-count = #1 \remove Time_signature_engraver \override Stem #'transparent = ##t \override Stem #'Y-extent-callback = ##f } \mus \context Lyrics \nam >> } @end lilypond @end table If you do not like any of the predefined lists you can define your own list at the top of your file: @lilypond[raggedright,verbatim] #(define mydrums '( (bassdrum default #f -1) (snare default #f 0) (hihat cross #f 1) (pedalhihat xcircle "stopped" 2) (lowtom diamond #f 3) )) up = \drums { hh8 hh hh hh hhp4 hhp } down = \drums { bd4 sn bd toml8 toml } \score { \new DrumStaff << \set DrumStaff.drumStyleTable = #(alist->hash-table mydrums) \new DrumVoice { \voiceOne \up } \new DrumVoice { \voiceTwo \down } >> } @end lilypond @seealso Init files: @file{ly/drumpitch-init.ly}. Internals: @internalsref{DrumStaff}, @internalsref{DrumVoice}. @refbugs Short polyphonic notation, @code{<< @dots{} \\ @dots{} >>}, does not work for @internalsref{DrumVoices}. Because general MIDI does not contain rim shots, the sidestick is used for this purpose instead. @node Piano music @section Piano music Piano staves are two normal staves coupled with a brace. The staves are largely independent, but sometimes voices can cross between the two staves. The same notation is also used for harps and other key instruments. The @internalsref{PianoStaff} is especially built to handle this cross-staffing behavior. In this section we discuss the @internalsref{PianoStaff} and some other pianistic peculiarities. @menu * Automatic staff changes:: * Manual staff switches:: * Pedals:: * Arpeggio:: * Staff switch lines:: @end menu @refbugs There is no support for putting chords across staves. You can get this result by increasing the length of the stem in the lower stave so it reaches the stem in the upper stave, or vice versa. An example is included with the distribution as @inputfileref{input/test,stem-cross-staff.ly}. Dynamics are not centered, but kludges do exist. See @inputfileref{input/template,piano-dynamics.ly}. @cindex cross staff stem @cindex stem, cross staff The distance between the two staves is normally fixed across the entire score. It is possible to tune this per system, but it does require arcane command incantations. See @inputfileref{input/test,piano-staff-distance.ly}. @node Automatic staff changes @subsection Automatic staff changes @cindex Automatic staff changes Voices can switch automatically between the top and the bottom staff. The syntax for this is @example \autochange \context Voice @{ @dots{}@var{music}@dots{} @} @end example The two staffs of the piano staff must be named @code{up} and @code{down}. The autochanger switches on basis of pitch (middle C is the turning point), and it looks ahead skipping over rests to switch in advance. Here is a practical example: @lilypond[verbatim,raggedright] \score { \notes \context PianoStaff << \context Staff = "up" { \autochange \new Voice \relative c' { g4 a b c d r4 a g } } \context Staff = "down" { \clef bass s1*2 } >> } @end lilypond @noindent In this example, spacer rests are used to prevent the bottom staff from terminating too soon. @seealso In this manual: @ref{Manual staff switches}. Internals: @internalsref{AutoChangeMusic}. @refbugs The staff switches often do not end up in optimal places. For high quality output, staff switches should be specified manually. @node Manual staff switches @subsection Manual staff switches @cindex manual staff switches @cindex staff switch, manual Voices can be switched between staves manually, using the following command: @example \change Staff = @var{staffname} @var{music} @end example @noindent The string @var{staffname} is the name of the staff. It switches the current voice from its current staff to the Staff called @var{staffname}. Typically @var{staffname} is @code{"up"} or @code{"down"}. @node Pedals @subsection Pedals @cindex Pedals Pianos have pedals that alter the way sound are produced. Generally, a piano has three pedals, sustain, una corda, and sostenuto. @syntax Piano pedal instruction can be expressed by attaching @code{\sustainDown}, @code{\sustainUp}, @code{\unaCorda}, @code{\treCorde}, @code{\sostenutoDown} and @code{\sostenutoUp} to a note or chord: @lilypond[fragment,verbatim] c'4\sustainDown c'4\sustainUp @end lilypond What is printed can be modified by setting @code{pedal@var{X}Strings}, where @var{X} is one of the pedal types: @code{Sustain}, @code{Sostenuto} or @code{UnaCorda}. Refer to the generated documentation of @internalsref{SustainPedal} for more information. Pedals can also be indicated by a sequence of brackets, by setting the @code{pedalSustainStyle} property to @code{bracket} objects: @lilypond[fragment,verbatim] \set Staff.pedalSustainStyle = #'bracket c''4\sustainDown d''4 e''4 a'4\sustainUp\sustainDown f'4 g'4 a'4\sustainUp @end lilypond A third style of pedal notation is a mixture of text and brackets, obtained by setting the @code{pedalSustainStyle} style property to @code{mixed}: @lilypond[fragment,verbatim] \set Staff.pedalSustainStyle = #'mixed c''4\sustainDown d''4 e''4 c'4\sustainUp\sustainDown f'4 g'4 a'4\sustainUp @end lilypond The default `*Ped.' style for sustain and damper pedals corresponds to style @code{#'text}. The sostenuto pedal uses @code{mixed} style by default. @lilypond[fragment,verbatim] c''4\sostenutoDown d''4 e''4 c'4 f'4 g'4 a'4\sostenutoUp @end lilypond For fine-tuning of the appearance of a pedal bracket, the properties @code{edge-width}, @code{edge-height}, and @code{shorten-pair} of @code{PianoPedalBracket} objects (see @internalsref{PianoPedalBracket} in the Program reference) can be modified. For example, the bracket may be extended to the end of the note head: @lilypond[fragment,verbatim] \override Staff.PianoPedalBracket #'shorten-pair = #'(0 . -1.0) c''4\sostenutoDown d''4 e''4 c'4 f'4 g'4 a'4\sostenutoUp @end lilypond @node Arpeggio @subsection Arpeggio @cindex Arpeggio @cindex broken arpeggio @cindex @code{\arpeggio} You can specify an arpeggio sign on a chord by attaching an @code{\arpeggio} to a chord: @lilypond[fragment,relative,verbatim] \arpeggio @end lilypond When an arpeggio crosses staves, you attach an arpeggio to the chords in both staves, and set @internalsref{PianoStaff}.@code{connectArpeggios}: @lilypond[fragment,relative,verbatim] \context PianoStaff << \set PianoStaff.connectArpeggios = ##t \new Staff { \arpeggio } \new Staff { \clef bass \arpeggio } >> @end lilypond The direction of the arpeggio is sometimes denoted by adding an arrowhead to the wiggly line: @lilypond[fragment,relative,verbatim] \context Voice { \arpeggioUp \arpeggio \arpeggioDown \arpeggio } @end lilypond A square bracket on the left indicates that the player should not arpeggiate the chord: @lilypond[fragment,relative,verbatim] \arpeggioBracket \arpeggio @end lilypond @refcommands @cindex @code{\arpeggio} @code{\arpeggio}, @cindex @code{\arpeggioUp} @code{\arpeggioUp}, @cindex @code{\arpeggioDown} @code{\arpeggioUp}, @cindex @code{\arpeggioBoth} @code{\arpeggioBoth}, @cindex @code{\arpeggioBracket} @code{\arpeggioBracket}. @seealso Internals: @internalsref{ArpeggioEvent} music expressions lead to @internalsref{Arpeggio} objects. Cross staff arpeggios are @internalsref{PianoStaff}.@internalsref{Arpeggio}. @refbugs It is not possible to mix connected arpeggios and unconnected arpeggios in one @internalsref{PianoStaff} at the same time. @node Staff switch lines @subsection Staff switch lines @cindex follow voice @cindex staff switching @cindex cross staff @cindex @code{followVoice} Whenever a voice switches to another staff a line connecting the notes can be printed automatically. This is enabled if the property @code{PianoStaff.followVoice} is set to true: @lilypond[fragment,relative,verbatim] \context PianoStaff << \set PianoStaff.followVoice = ##t \context Staff \context Voice { c1 \change Staff=two b2 a } \context Staff=two { \clef bass \skip 1*2 } >> @end lilypond The associated object is @internalsref{VoiceFollower}. @refcommands @cindex @code{\showStaffSwitch} @code{\showStaffSwitch}, @cindex @code{\hideStaffSwitch} @code{\hideStaffSwitch}. @node Vocal music @section Vocal music This section discusses how to enter and print lyrics. @menu * Entering lyrics:: * The Lyrics context:: * More stanzas:: * Ambitus:: @end menu @node Entering lyrics @subsection Entering lyrics @cindex lyrics @cindex @code{\lyrics} @cindex punctuation Lyrics are entered in a special input mode. This mode is is introduced by the keyword @code{\lyrics}. In this mode you can enter lyrics, with punctuation and accents without any hassle. Syllables are entered like notes, but with pitches replaced by text. For example, @example \lyrics @{ Twin-4 kle4 twin- kle litt- le star2 @} @end example A word in Lyrics mode begins with: an alphabetic character, @code{_}, @code{?}, @code{!}, @code{:}, @code{'}, the control characters @code{^A} through @code{^F}, @code{^Q} through @code{^W}, @code{^Y}, @code{^^}, any 8-bit character with ASCII code over 127, or a two-character combination of a backslash followed by one of @code{`}, @code{'}, @code{"}, or @code{^}. Subsequent characters of a word can be any character that is not a digit and not white space. One important consequence of this is that a word can end with @code{@}}. The following example is usually a bug. The syllable includes a @code{@}}, and hence the opening brace is not balanced: @example \lyrics @{ twinkle@} @end example @cindex @code{\property}, in @code{\lyrics} Similarly, a period following a alphabetic sequence, is included in the resulting string. As a consequence, spaces must be inserted around property commands: @example \override Score . LyricText #'font-shape = #'italic @end example @cindex @code{_} @cindex spaces, in lyrics @cindex quotes, in lyrics Any @code{_} character which appears in an unquoted word is converted to a space. This provides a mechanism for introducing spaces into words without using quotes. Quoted words can also be used in Lyrics mode to specify words that cannot be written with the above rules: @example \lyrics @{ He said: "\"Let" my peo ple "go\"" @} @end example @cindex hyphens Hyphens can be entered as ordinary hyphens at the end of a syllable, i.e. @example soft- ware @end example These will be attached to the end of the first syllable. Centered hyphens are entered using the special `@code{-}@code{-}' lyric as a separate word between syllables. The hyphen will have variable length depending on the space between the syllables and it will be centered between the syllables. @cindex melisma @cindex extender When a lyric is sung over many notes (this is called a melisma), this is indicated with a horizontal line centered between a syllable and the next one. Such a line is called an extender line, and it is entered as @code{__}. @seealso Internals: @internalsref{LyricEvent}, @internalsref{HyphenEvent}, and @internalsref{ExtenderEvent}. Examples: @inputfileref{input/test,lyric-hyphen-retain.ly}. @refbugs The definition of lyrics mode is too complex. @node The Lyrics context @subsection The Lyrics context Lyrics are printed by interpreting them in a @internalsref{Lyrics} context: @example \context Lyrics \lyrics @dots{} @end example @cindex automatic syllable durations @cindex @code{\lyricsto} @cindex lyrics and melodies This will place the lyrics according to the durations that were entered. The lyrics can also be aligned under a given melody automatically. In this case, it is no longer necessary to enter the correct duration for each syllable. This is achieved by combining the melody and the lyrics with the @code{\lyricsto} expression: @example \lyricsto @var{name} \new Lyrics @dots{} @end example This aligns the lyrics to the @c notes of the @internalsref{Voice} context called @var{name}, which has to exist. Therefore, normally the @code{Voice} is specified first, and then the lyrics are specified with @code{\lyricsto}. For different or more complex orderings, the best way is to setup the hierarchy of staves and lyrics first, e.g. @example \context ChoirStaff \notes << \context Lyrics = sopranoLyrics @{ s1 @} \context Voice = soprano @{ @emph{music} @} \context Lyrics = tenorLyrics @{ s1 @} \context Voice = tenor @{ @emph{music} @} >> @end example and then combine the appropriate melodies and lyric lines: @example \lyricsto "soprano" \new Lyrics @emph{the lyrics} @end example @noindent The final input would resemble @example << \context ChoirStaff \notes << @emph{setup the music} >> \lyricsto "soprano" @emph{etc} \lyricsto "alto" @emph{etc} @emph{etc} >> @end example The @code{\lyricsto} command detects melismata: it only puts one syllable under a tied or slurred group of notes. If you want to force an unslurred group of notes to be a melisma, then insert @code{\melisma} after the first note of the group, and @code{\melismaEnd} after the last one, e.g. @lilypond[relative=1,raggedright,fragment,verbatim] << \context Voice = "lala" { \time 3/4 f4 g8 \melisma f e f \melismaEnd e2 } \lyricsto "lala" \new Lyrics \lyrics { la di __ daah } >> @end lilypond In addition, notes are considered a melisma if they are manually beamed, and automatic beaming (see @ref{Setting automatic beam behavior}) is switched off. The criteria for deciding melismata can be tuned with the property @code{melismaBusyProperties}. See @internalsref{Melisma_translator} for more information. When multiple stanzas are put on the same melody, it can happen that two stanzas have melismata in different locations. This can be remedied by switching off melismata for one @internalsref{Lyrics}. This is achieved by setting the @code{ignoreMelismata} property to @code{#t}. An example is shown in @inputfileref{input/regression,lyric-combine-new.ly}. @cindex SATB @cindex choral score A complete example of a SATB score setup is in the file @inputfileref{input/template,satb.ly}. @refcommands @code{\melisma}, @code{\melismaEnd} @cindex @code{\melismaEnd} @cindex @code{\melisma} @seealso Internals: Music expressions: @internalsref{LyricCombineMusic}, Contexts: @internalsref{Lyrics}, @internalsref{Melisma_translator}. Examples: @inputfileref{input/template,satb.ly}, @inputfileref{input/regression,lyric-combine-new.ly}. @refbugs Melismata are not detected automatically, and extender lines must be inserted by hand. For proper processing of extender lines, the @internalsref{Lyrics} and @internalsref{Voice} should be linked. This can be achieved either by using @code{\lyricsto} or by setting corresponding names for both contexts. The latter is explained in @ref{More stanzas}. @node More stanzas @subsection More stanzas @cindex phrasing, in lyrics The lyrics should be aligned with the note heads of the melody. To achieve this, each line of lyrics should be marked to correspond with the melodic line. This is done automatically when @code{\lyricsto}, but it can also be done manually. To this end, give the @internalsref{Voice} context an identity: @example \context Voice = duet @{ \time 3/4 g2 e4 a2 f4 g2. @} @end example Then set the @internalsref{Lyrics} contexts to names starting with that identity followed by a dash. In the preceding example, the @internalsref{Voice} identity is @code{duet}, so the identities of the @internalsref{Lyrics}s are marked @code{duet-1} and @code{duet-2}: @example \context Lyrics = "duet-1" @{ Hi, my name is bert. @} \context Lyrics = "duet-2" @{ Ooooo, ch\'e -- ri, je t'aime. @} @end example The complete example is shown here: @lilypond[raggedright,verbatim] \score { << \notes \relative c'' \context Voice = duet { \time 3/4 g2 e4 a2 f4 g2. } \lyrics << \lyricsto "duet" \new Lyrics { \set stanza = "B." \set vocNam = "Bert" Hi, my name is bert. } \lyricsto "duet" \new Lyrics { \set stanza = "E." \set vocNam = "Ernie" Ooooo, ch\'e -- ri, je t'aime. } >> >> } @end lilypond @cindex stanza number @cindex singer's names @cindex name of singer Stanza numbers can be added by setting @code{stanza}, e.g. @example \set stanza = "B." @dots{} \set stanza = "E." @end example Notice how dots are surrounded with spaces in @code{\lyrics} mode, to prevent @code{stanza} being interpreted as a single string. This example also demonstrates how names of the singers can be added using @code{vocalName} analogous to instrument annotations for staves. A short version may be entered as @code{vocNam}. To make empty spaces in lyrics, use @code{\skip}. @seealso Internals: Layout objects @internalsref{LyricText} and @internalsref{VocalName}. Music expressions: @internalsref{LyricEvent}. @refbugs @cindex ambiguity Input for lyrics introduces a syntactical ambiguity: @example foo = bar @end example @noindent is interpreted as assigning a string identifier @code{\foo} such that it contains @code{"bar"}. However, it could also be interpreted as making or a music identifier @code{\foo} containing the syllable `bar'. The force the latter interpretation, use @example foo = \lyrics bar4 @end example @node Ambitus @subsection Ambitus @cindex ambitus The term @emph{ambitus} (plural: ambituses) denotes a range of pitches for a given voice in a part of music. It also may denote the pitch range that a musical instrument is capable of playing. Most musical instruments have their ambitus standardized (or at least there is agreement upon the minimal ambitus of a particular type of instrument), such that a composer or arranger of a piece of music can easily meet the ambitus constraints of the targeted instrument. However, the ambitus of the human voice depends on individual physiological state, including education and training of the voice. Therefore, a singer potentially has to check for each piece of music if the ambitus of that piece meets his individual capabilities. This is why the ambitus of a piece may be of particular value to vocal performers. The ambitus is typically notated on a per-voice basis at the very beginning of a piece, e.g. nearby the initial clef or time signature of each staff. The range is graphically specified by two note heads, that represent the minimum and maximum pitch. Some publishers use a textual notation: they put the range in words in front of the corresponding staff. LilyPond only supports the graphical ambitus notation. To apply, add the @internalsref{Ambitus_engraver} to the @internalsref{Voice} context, i.e. @example \paper @{ \translator @{ \VoiceContext \consists Ambitus_engraver @} @} @end example This results in the following output: @lilypond[raggedright] upper = \notes \relative c { \clef "treble" \key c \minor as'' c e2 bes f cis d4 e f2 g } lower = \notes \relative c { \clef "treble" \key e \major e'4 b g a c es fis a cis b a g f e d2 } \score { \context ChoirStaff { << \new Staff { \upper } \new Staff { \lower } >> } \paper { \translator { \StaffContext \consists Ambitus_engraver } } } @end lilypond If you have multiple voices in a single staff, and you want a single ambitus per staff rather than per each voice, then add the @internalsref{Ambitus_engraver} to the @internalsref{Staff} context rather than to the @internalsref{Voice} context. It is possible to tune individual ambituses for multiple voices on a single staff, for example by erasing or shifting them horizontally. An example is in @inputfileref{input/test,ambitus-mixed.ly}. @seealso Internals: @internalsref{Ambitus}. Examples: @inputfileref{input/regression,ambitus.ly}, @inputfileref{input/test,ambitus-mixed.ly}. @refbugs There is no collision handling in the case of multiple per-voice ambitus. @node Tablatures @section Tablatures Tablature notation is used for notating music for plucked string instruments. It notates pitches not by using note heads, but by indicating on which string and fret a note must be played. LilyPond offers limited support for tablature. @menu * Tablatures basic:: * Non-guitar tablatures:: @end menu @node Tablatures basic @subsection Tablatures basic @cindex Tablatures basic The string number associated to a note is given as a backslash followed by a number, e.g. @code{c4\3} for a C quarter on the third string. By default, string 1 is the highest one, and the tuning defaults to the standard guitar tuning (with 6 strings). The notes are printed as tablature, by using @internalsref{TabStaff} and @internalsref{TabVoice} contexts: @lilypond[fragment,verbatim] \notes \context TabStaff { a,4\5 c'\2 a\3 e'\1 e\4 c'\2 a\3 e'\1 } @end lilypond @cindex minimumFret When no string is specified, the first string that does not give a fret number less than @code{minimumFret} is selected. The default value for @code{minimumFret} is 0: @example e8 fis gis a b cis' dis' e' \set TabStaff.minimumFret = #8 e8 fis gis a b cis' dis' e' @end example @lilypond[noindent] frag = \notes { \key e \major e8 fis gis a b cis' dis' e' \set TabStaff.minimumFret = #8 e8 fis gis a b cis' dis' e' } \score { \context StaffGroup << \context Staff { \clef "G_8" \frag } \context TabStaff { \frag } >> } @end lilypond @seealso Internals: @internalsref{TabStaff}, @internalsref{TabVoice}, and @internalsref{StringNumberEvent}. @refbugs Chords are not handled in a special way, and hence the automatic string selector may easily select the same string to two notes in a chord. @node Non-guitar tablatures @subsection Non-guitar tablatures @cindex Non-guitar tablatures You can change the number of strings, by setting the number of lines in the @internalsref{TabStaff}. You can change the tuning of the strings. A string tuning is given as a Scheme list with one integer number for each string, the number being the pitch (measured in semitones relative to middle C) of an open string. The numbers specified for @code{stringTuning} are the numbers of semitones to subtract or add, starting the specified pitch by default middle C, in string order. Thus, the notes are e, a, d, and g: @lilypond[fragment,verbatim] \context TabStaff << \set TabStaff.stringTunings = #'(-5 -10 -15 -20) \notes { a,4 c' a e' e c' a e' } >> @end lilypond It is possible to change the Scheme function to format the tablature note text. The default is @code{fret-number-tablature-format}, which uses the fret number. For instruments that do not use this notation, you can create a special tablature formatting function. This function takes three argument: string number, string tuning and note pitch. @refbugs No guitar special effects have been implemented. @node Chord names @section Chord names @cindex Chords LilyPond has support for both printing chord names. Chords may be entered in musical chord notation, i.e. @code{< .. >}, but they can also be entered by name. Internally, the chords are represented as a set of pitches, so they can be transposed: @lilypond[verbatim,raggedright] twoWays = \notes \transpose c c' { \chords { c1 f:sus4 bes/f } } \score { << \context ChordNames \twoWays \context Voice \twoWays >> } @end lilypond This example also shows that the chord printing routines do not try to be intelligent. The last chord (@code{f bes d}) is not interpreted as an inversion. @menu * Chords mode:: * Printing chord names:: @end menu @node Chords mode @subsection Chords mode @cindex Chords mode Chord mode is a mode where you can input sets of pitches using common names. It is introduced by the keyword @code{\chords}. In chords mode, a chord is entered by the root, which is entered like a common pitch: @lilypond[fragment,verbatim,relative=1] \chords { es4. d8 c2 } @end lilypond @cindex chord entry @cindex chord mode Other chords may be entered by suffixing a colon, and introducing a modifier, and optionally, a number: @c @lilypond[fragment,verbatim] \chords { e1:m e1:7 e1:m7 } @end lilypond The first number following the root is taken to be the `type' of the chord, thirds are added to the root until it reaches the specified number: @lilypond[fragment,verbatim] \chords { c:3 c:5 c:6 c:7 c:8 c:9 c:10 c:11 } @end lilypond @cindex root of chord @cindex additions, in chords @cindex removals, in chords More complex chords may also be constructed adding separate steps to a chord. Additions are added after the number following the colon, and are separated by dots: @c @lilypond[verbatim,fragment] \chords { c:5.6 c:3.7.8 c:3.6.13 } @end lilypond Chord steps can be altered by suffixing a @code{-} or @code{+} sign to the number: @lilypond[verbatim,fragment] \chords { c:7+ c:5+.3- c:3-.5-.7- } @end lilypond Removals are specified similarly, and are introduced by a caret. They must come after the additions: @lilypond[verbatim,fragment] \chords { c^3 c:7^5 c:9^3.5 } @end lilypond Modifiers can be used to change pitches. The following modifiers are supported: @table @code @item m is the minor chord. This modifier lowers the 3rd and (if present) the 7th step. @item dim is the diminished chord. This modifier lowers the 3rd, 5th and (if present) the 7th step. @item aug is the augmented chord. This modifier raises the 5th step. @item maj is the major 7th chord. This modifier raises the 7th step if present. @item sus is the suspended 4th or 2nd. This modifier removes the 3rd step. Append either @code{2} or @code{4} to add the 2nd or 4th step to the chord. @end table Modifiers can be mixed with additions: @lilypond[verbatim,fragment] \chords { c:sus4 c:7sus4 c:dim7 c:m6 } @end lilypond @cindex modifiers, in chords. @cindex @code{aug} @cindex @code{dim} @cindex @code{maj} @cindex @code{sus} @cindex @code{m} Since an unaltered 11 does not sound good when combined with an unaltered 13, the 11 is removed in this case (unless it is added explicitly): @c @lilypond[fragment,verbatim] \chords { c:13 c:13.11 c:m13 } @end lilypond @cindex @code{/} An inversion (putting one pitch of the chord on the bottom), as well as bass notes, can be specified by appending @code{/}@var{pitch} to the chord: @lilypond[fragment,verbatim] \chords { c1 c/g c/f } @end lilypond @cindex @code{/+} A bass note can be added instead of transposed out of the chord, by using @code{/+}@var{pitch}. @lilypond[fragment,verbatim] \chords { c1 c/+g c/+f } @end lilypond Chords is a mode similar to @code{\lyrics}, @code{\notes} etc. Most of the commands continue to work, for example, @code{r} and @code{\skip} can be used to insert rests and spaces, and property commands may be used to change various settings. @refbugs Each step can only be present in a chord once. The following simply produces the augmented chord, since @code{5+} is interpreted last: @cindex clusters @lilypond[verbatim,fragment] \chords { c:5.5-.5+ } @end lilypond @node Printing chord names @subsection Printing chord names @cindex printing chord names @cindex chord names @cindex chords For displaying printed chord names, use the @internalsref{ChordNames} context. The chords may be entered either using the notation described above, or directly using @code{<} and @code{>}: @lilypond[verbatim,raggedright] scheme = \notes { \chords {a1 b c} } \score { \notes<< \context ChordNames \scheme \context Staff \scheme >> } @end lilypond You can make the chord changes stand out by setting @internalsref{ChordNames}.@code{chordChanges} to true. This will only display chord names when there is a change in the chords scheme and at the start of a new line: @lilypond[verbatim,linewidth=9\cm] scheme = \chords { c1:m c:m \break c:m c:m d } \score { \notes << \context ChordNames { \set chordChanges = ##t \scheme } \context Staff \transpose c c' \scheme >> } @end lilypond The default chord name layout is a system for Jazz music, proposed by Klaus Ignatzek (see @ref{Literature list}). It can be tuned through the following properties: @table @code @cindex chordNameExceptions @item chordNameExceptions This is a list that contains the chords that have special formatting. For an example, see @inputfileref{input/regression,chord-name-exceptions.ly}. @cindex exceptions, chord names. @cindex majorSevenSymbol @item majorSevenSymbol This property contains the markup object used for the 7th step, when it is major. Predefined options are @code{whiteTriangleMarkup} and @code{blackTriangleMarkup}. See @inputfileref{input/regression,chord-name-major7.ly} for an example. @cindex chordNameSeparator @item chordNameSeparator Different parts of a chord name are normally separated by a slash. By setting @code{chordNameSeparator}, you can specify other separators, e.g. @lilypond[fragment,verbatim] \context ChordNames \chords { c:7sus4 \set chordNameSeparator = \markup { \typewriter "|" } c:7sus4 } @end lilypond @cindex chordRootNamer @item chordRootNamer The root of a chord is usually printed as a letter with an optional alteration. The transformation from pitch to letter is done by this function. Special note names (for example, the German ``H'' for a B-chord) can be produced by storing a new function in this property. The predefined variables @code{\germanChords}, @code{\semiGermanChords} set these variables. @cindex chordNoteNamer @item chordNoteNamer The default is to print single pitch, e.g. the bass note, using the @code{chordRootNamer}. The @code{chordNoteNamer} property can be set to a specialized function to change this behavior. For example, the base can be printed in lower case. @end table There are also two other chord name schemes implemented: an alternate Jazz chord notation, and a systematic scheme called Banter chords. The alternate jazz notation is also shown on the chart in @ref{Chord name chart}. Turning on these styles is described in the input file @inputfileref{input/test,chord-names-jazz.ly}. @cindex Banter @cindex jazz chords @cindex chords, jazz @refcommands @cindex @code{\germanChords} @code{\germanChords}, @cindex @code{\semiGermanChords} @code{\semiGermanChords}. @seealso Examples: @inputfileref{input/regression,chord-name-major7.ly}, @inputfileref{input/regression,chord-name-exceptions.ly}, @inputfileref{input/test,chord-names-jazz.ly}, @inputfileref{input/test,chord-names-german.ly}. Init files: @file{scm/chords-ignatzek.scm}, and @file{scm/chord-entry.scm}. @refbugs Chord names are determined solely from the list of pitches. Chord inversions are not identified, and neither are added bass notes. This may result in strange chord names when chords are entered with the @code{< .. >} syntax. @node Orchestral music @section Orchestral music @cindex Writing parts Orchestral music involves some special notation, both in the full score and the individual parts. This section explains how to tackle some common problems in orchestral music. @menu * Multiple staff contexts:: * Rehearsal marks:: * Bar numbers:: * Instrument names:: * Transpose:: * Instrument transpositions:: * Multi measure rests:: * Automatic part combining:: * Hiding staves:: * Different editions from one source:: * Quoting other voices:: @end menu @node Multiple staff contexts @subsection Multiple staff contexts Polyphonic scores consist of many staves. These staves can be constructed in three different ways: @itemize @bullet @item The group is started with a brace at the left. This is done with the @internalsref{GrandStaff} context. @item The group is started with a bracket. This is done with the @internalsref{StaffGroup} context @item The group is started with a vertical line. This is the default for the score. @end itemize @cindex Staff, multiple @cindex bracket, vertical @cindex brace, vertical @cindex grand staff @cindex staff group @node Rehearsal marks @subsection Rehearsal marks @cindex Rehearsal marks @cindex mark @cindex @code{\mark} To print a rehearsal mark, use the @code{\mark} command: @lilypond[fragment,verbatim] \relative c'' { c1 \mark \default c1 \mark \default c1 \mark #8 c1 \mark \default c1 \mark \default } @end lilypond @noindent (The letter I is skipped in accordance with engraving traditions.) The mark is incremented automatically if you use @code{\mark \default}, but you can also use an integer argument to set the mark manually. The value to use is stored in the property @code{rehearsalMark}. The style is defined by the property @code{markFormatter}. It is a function taking the current mark (an integer) and the current context as argument. It should return a markup object. In the following example, @code{markFormatter} is set to a canned procedure. After a few measures, it is set to function that produces a boxed number. @lilypond[verbatim,fragment,relative=1] \set Score.markFormatter = #format-mark-numbers c1 \mark \default c1 \mark \default \set Score.markFormatter = #(lambda (mark context) (make-bold-markup (make-box-markup (number->string mark)))) c1 \mark \default c1 \mark \default @end lilypond The file @file{scm/translation-functions.scm} contains the definitions of @code{format-mark-numbers} (the default format) and @code{format-mark-letters}. They can be used as inspiration for other formatting functions. @cindex coda on bar line @cindex segno on bar line @cindex fermata on bar line @cindex bar lines, symbols on The @code{\mark} command can also be used to put signs like coda, segno and fermatas on a bar line. Use @code{\markup} to to access the appropriate symbol: @lilypond[fragment,verbatim,relative=1] c1 \mark \markup { \musicglyph #"scripts-ufermata" } c1 @end lilypond In this case, during line breaks, marks must also be printed at the end of the line, and not at the beginning. Use the following to force that behavior: @example \override Score.RehearsalMark #'break-visibility = #begin-of-line-invisible @end example @cindex fermatas @cindex coda @cindex segno @cindex bar lines, putting symbols on @seealso Internals: @internalsref{MarkEvent}, @internalsref{RehearsalMark}. Init files: @file{scm/translation-functions.scm} contains the definition of @code{format-mark-numbers} and @code{format-mark-letters}. They can be used as inspiration for other formatting functions. Examples: @inputfileref{input/regression,rehearsal-mark-letter.ly}, @inputfileref{input/regression,rehearsal-mark-number.ly}. @node Bar numbers @subsection Bar numbers @cindex bar numbers @cindex measure numbers @cindex currentBarNumber Bar numbers are printed by default at the start of the line. The number itself is stored in the @code{currentBarNumber} property, which is normally updated automatically for every measure. Bar numbers can be typeset at regular intervals instead of at the beginning of each line. This is illustrated in the following example, whose source is available as @inputfileref{input/test,bar-number-regular-interval.ly}: @lilypondfile[]{bar-number-regular-interval.ly} @seealso Internals: @internalsref{BarNumber}. Examples: @inputfileref{input/test,bar-number-every-five-reset.ly}, and @inputfileref{input/test,bar-number-regular-interval.ly}. @refbugs Bar numbers can collide with the @internalsref{StaffGroup} bracket, if there is one at the top. To solve this, the @code{padding} property of @internalsref{BarNumber} can be used to position the number correctly. @node Instrument names @subsection Instrument names In an orchestral score, instrument names are printed left side of the staves. This can be achieved by setting @internalsref{Staff}.@code{instrument} and @internalsref{Staff}.@code{instr}. This will print a string before the start of the staff. For the first start, @code{instrument} is used, for the next ones @code{instr} is used: @quotation @lilypond[verbatim,raggedright] \set Staff.instrument = "ploink " { c''4 } @end lilypond @end quotation You can also use markup texts to construct more complicated instrument names: @quotation @lilypond[fragment,verbatim,raggedright] \notes { \set Staff.instrument = \markup { \column < "Clarinetti" { "in B" \smaller \flat } > } { c''1 } } @end lilypond @end quotation @seealso Internals: @internalsref{InstrumentName}. @refbugs When you put a name on a grand staff or piano staff the width of the brace is not taken into account. You must add extra spaces to the end of the name to avoid a collision. @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 Since @var{from} and @var{to} are pitches, @code{\transpose} must be inside a @code{\notes} section. @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[raggedright,verbatim] mus =\notes { \key d \major cis d fis g } \score { \notes \context Staff { \clef "F" \mus \clef "G" \transpose c g' \mus \transpose c f' \mus }} @end lilypond @seealso Internals: @internalsref{TransposedMusic}, and @internalsref{UntransposableMusic}. @refbugs If you want to use both @code{\transpose} and @code{\relative}, then you must put @code{\transpose} outside of @code{\relative}, since @code{\relative} will have no effect music that appears inside a @code{\transpose}. @node Instrument transpositions @subsection Instrument transpositions The key of a transposing instrument can also be specified. This applies to many wind instruments, for example, clarinets (B-flat, A and E-flat), horn (F) and trumpet (B-flat, C, D and E-flat). @syntax The transposition is entered after the keyword @code{\transposition}: @example \transposition bes %% B-flat clarinet @end example This command sets the property @code{instrumentTuning}. The value of this property is used for MIDI output and quotations. It does not affect how notes are printed in the current staff. @cindex transposition, MIDI @cindex transposition, instrument @node Multi measure rests @subsection Multi measure rests @cindex multi measure rests @cindex Rests, multi measure @cindex @code{R} Multi measure rests are entered using `@code{R}'. It is specifically meant for full bar rests and for entering parts: the rest can expand to fill a score with rests, or it can be printed as a single multimeasure rest. This expansion is controlled by the property @code{Score.skipBars}. If this is set to true, empty measures will not be expanded, and the appropriate number is added automatically: @lilypond[fragment,verbatim] \time 4/4 r1 | R1 | R1*2 \set Score.skipBars = ##t R1*17 R1*4 @end lilypond The @code{1} in @code{R1} is similar to the duration notation used for notes. Hence, for time signatures other than 4/4, you must enter other durations. This can be done with augmentation dots or fractions: @lilypond[fragment,verbatim] \set Score.skipBars = ##t \time 3/4 R2. | R2.*2 \time 13/8 R1*13/8 R1*13/8*12 @end lilypond An @code{R} spanning a single measure is printed as either a whole rest or a breve, centered in the measure regardless of the time signature. @cindex text on multi-measure rest @cindex script on multi-measure rest @cindex fermata on multi-measure rest Texts can be added to multi-measure rests by using the @var{note}-@code{markup} syntax (see @ref{Text markup}). In this case, the number is replaced. If you need both texts and the number, you must add the number by hand. A variable (@code{\fermataMarkup}) is provided for adding fermatas: @lilypond[verbatim,fragment] \time 3/4 R2._\markup { "Ad lib" } R2.^\fermataMarkup @end lilypond If you want to have a text on the left end of a multi-measure rest, attach the text to a zero-length skip note, i.e. @example s1*0^"Allegro" R1*4 @end example @cindex whole rests for a full measure @seealso Internals: @internalsref{MultiMeasureRestEvent}, @internalsref{MultiMeasureTextEvent}, @internalsref{MultiMeasureRestMusicGroup}, and @internalsref{MultiMeasureRest}. The layout object @internalsref{MultiMeasureRestNumber} is for the default number, and @internalsref{MultiMeasureRestText} for user specified texts. @refbugs It is not possible to use fingerings (e.g. @code{R1-4}) to put numbers over multi-measure rests. @cindex condensing rests There is no way to automatically condense multiple rests into a single multimeasure rest. Multi measure rests do not take part in rest collisions. Be careful when entering multimeasure rests followed by whole notes. The following will enter two notes lasting four measures each: @example R1*4 cis cis @end example When @code{skipBars} is set, then the result will look OK, but the bar numbering will be off. @node Automatic part combining @subsection Automatic part combining @cindex automatic part combining @cindex part combiner Automatic part combining is used to merge two parts of music onto a staff. It is aimed at typesetting orchestral scores. When the two parts are identical for a period of time, only one is shown. In places where the two parts differ, they are typeset as separate voices, and stem directions are set automatically. Also, solo and @emph{a due} parts are identified and can be marked. @syntax The syntax for part combining is @example \partcombine @var{musicexpr1} @var{musicexpr2} @end example The music expressions will be interpreted as @internalsref{Voice} contexts. The following example demonstrates the basic functionality of the part combiner: putting parts on one staff, and setting stem directions and polyphony: @lilypond[verbatim,raggedright,fragment,relative=1] \new Staff \partcombine { g a( b) r } { g r4 r f } @end lilypond The first @code{g} appears only once, although it was specified twice (once in each part). Stem, slur and tie directions are set automatically, depending whether there is a solo or unisono. The first part (with context called @code{one}) always gets up stems, and `solo', while the second (called @code{two}) always gets down stems and `Solo II'. If you just want the merging parts, and not the textual markings, you may set the property @var{soloADue} to false: @lilypond[verbatim,raggedright,fragment,relative=1] \new Staff << \set Staff.soloADue = ##f \partcombine { g a( b) r } { g r4 r f } >> @end lilypond @seealso Internals: @internalsref{PartCombineMusic}, @internalsref{SoloOneEvent}, and @internalsref{SoloTwoEvent}, and @internalsref{UnisonoEvent}. @refbugs In @code{soloADue} mode, when the two voices play the same notes on and off, the part combiner may typeset @code{a2} more than once in a measure. @code{\partcombine} can not be inside @code{\times}. Internally, the @code{\partcombine} interprets both arguments as @code{Voice}s named @code{one} and @code{two}, and then decides when the parts can be combined. Consequently, if the arguments switch to differently named @internalsref{Voice} contexts, then the events in those will be ignored. @node Hiding staves @subsection Hiding staves @cindex Frenched scores @cindex Hiding staves In orchestral scores, staff lines that only have rests are usually removed. This saves some space. This style is called `French Score'. For @internalsref{Lyrics}, @internalsref{ChordNames} and @internalsref{FiguredBass}, this is switched on by default. When these line of these contexts turn out empty after the line-breaking process, they are removed. For normal staves, a specialized @internalsref{Staff} context is available, which does the same: staves containing nothing (or only multi measure rests) are removed. The context definition is stored in @code{\RemoveEmptyStaffContext} variable. Observe how the second staff in this example disappears in the second line: @lilypond[verbatim] \score { \notes \relative c' << \new Staff { e4 f g a \break c1 } \new Staff { c4 d e f \break R1 } >> \paper { linewidth = 6.\cm \translator { \RemoveEmptyStaffContext } } } @end lilypond The first page shows all staffs in full. If they should be removed from the first page too, set @code{remove-first} to false in @internalsref{RemoveEmptyVerticalGroup}. Another application is making ossia sections, i.e. alternative melodies on a separate piece of staff, with help of a Frenched staff. See @inputfileref{input/test,ossia.ly} for an example. @node Different editions from one source @subsection Different editions from one source The @code{\tag} command marks music expressions with a name. These tagged expressions can be filtered out later. With this mechanism it is possible to make different versions of the same music source. In the following example, we see two versions of a piece of music, one for the full score, and one with cue notes for the instrumental part: @example c1 \relative c' << \tag #'part << R1 \\ @{ \set fontSize = #-1 c4_"cue" f2 g4 @} >> \tag #'score R1 >> c1 @end example The same can be applied to articulations, texts, etc.: they are made by prepending @example -\tag #@var{your-tag} @end example to an articulation, for example, @example c1-\tag #'part ^4 @end example This defines a note with a conditional fingering indication. By applying the @code{remove-tag} function, tagged expressions can be filtered. For example, @example \simultaneous @{ @var{the music} \apply #(remove-tag 'score) @var{the music} \apply #(remove-tag 'part) @var{the music} @} @end example would yield @lilypondfile[]{tag-filter.ly} The argument of the @code{\tag} command should be a symbol, or a list of symbols, for example, @example \tag #'(original-part transposed-part) @dots{} @end example @seealso Examples: @inputfileref{input/regression,tag-filter.ly}. @node Quoting other voices @subsection Quoting other voices With quotations, fragments of other parts can be inserted into a part directly. Before a part can be quoted, it must be marked especially as quotable. This is done with code @code{\addquote} command. The quotation may then be done with @code{\quote} @example \addquote @var{name} @var{music} \quote @var{name} @var{duration} @end example @noindent Here, @var{name} is an identifying string. The @var{music} is any kind of music. This is an example of @code{\addquote}: @verbatim \addquote clarinet \notes\relative c' { f4 fis g gis } @end verbatim During a part, a piece of music can be quoted with the @code{\quote} command. @verbatim \quote clarinet 2. @end verbatim This would cite 3 quarter notes (a dotted half note) of the previously added clarinet voice. Quotations take into account the transposition both source and target instruments, if they are specified using the @code{\transposition} command. @lilypond[verbatim fragment] \addquote clarinet \notes\relative c' { \transposition bes f4 fis g gis } \score { \notes { e'8 f'8 \quote clarinet 2 } } @end lilypond @refbugs Only the contents of the first @internalsref{Voice} occurring in an @code{\addquote} command will be considered for quotation, so @var{music} can not contain @code{\new} and @code{\context Voice} statements that would switch to a different Voice. @seealso In this manual: @ref{Instrument transpositions}. Examples: @inputfileref{input/regression,quote.ly} @inputfileref{input/regression,quote-transposition.ly} Internals: @internalsref{QuoteMusic}. @node Ancient notation @section Ancient notation @cindex Vaticana, Editio @cindex Medicaea, Editio @cindex hufnagel @cindex Petrucci @cindex mensural @c [TODO: write more comprehensive introduction on ancient notation] Support for ancient notation is still under heavy development. Regardless of all of the current limitations (see the bugs section below for details), it includes features for mensural notation and Gregorian Chant notation. There is also limited support for figured bass notation. Many graphical objects provide a @code{style} property, see @ref{Ancient note heads}, @ref{Ancient accidentals}, @ref{Ancient rests}, @ref{Ancient clefs}, @ref{Ancient flags} and @ref{Ancient time signatures}. By manipulating such a grob property, the typographical appearance of the affected graphical objects can be accommodated for a specific notation flavor without need for introducing any new notational concept. Other aspects of ancient notation can not that easily be expressed as in terms of just changing a style property of a graphical object. Therefore, some notational concepts are introduced specifically for ancient notation, see @ref{Custodes}, @ref{Divisiones}, @ref{Ligatures}, and @ref{Figured bass}. @menu * Ancient note heads:: * Ancient accidentals:: * Ancient rests:: * Ancient clefs:: * Ancient flags:: * Ancient time signatures:: * Custodes:: * Divisiones:: * Ligatures:: * Figured bass:: * Vaticana style contexts:: @end menu If this all is way too much of documentation for you, and you just want to dive into typesetting without worrying too much about the details on how to customize a context, then you may have a look at the predefined contexts (see @ref{Vaticana style contexts}). Use them to set up predefined style-specific voice and staff contexts, and directly go ahead with the note entry. @refbugs Ligatures need special spacing that has not yet been implemented. As a result, there is too much space between ligatures most of the time, and line breaking often is unsatisfactory. Also, lyrics do not correctly align with ligatures. Accidentals must not be printed within a ligature, but instead need to be collected and printed in front of it. Augmentum dots within ligatures are not handled correctly. @node Ancient note heads @subsection Ancient note heads @cindex note heads @syntax For ancient notation, a note head style other than the @code{default} style may be chosen. This is accomplished by setting the @code{style} property of the NoteHead object to the desired value (@code{baroque}, @code{neo_mensural} or @code{mensural}). The @code{baroque} style differs from the @code{default} style only in using a square shape for @code{\breve} note heads. The @code{neo_mensural} style differs from the @code{baroque} style in that it uses rhomboidal heads for whole notes and all smaller durations. Stems are centered on the note heads. This style is in particular useful when transcribing mensural music, e.g. for the incipit. The @code{mensural} style finally produces note heads that mimic the look of note heads in historic printings of the 16th century. The following example demonstrates the @code{neo_mensural} style: @lilypond[fragment,raggedright,verbatim] \override NoteHead #'style = #'neo_mensural a'\longa a'\breve a'1 a'2 a'4 a'8 a'16 @end lilypond When typesetting a piece in Gregorian Chant notation, a Gregorian ligature engraver will automatically select the proper note heads, such there is no need to explicitly set the note head style. Still, the note head style can be set e.g. to @code{vaticana_punctum} to produce punctum neumes. Similarly, a mensural ligature engraver is used to automatically assemble mensural ligatures. See @ref{Ligatures} for how ligature engravers work. @seealso In this manual: @ref{Percussion staves} use note head styles of their own that are frequently used in contemporary music notation. Examples: @inputfileref{input/regression,note-head-style.ly} gives an overview over all available note head styles. @node Ancient accidentals @subsection Ancient accidentals @cindex accidentals @syntax Use the @code{style} property of grob @internalsref{Accidental} to select ancient accidentals. Supported styles are @code{mensural}, @code{vaticana}, @code{hufnagel} and @code{medicaea}. @lilypond[raggedright,staffsize=26] \score { \notes { \fatText s ^\markup { \column < "vaticana" { " " \musicglyph #"accidentals-vaticana-1" " " \musicglyph #"accidentals-vaticana0" } > \column < "medicaea" { " " \musicglyph #"accidentals-medicaea-1" } > \column < "hufnagel" { " " \musicglyph #"accidentals-hufnagel-1" } > \column < "mensural" { " " \musicglyph #"accidentals-mensural-1" " " \musicglyph #"accidentals-mensural1" } > } } \paper { raggedright = ##t interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator{ \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \remove "Time_signature_engraver" \remove "Staff_symbol_engraver" minimumVerticalExtent = ##f } } } @end lilypond As shown, not all accidentals are supported by each style. When trying to access an unsupported accidental, LilyPond will switch to a different style, as demonstrated in @inputfileref{input/test,ancient-accidentals.ly}. Similarly to local accidentals, the style of the key signature can be controlled by the @code{style} property of the @internalsref{KeySignature} grob. @seealso In this manual: @ref{Pitches}, @ref{Chromatic alterations} and @ref{Accidentals} give a general introduction into the use of accidentals. @ref{Key signature} gives a general introduction into the use of key signatures. Internals: @internalsref{KeySignature}. Examples: @inputfileref{input/test,ancient-accidentals.ly}. @node Ancient rests @subsection Ancient rests @cindex rests @syntax Use the @code{style} property of grob @internalsref{Rest} to select ancient accidentals. Supported styles are @code{classical}, @code{neo_mensural} and @code{mensural}. @code{classical} differs from the @code{default} style only in that the quarter rest looks like a horizontally mirrored 8th rest. The @code{neo_mensural} style suits well for e.g. the incipit of a transcribed mensural piece of music. The @code{mensural} style finally mimics the appearance of rests as in historic prints of the 16th century. The following example demonstrates the @code{neo_mensural} style: @lilypond[fragment,raggedright,verbatim] \override Rest #'style = #'neo_mensural r\longa r\breve r1 r2 r4 r8 r16 @end lilypond There are no 32th and 64th rests specifically for the mensural or neo-mensural style. Instead, the rests from the default style will be taken. See @inputfileref{input/test,rests.ly} for a chart of all rests. There are no rests in Gregorian Chant notation; instead, it uses @ref{Divisiones}. @seealso In this manual: @ref{Rests} gives a general introduction into the use of rests. @node Ancient clefs @subsection Ancient clefs @cindex clefs @syntax LilyPond supports a variety of clefs, many of them ancient. The following table shows all ancient clefs that are supported via the @code{\clef} command. Some of the clefs use the same glyph, but differ only with respect to the line they are printed on. In such cases, a trailing number in the name is used to enumerate these clefs. Still, you can manually force a clef glyph to be typeset on an arbitrary line, as described in @ref{Clef}. The note printed to the right side of each clef in the example column denotes the @code{c'} with respect to that clef. @multitable @columnfractions .3 .3 .3 .1 @item @b{Glyph Name} @tab @b{Description} @tab @b{Supported Clefs} @tab @b{Example} @item @code{clefs-neo_mensural_c} @tab modern style mensural C clef @tab @code{neo_mensural_c1}, @code{neo_mensural_c2}, @code{neo_mensural_c3}, @code{neo_mensural_c4} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "neo_mensural_c2" c @end lilypond @item @code{clefs-petrucci_c1} @code{clefs-petrucci_c2} @code{clefs-petrucci_c3} @code{clefs-petrucci_c4} @code{clefs-petrucci_c5} @tab petrucci style mensural C clefs, for use on different staff lines (the examples shows the 2nd staff line C clef). @tab @code{petrucci_c1} @code{petrucci_c2} @code{petrucci_c3} @code{petrucci_c4} @code{petrucci_c5} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "petrucci_c2" c @end lilypond @item @code{clefs-petrucci_f} @tab petrucci style mensural F clef @tab @code{petrucci_f} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "petrucci_f" c @end lilypond @item @code{clefs-petrucci_g} @tab petrucci style mensural G clef @tab @code{petrucci_g} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "petrucci_g" c @end lilypond @item @code{clefs-mensural_c} @tab historic style mensural C clef @tab @code{mensural_c1}, @code{mensural_c2}, @code{mensural_c3}, @code{mensural_c4} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "mensural_c2" c @end lilypond @item @code{clefs-mensural_f} @tab historic style mensural F clef @tab @code{mensural_f} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "mensural_f" c @end lilypond @item @code{clefs-mensural_g} @tab historic style mensural G clef @tab @code{mensural_g} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "mensural_g" c @end lilypond @item @code{clefs-vaticana_do} @tab Editio Vaticana style do clef @tab @code{vaticana_do1}, @code{vaticana_do2}, @code{vaticana_do3} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "vaticana_do2" c @end lilypond @item @code{clefs-vaticana_fa} @tab Editio Vaticana style fa clef @tab @code{vaticana_fa1}, @code{vaticana_fa2} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "vaticana_fa2" c @end lilypond @item @code{clefs-medicaea_do} @tab Editio Medicaea style do clef @tab @code{medicaea_do1}, @code{medicaea_do2}, @code{medicaea_do3} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "medicaea_do2" c @end lilypond @item @code{clefs-medicaea_fa} @tab Editio Medicaea style fa clef @tab @code{medicaea_fa1}, @code{medicaea_fa2} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "medicaea_fa2" c @end lilypond @item @code{clefs-hufnagel_do} @tab historic style hufnagel do clef @tab @code{hufnagel_do1}, @code{hufnagel_do2}, @code{hufnagel_do3} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "hufnagel_do2" c @end lilypond @item @code{clefs-hufnagel_fa} @tab historic style hufnagel fa clef @tab @code{hufnagel_fa1}, @code{hufnagel_fa2} @tab @lilypond[relative,notime] \override Staff.StaffSymbol #'line-count = #4 \override Staff.TimeSignature #'transparent = ##t \clef "hufnagel_fa2" c @end lilypond @item @code{clefs-hufnagel_do_fa} @tab historic style hufnagel combined do/fa clef @tab @code{hufnagel_do_fa} @tab @lilypond[relative,notime] \override Staff.TimeSignature #'transparent = ##t \clef "hufnagel_do_fa" c @end lilypond @end multitable @c --- This should go somewhere else: --- @c @item modern style percussion clef (glyph: @code{clefs-percussion}) @c @c Supported clefs: @c @code{percussion} @c @c @lilypond{\override Staff.TimeSignature #'transparent = ##t \clef "percussion" c'} @c @c @item modern style tab clef (glyph: @code{clefs-tab}) @c @c Supported clefs: @c @code{tab} @c @c @lilypond{\context Staff \outputproperty #(make-type-checker 'staff-symbol-interface) #'line-count = #6 \override Staff.TimeSignature #'transparent = ##t \clef "tab" c'} @emph{Modern style} means ``as is typeset in contemporary editions of transcribed mensural music''. @emph{Petrucci style} means ``inspired by printings published by the famous engraver Petrucci (1466-1539)''. @emph{Historic style} means ``as was typeset or written in historic editions (other than those of Petrucci)''. @emph{Editio XXX style} means ``as is/was printed in Editio XXX''. Petrucci used C clefs with differently balanced left-side vertical beams, depending on which staff line it is printed. @seealso In this manual: for the percussion clef, see @ref{Percussion staves}. For the @code{TAB} clef, see @ref{Tablatures}. Internals: for modern clefs, see @ref{Clef}. @refbugs The mensural g clef is temporarily mapped to the Petrucci g clef, until a new mensural g clef will have been implemented. @node Ancient flags @subsection Ancient flags @cindex flags @syntax Use the @code{flag-style} property of grob @internalsref{Stem} to select ancient flags. Besides the @code{default} flag style, only @code{mensural} style is supported: @lilypond[fragment,raggedright,verbatim] \override Stem #'flag-style = #'mensural \override Stem #'thickness = #1.0 \override NoteHead #'style = #'mensural \autoBeamOff c'8 d'8 e'8 f'8 c'16 d'16 e'16 f'16 c'32 d'32 e'32 f'32 s8 c''8 d''8 e''8 f''8 c''16 d''16 e''16 f''16 c''32 d''32 e''32 f''32 @end lilypond Note that the innermost flare of each mensural flag always is vertically aligned with a staff line. If you do not like this behavior, you can set the @code{adjust-if-on-staffline} property of grob @internalsref{Stem} to @code{##f}. Then, the vertical position of the end of each flare is different between notes on staff lines and notes between staff lines: @lilypond[fragment,raggedright] \override Stem #'flag-style = #'mensural \override Stem #'thickness = #1.0 \override Stem #'adjust-if-on-staffline = ##f \override NoteHead #'style = #'mensural \autoBeamOff c'8 d'8 e'8 f'8 c'16 d'16 e'16 f'16 c'32 d'32 e'32 f'32 s8 c''8 d''8 e''8 f''8 c''16 d''16 e''16 f''16 c''32 d''32 e''32 f''32 @end lilypond There is no particular flag style for neo-mensural notation. Hence, when typesetting e.g. the incipit of a transcribed piece of mensural music, the default flag style should be used. There are no flags in Gregorian Chant notation. @node Ancient time signatures @subsection Ancient time signatures @cindex time signatures @syntax There is limited support for mensural time signatures. The glyphs are hard-wired to particular time fractions. In other words, to get a particular mensural signature glyph with the @code{\time n/m} command, @code{n} and @code{m} have to be chosen according to the following table: @lilypond \score { \notes { \set Score.timing = ##f \set Score.barAlways = ##t s_\markup { "$\\backslash$time 4/4" } ^\markup { " " \musicglyph #"timesig-neo_mensural4/4" } s s_\markup { "$\\backslash$time 2/2" } ^\markup { " " \musicglyph #"timesig-neo_mensural2/2" } s s_\markup { "$\\backslash$time 6/4" } ^\markup { " " \musicglyph #"timesig-neo_mensural6/4" } s s_\markup { "$\\backslash$time 6/8" } ^\markup { " " \musicglyph #"timesig-neo_mensural6/8" } \break s_\markup { "$\\backslash$time 3/2" } ^\markup { " " \musicglyph #"timesig-neo_mensural3/2" } s s_\markup { "$\\backslash$time 3/4" } ^\markup { " " \musicglyph #"timesig-neo_mensural3/4" } s s_\markup { "$\\backslash$time 9/4" } ^\markup { " " \musicglyph #"timesig-neo_mensural9/4" } s s_\markup { "$\\backslash$time 9/8" } ^\markup { " " \musicglyph #"timesig-neo_mensural9/8" } \break s_\markup { "$\\backslash$time 4/8" } ^\markup { " " \musicglyph #"timesig-neo_mensural4/8" } s s_\markup { "$\\backslash$time 2/4" } ^\markup { " " \musicglyph #"timesig-neo_mensural2/4" } \break } \paper { indent = 0.0 raggedright = ##t \translator { \StaffContext \remove Staff_symbol_engraver \remove Clef_engraver \remove Time_signature_engraver } } } @end lilypond Use the @code{style} property of grob @internalsref{TimeSignature} to select ancient time signatures. Supported styles are @code{neo_mensural} and @code{mensural}. The above table uses the @code{neo_mensural} style. This style is appropriate e.g. for the incipit of transcriptions of mensural pieces. The @code{mensural} style mimics the look of historical printings of the 16th century. @inputfileref{input/test,time.ly} gives an overview over all available ancient and modern styles. @seealso Internals: @ref{Time signature} gives a general introduction into the use of time signatures. @refbugs Mensural signature glyphs are mapped to time fractions in a hard-wired way. This mapping is sensible, but still arbitrary: given a mensural time signature, the time fraction represents a modern meter that usually will be a good choice when transcribing a mensural piece of music. For a particular piece of mensural music, however, the mapping may be unsatisfactory. In particular, the mapping assumes a fixed transcription of durations (e.g. brevis = half note in 2/2, i.e. 4:1). Some glyphs (such as the alternate glyph for 6/8 meter) are not at all accessible through the @code{\time} command. Mensural time signatures are supported typographically, but not yet musically. The internal representation of durations is based on a purely binary system; a ternary division such as 1 brevis = 3 semibrevis (tempus perfectum) or 1 semibrevis = 3 minima (cum prolatione maiori) is not correctly handled: event times in ternary modes will be badly computed, resulting e.g. in horizontally misaligned note heads, and bar checks are likely to erroneously fail. The syntax and semantics of the @code{\time} command for mensural music is subject to change. @node Custodes @subsection Custodes @cindex custos @cindex custodes A @emph{custos} (plural: @emph{custodes}; Latin word for `guard') is a symbol that appears at the end of a staff. It anticipates the pitch of the first note(s) of the following line and thus helps the player or singer to manage line breaks during performance, thus enhancing readability of a score. Custodes were frequently used in music notation until the 17th century. Nowadays, they have survived only in a few particular forms of musical notation such as contemporary editions of Gregorian chant like the @emph{editio vaticana}. There are different custos glyphs used in different flavors of notational style. @syntax For typesetting custodes, just put a @internalsref{Custos_engraver} into the @internalsref{Staff} context when declaring the @code{\paper} block, as shown in the following example: @example \paper @{ \translator @{ \StaffContext \consists Custos_engraver Custos \override #'style = #'mensural @} @} @end example The result looks like this: @lilypond \score { \notes { a'1 \override Staff.Custos #'style = #'mensural \break g' } \paper { \translator { \StaffContext \consists Custos_engraver } linewidth = 4.0\cm } } @end lilypond The custos glyph is selected by the @code{style} property. The styles supported are @code{vaticana}, @code{medicaea}, @code{hufnagel} and @code{mensural}. They are demonstrated in the following fragment: @lilypond \score { \notes { \fatText s ^\markup { \column < "vaticana" { " " \musicglyph #"custodes-vaticana-u0" } > \column < "medicaea" { " " \musicglyph #"custodes-medicaea-u0" } > \column < "hufnagel" { " " \musicglyph #"custodes-hufnagel-u0" } > \column < "mensural" { " " \musicglyph #"custodes-mensural-u0" } > } } \paper { raggedright = ##t interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator{ \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \remove "Time_signature_engraver" \remove "Staff_symbol_engraver" minimumVerticalExtent = ##f } } } @end lilypond If the boolean property @code{adjust-if-on-staffline} is set to @code{#t} (which it is by default), lily typesets slightly different variants of the custos glyph, depending on whether the custos, is typeset on or between staff lines. The glyph will optically fit well into the staff, with the appendage on the right of the custos always ending at the same vertical position between two staff lines regardless of the pitch. If you set @code{adjust-if-on-staffline} to @code{#f}, then a compromise between both forms is used. Just like stems can be attached to note heads in two directions @emph{up} and @emph{down}, each custos glyph is available with its appendage pointing either up or down. If the pitch of a custos is above a selectable position, the appendage will point downwards; if the pitch is below this position, the appendage will point upwards. Use property @code{neutral-position} to select this position. By default, it is set to @code{0}, such that the neutral position is the center of the staff. Use property @code{neutral-direction} to control what happens if a custos is typeset on the neutral position itself. By default, this property is set to @code{-1}, such that the appendage will point downwards. If set to @code{1}, the appendage will point upwards. Other values such as @code{0} are reserved for future extensions and should not be used. @seealso Internals: @internalsref{Custos}. Examples: @inputfileref{input/regression,custos.ly}. @node Divisiones @subsection Divisiones @cindex divisio @cindex divisiones @cindex finalis A @emph{divisio} (plural: @emph{divisiones}; Latin word for `division') is a staff context symbol that is used to structure Gregorian music into phrases and sections. The musical meaning of @emph{divisio minima}, @emph{divisio maior} and @emph{divisio maxima} can be characterized as short, medium and long pause, somewhat like @ref{Breath marks}. The @emph{finalis} sign not only marks the end of a chant, but is also frequently used within a single antiphonal/responsorial chant to mark the end of each section. @syntax To use divisiones, include the file @code{gregorian-init.ly}. It contains definitions that you can apply by just inserting @code{\divisioMinima}, @code{\divisioMaior}, @code{\divisioMaxima}, and @code{\finalis} at proper places in the input. Some editions use @emph{virgula} or @emph{caesura} instead of divisio minima. Therefore, @code{gregorian-init.ly} also defines @code{\virgula} and @code{\caesura}: @lilypondfile[]{divisiones.ly} @refcommands @cindex @code{\virgula} @code{\virgula}, @cindex @code{\caesura} @code{\caesura}, @cindex @code{\divisioMinima} @code{\divisioMinima}, @cindex @code{\divisioMaior} @code{\divisioMaior}, @cindex @code{\divisioMaxima} @code{\divisioMaxima}, @cindex @code{\finalis} @code{\finalis}. @seealso In this manual: @ref{Breath marks}. Internals: @internalsref{BreathingSign}, @internalsref{BreathingSignEvent}. Examples: @inputfileref{input/test,divisiones.ly}. @node Ligatures @subsection Ligatures @cindex Ligatures @c TODO: Should double check if I recalled things correctly when I wrote @c down the following paragraph by heart. In musical terminology, a ligature is a coherent graphical symbol that represents at least two distinct notes. Ligatures originally appeared in the manuscripts of Gregorian chant notation roughly since the 9th century as an allusion to the accent symbols of Greek lyric poetry to denote ascending or descending sequences of notes. Both, the shape and the exact meaning of ligatures changed tremendously during the following centuries: In early notation, ligatures were used for monophonic tunes (Gregorian chant) and very soon denoted also the way of performance in the sense of articulation. With upcoming multiphony, the need for a metric system arised, since multiple voices of a piece have to be synchronized some way. New notation systems were invented that used the manifold shapes of ligatures to now denote rhythmical patterns (e.g. black mensural notation, mannered notation, ars nova). With the invention of the metric system of the white mensural notation, the need for ligatures to denote such patterns disappeared. Nevertheless, ligatures were still in use in the mensural system for a couple of decades until they finally disappeared during the late 16th / early 17th century. Still, ligatures have survived in contemporary editions of Gregorian chant such as the Editio Vaticana from 1905/08. @syntax Syntactically, ligatures are simply enclosed by @code{\[} and @code{\]}. Some ligature styles (such as Editio Vaticana) may need additional input syntax specific for this particular type of ligature. By default, the @internalsref{LigatureBracket} engraver just puts a square bracket above the ligature: @lilypond[raggedright,verbatim] \score { \notes \transpose c c' { \[ g c a f d' \] a g f \[ e f a g \] } } @end lilypond To select a specific style of ligatures, a proper ligature engraver has to be added to the @internalsref{Voice} context, as explained in the following subsections. Only white mensural ligatures are supported with certain limitations. Support for Editio Vaticana will be added in the future. @menu * White mensural ligatures:: * Gregorian square neumes ligatures:: @end menu @node White mensural ligatures @subsubsection White mensural ligatures @cindex Mensural ligatures @cindex White mensural ligatures There is limited support for white mensural ligatures. The implementation is still experimental; it may output strange warnings or even crash in some cases or produce weird results on more complex ligatures. @syntax To engrave white mensural ligatures, in the paper block the @internalsref{Mensural_ligature_engraver} has to be put into the @internalsref{Voice} context, and remove the @internalsref{Ligature_bracket_engraver}: @example \paper @{ \translator @{ \VoiceContext \remove Ligature_bracket_engraver \consists Mensural_ligature_engraver @} @} @end example There is no additional input language to describe the shape of a white mensural ligature. The shape is rather determined solely from the pitch and duration of the enclosed notes. While this approach may take a new user a while to get accustomed, it has the great advantage that the full musical information of the ligature is known internally. This is not only required for correct MIDI output, but also allows for automatic transcription of the ligatures. For example, @example \set Score.timing = ##f \set Score.defaultBarType = "empty" \override NoteHead #'style = #'neo_mensural \override Staff.TimeSignature #'style = #'neo_mensural \clef "petrucci_g" \[ g\longa c\breve a\breve f\breve d'\longa \] s4 \[ e1 f1 a\breve g\longa \] @end example @lilypond[raggedright] \score { \notes \transpose c c' { \set Score.timing = ##f \set Score.defaultBarType = "empty" \override NoteHead #'style = #'neo_mensural \override Staff.TimeSignature #'style = #'neo_mensural \clef "petrucci_g" \[ g\longa c\breve a\breve f\breve d'\longa \] s4 \[ e1 f1 a\breve g\longa \] } \paper { \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Mensural_ligature_engraver } } } @end lilypond Without replacing @internalsref{Ligature_bracket_engraver} with @internalsref{Mensural_ligature_engraver}, the same music transcribes to the following: @lilypond[raggedright] \score { \notes \transpose c c' { \set Score.timing = ##f \set Score.defaultBarType = "empty" \override NoteHead #'style = #'neo_mensural \override Staff.TimeSignature #'style = #'neo_mensural \clef "petrucci_g" \[ g\longa c\breve a\breve f\breve d'\longa \] s4 \[ e1 f1 a\breve g\longa \] } } @end lilypond @node Gregorian square neumes ligatures @subsubsection Gregorian square neumes ligatures @cindex Square neumes ligatures @cindex Gregorian square neumes ligatures Gregorian square neumes notation (following the style of the Editio Vaticana) is under heavy development, but not yet really usable for production purposes. Core ligatures can already be typeset, but essential issues for serious typesetting are still under development, such as (among others) horizontal alignment of multiple ligatures, lyrics alignment and proper accidentals handling. Still, this section gives a sneak preview of what Gregorian chant may look like once it will work. The following table contains the extended neumes table of the 2nd volume of the Antiphonale Romanum (@emph{Liber Hymnarius}), published 1983 by the monks of Solesmes. @multitable @columnfractions .4 .2 .2 .2 @item @b{Neuma aut@*Neumarum Elementa} @tab @b{Figurae@*Rectae} @tab @b{Figurae@*Liquescentes Auctae} @tab @b{Figurae@*Liquescentes Deminutae} @c TODO: \paper block is identical in all of the below examples. @c Therefore, it should somehow be included rather than duplicated all @c the time. --jr @c why not make identifiers in ly/engraver-init.ly? --hwn @c Because it's just used to typeset plain notes without @c a staff for demonstration purposes rather than something @c special of Gregorian chant notation. --jr @item @code{1. Punctum} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.5\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Punctum \[ b \] \noBreak s^\markup {"a"} \noBreak % Punctum Inclinatum \[ \inclinatum b \] \noBreak s^\markup {"b"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=2.5\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Punctum Auctum Ascendens \[ \auctum \ascendens b \] \noBreak s^\markup {"c"} \noBreak % Punctum Auctum Descendens \[ \auctum \descendens b \] \noBreak s^\markup {"d"} \noBreak % Punctum Inclinatum Auctum \[ \inclinatum \auctum b \] \noBreak s^\markup {"e"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Punctum Inclinatum Parvum \[ \inclinatum \deminutum b \] \noBreak s^\markup {"f"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{2. Virga} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Virga \[ \virga b \] \noBreak s^\markup {"g"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @tab @item @code{3. Apostropha vel Stropha} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Stropha \[ \stropha b \] \noBreak s^\markup {"h"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Stropha Aucta \[ \stropha \auctum b \] \noBreak s^\markup {"i"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @item @code{4. Oriscus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Oriscus \[ \oriscus b \] \noBreak s^\markup {"j"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @tab @item @code{5. Clivis vel Flexa} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Clivis vel Flexa \[ b \flexa g \] s^\markup {"k"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=2.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Clivis Aucta Descendens \[ b \flexa \auctum \descendens g \] \noBreak s^\markup {"l"} \noBreak % Clivis Aucta Ascendens \[ b \flexa \auctum \ascendens g \] \noBreak s^\markup {"m"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Cephalicus \[ b \flexa \deminutum g \] s^\markup {"n"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{6. Podatus vel Pes} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Podatus vel Pes \[ g \pes b \] s^\markup {"o"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=2.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Pes Auctus Descendens \[ g \pes \auctum \descendens b \] \noBreak s^\markup {"p"} \noBreak % Pes Auctus Ascendens \[ g \pes \auctum \ascendens b \] \noBreak s^\markup {"q"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Epiphonus \[ g \pes \deminutum b \] s^\markup {"r"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{7. Pes Quassus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Pes Quassus \[ \oriscus g \pes \virga b \] s^\markup {"s"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Pes Quassus Auctus Descendens \[ \oriscus g \pes \auctum \descendens b \] s^\markup {"t"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @item @code{8. Quilisma Pes} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Quilisma Pes \[ \quilisma g \pes b \] s^\markup {"u"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Quilisma Pes Auctus Descendens \[ \quilisma g \pes \auctum \descendens b \] s^\markup {"v"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @item @code{9. Podatus Initio Debilis} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Pes Initio Debilis \[ \deminutum g \pes b \] s^\markup {"w"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Pes Auctus Descendens Initio Debilis \[ \deminutum g \pes \auctum \descendens b \] s^\markup {"x"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @item @code{10. Torculus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus \[ a \pes b \flexa g \] s^\markup {"y"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus Auctus Descendens \[ a \pes b \flexa \auctum \descendens g \] s^\markup {"z"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus Deminutus \[ a \pes b \flexa \deminutum g \] s^\markup {"A"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{11. Torculus Initio Debilis} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus Initio Debilis \[ \deminutum a \pes b \flexa g \] s^\markup {"B"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus Auctus Descendens Initio Debilis \[ \deminutum a \pes b \flexa \auctum \descendens g \] s^\markup {"C"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Torculus Deminutus Initio Debilis \[ \deminutum a \pes b \flexa \deminutum g \] s^\markup {"D"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{12. Porrectus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Porrectus \[ a \flexa g \pes b \] s^\markup {"E"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Porrectus Auctus Descendens \[ a \flexa g \pes \auctum \descendens b \] s^\markup {"F"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Porrectus Deminutus \[ a \flexa g \pes \deminutum b \] s^\markup {"G"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{13. Climacus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Climacus \[ \virga b \inclinatum a \inclinatum g \] s^\markup {"H"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Climacus Auctus \[ \virga b \inclinatum a \inclinatum \auctum g \] s^\markup {"I"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Climacus Deminutus \[ \virga b \inclinatum a \inclinatum \deminutum g \] s^\markup {"J"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{14. Scandicus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Scandicus \[ g \pes a \virga b \] s^\markup {"K"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Scandicus Auctus Descendens \[ g \pes a \pes \auctum \descendens b \] s^\markup {"L"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Scandicus Deminutus \[ g \pes a \pes \deminutum b \] s^\markup {"M"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @item @code{15. Salicus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Salicus \[ g \oriscus a \pes \virga b \] s^\markup {"N"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Salicus Auctus Descendens \[ g \oriscus a \pes \auctum \descendens b \] s^\markup {"O"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @item @code{16. Trigonus} @tab @lilypond[noindent,staffsize=26,nofragment,linewidth=1.0\cm] \include "gregorian-init.ly" \score { \notes \transpose c c' { % Trigonus \[ \stropha b \stropha b \stropha a \] s^\markup {"P"} } \paper { interscoreline = 1 \translator { \ScoreContext \remove "Bar_number_engraver" } \translator { \StaffContext \remove "Clef_engraver" \remove "Key_engraver" \override StaffSymbol #'transparent = ##t \remove "Time_signature_engraver" \remove "Bar_engraver" minimumVerticalExtent = ##f } \translator { \VoiceContext \remove Ligature_bracket_engraver \consists Vaticana_ligature_engraver \override NoteHead #'style = #'vaticana_punctum \override Stem #'transparent = ##t } } } @end lilypond @tab @tab @end multitable @syntax Unlike most other neumes notation systems, the input language for neumes does not necessarily reflect directly the typographical appearance, but is designed to solely focuse on musical meaning. For example, @code{\[ a \pes b \flexa g \]} produces a Torculus consisting of three Punctum heads, while @code{\[ a \flexa g \pes b \]} produces a Porrectus with a curved flexa shape and only a single Punctum head. There is no command to explicitly typeset the curved flexa shape; the decision of when to typeset a curved flexa shape is purely taken from the musical input. The idea of this approach is to separate the musical aspects of the input from the notation style of the output. This way, the same input can be reused to typeset the same music in a different style of Gregorian chant notation such as Hufnagel (also known as German gothic neumes) or Medicaea (kind of a very simple forerunner of the Editio Vaticana). As soon as Hufnagel ligature engraver and Medicaea ligature engraver will have been implemented, it will be as simple as replacing the ligature engraver in the @internalsref{Voice} context to get the desired notation style from the same input. The following table shows the code fragments that produce the ligatures in the above neumes table. The letter in the first column in each line of the below table indicates to which ligature in the above table it refers. The second column gives the name of the ligature. The third column shows the code fragment that produces this ligature, using @code{g}, @code{a} and @code{b} as example pitches. @multitable @columnfractions .1 .4 .5 @item @b{#} @tab @b{Name} @tab @b{Input Language} @item a @tab Punctum @tab @code{\[ b \]} @item b @tab Punctum Inclinatum @tab @code{\[ \inclinatum b \]} @item c @tab Punctum Auctum Ascendens @tab @code{\[ \auctum \ascendens b \]} @item d @tab Punctum Auctum Descendens @tab @code{\[ \auctum \descendens b \]} @item e @tab Punctum Inclinatum Auctum @tab @code{\[ \inclinatum \auctum b \]} @item f @tab Punctum Inclinatum Parvum @tab @code{\[ \inclinatum \deminutum b \]} @item g @tab Virga @tab @code{\[ \virga b \]} @item h @tab Stropha @tab @code{\[ \stropha b \]} @item i @tab Stropha Aucta @tab @code{\[ \stropha \auctum b \]} @item j @tab Oriscus @tab @code{\[ \oriscus b \]} @item k @tab Clivis vel Flexa @tab @code{\[ b \flexa g \]} @item l @tab Clivis Aucta Descendens @tab @code{\[ b \flexa \auctum \descendens g \]} @item m @tab Clivis Aucta Ascendens @tab @code{\[ b \flexa \auctum \ascendens g \]} @item n @tab Cephalicus @tab @code{\[ b \flexa \deminutum g \]} @item o @tab Podatus vel Pes @tab @code{\[ g \pes b \]} @item p @tab Pes Auctus Descendens @tab @code{\[ g \pes \auctum \descendens b \]} @item q @tab Pes Auctus Ascendens @tab @code{\[ g \pes \auctum \ascendens b \]} @item r @tab Epiphonus @tab @code{\[ g \pes \deminutum b \]} @item s @tab Pes Quassus @tab @code{\[ \oriscus g \pes \virga b \]} @item t @tab Pes Quassus Auctus Descendens @tab @code{\[ \oriscus g \pes \auctum \descendens b \]} @item u @tab Quilisma Pes @tab @code{\[ \quilisma g \pes b \]} @item v @tab Quilisma Pes Auctus Descendens @tab @code{\[ \quilisma g \pes \auctum \descendens b \]} @item w @tab Pes Initio Debilis @tab @code{\[ \deminutum g \pes b \]} @item x @tab Pes Auctus Descendens Initio Debilis @tab @code{\[ \deminutum g \pes \auctum \descendens b \]} @item y @tab Torculus @tab @code{\[ a \pes b \flexa g \]} @item z @tab Torculus Auctus Descendens @tab @code{\[ a \pes b \flexa \auctum \descendens g \]} @item A @tab Torculus Deminutus @tab @code{\[ a \pes b \flexa \deminutum g \]} @item B @tab Torculus Initio Debilis @tab @code{\[ \deminutum a \pes b \flexa g \]} @item C @tab Torculus Auctus Descendens Initio Debilis @tab @code{\[ \deminutum a \pes b \flexa \auctum \descendens g \]} @item D @tab Torculus Deminutus Initio Debilis @tab @code{\[ \deminutum a \pes b \flexa \deminutum g \]} @item E @tab Porrectus @tab @code{\[ a \flexa g \pes b \]} @item F @tab Porrectus Auctus Descendens @tab @code{\[ a \flexa g \pes \auctum \descendens b \]} @item G @tab Porrectus Deminutus @tab @code{\[ a \flexa g \pes \deminutum b \]} @item H @tab Climacus @tab @code{\[ \virga b \inclinatum a \inclinatum g \]} @item I @tab Climacus Auctus @tab @code{\[ \virga b \inclinatum a \inclinatum \auctum g \]} @item J @tab Climacus Deminutus @tab @code{\[ \virga b \inclinatum a \inclinatum \deminutum g \]} @item K @tab Scandicus @tab @code{\[ g \pes a \virga b \]} @item L @tab Scandicus Auctus Descendens @tab @code{\[ g \pes a \pes \auctum \descendens b \]} @item M @tab Scandicus Deminutus @tab @code{\[ g \pes a \pes \deminutum b \]} @item N @tab Salicus @tab @code{\[ g \oriscus a \pes \virga b \]} @item O @tab Salicus Auctus Descendens @tab @code{\[ g \oriscus a \pes \auctum \descendens b \]} @item P @tab Trigonus @tab @code{\[ \stropha b \stropha b \stropha a \]} @end multitable @refcommands The following head prefixes are supported: @cindex @code{\virga} @code{\virga}, @cindex @code{\stropha} @code{\stropha}, @cindex @code{\inclinatum} @code{\inclinatum}, @cindex @code{\auctum} @code{\auctum}, @cindex @code{\descendens} @code{\descendens}, @cindex @code{\ascendens} @code{\ascendens}, @cindex @code{\oriscus} @code{\oriscus}, @cindex @code{\quilisma} @code{\quilisma}, @cindex @code{\deminutum} @code{\deminutum}. Head prefixes can be accumulated, though restrictions apply. For example, either @code{\descendens} or @code{\ascendens} can be applied to a head, but not both to the same head. @cindex @code{\pes} @cindex @code{\flexa} Two adjacent heads can be tied together with the @code{\pes} and @code{\flexa} infix commands for a rising and falling line of melody, respectively. @refbugs Trigonus: apply equal spacing, regardless of pitch. @node Figured bass @subsection Figured bass @cindex Basso continuo @c TODO: musicological blurb about FB @syntax LilyPond has limited support for figured bass: @lilypond[verbatim,fragment] << \context Voice \notes { \clef bass dis4 c d ais} \context FiguredBass \figures { < 6 >4 < 7 >8 < 6+ [_!] > < 6 >4 <6 5 [3+] > } >> @end lilypond The support for figured bass consists of two parts: there is an input mode, introduced by @code{\figures}, where you can enter bass figures as numbers, and there is a context called @internalsref{FiguredBass} that takes care of making @internalsref{BassFigure} objects. In figures input mode, a group of bass figures is delimited by @code{<} and @code{>}. The duration is entered after the @code{>>}: @example <4 6> @end example @lilypond[fragment] \context FiguredBass \figures { <4 6> } @end lilypond Accidentals are added when you append @code{-}, @code{!} and @code{+} to the numbers: @example <4- 6+ 7!> @end example @lilypond[fragment] \context FiguredBass \figures { <4- 6+ 7!> } @end lilypond Spaces or dashes may be inserted by using @code{_}. Brackets are introduced with @code{[} and @code{]}: @example < [4 6] 8 [_! 12]> @end example @lilypond[fragment] \context FiguredBass \figures { < [4 6] 8 [_! 12]> } @end lilypond Although the support for figured bass may superficially resemble chord support, it works much simpler. The @code{\figures} mode simply stores the numbers , and @internalsref{FiguredBass} context prints them as entered. There is no conversion to pitches, and no realizations of the bass are played in the MIDI file. Internally, the code produces markup texts. You can use any of the markup text properties to override formatting. For example, the vertical spacing of the figures may be set with @code{baseline-skip}. @seealso Internals: @internalsref{BassFigureEvent} music, @internalsref{BassFigure} object, and @internalsref{FiguredBass} context. @refbugs Slash notation for alterations is not supported. @node Vaticana style contexts @subsection Vaticana style contexts @cindex VaticanaVoiceContext @cindex VaticanaStaffContext The predefined @code{VaticanaVoiceContext} and @code{VaticanaStaffContext} can be used to easily engrave a piece of Gregorian Chant in the style of the Editio Vaticana. These contexts initialize all relevant context properties and grob properties to proper values. With these contexts, you can immediately go ahead entering the chant, as the following short excerpt demonstrates: @lilypond[raggedright,verbatim,noindent] \include "gregorian-init.ly" \score { << \context VaticanaVoice = "cantus" { \override Score.BarNumber #'transparent = ##t \notes { \[ c'\melisma c' \flexa a \] \[ a \flexa \deminutum g\melismaEnd \] f \divisioMinima \[ f\melisma \pes a c' c' \pes d'\melismaEnd \] c' \divisioMinima \break \[ c'\melisma c' \flexa a \] \[ a \flexa \deminutum g\melismaEnd \] f \divisioMinima } } \lyricsto "cantus" \new Lyrics \lyrics { San- ctus, San- ctus, San- ctus } >> } @end lilypond @node Contemporary notation @section Contemporary notation In the 20th century, composers have greatly expanded the musical vocabulary. With this expansion, many innovations in musical notation have been tried. The book by Stone (1980) gives a comprehensive overview (see @ref{Literature list}). In general, the use of new, innovative notation makes a piece harder to understand and perform and its use should therefore be avoided if possible. For this reason, support for contemporary notation in LilyPond is limited. @menu * Clusters:: * Fermatas:: @end menu @node Clusters @subsection Clusters @cindex cluster In musical terminology, a @emph{cluster} denotes a range of simultaneously sounding pitches that may change over time. The set of available pitches to apply usually depends on the acoustic source. Thus, in piano music, a cluster typically consists of a continuous range of the semitones as provided by the piano's fixed set of a chromatic scale. In choral music, each singer of the choir typically may sing an arbitrary pitch within the cluster's range that is not bound to any diatonic, chromatic or other scale. In electronic music, a cluster (theoretically) may even cover a continuous range of pitches, thus resulting in colored noise, such as pink noise. Clusters can be denoted in the context of ordinary staff notation by engraving simple geometrical shapes that replace ordinary notation of notes. Ordinary notes as musical events specify starting time and duration of pitches; however, the duration of a note is expressed by the shape of the note head rather than by the horizontal graphical extent of the note symbol. In contrast, the shape of a cluster geometrically describes the development of a range of pitches (vertical extent) over time (horizontal extent). Still, the geometrical shape of a cluster covers the area in which any single pitch contained in the cluster would be notated as an ordinary note. From this point of view, it is reasonable to specify a cluster as the envelope of a set of notes. @syntax A cluster is engraved as the envelope of a set of cluster-notes. Cluster notes are created by applying the function @code{notes-to-clusters} to a sequence of chords, e.g. @c @lilypond[relative=1,verbatim] \apply #notes-to-clusters { } @end lilypond The following example (from @inputfileref{input/regression,cluster.ly}) shows what the result looks like: @lilypondfile[]{cluster.ly} By default, @internalsref{Cluster_spanner_engraver} is in the @internalsref{Voice} context. This allows putting ordinary notes and clusters together in the same staff, even simultaneously. In such a case no attempt is made to automatically avoid collisions between ordinary notes and clusters. @seealso Internals: @internalsref{ClusterSpanner}, @internalsref{ClusterSpannerBeacon}, @internalsref{Cluster_spanner_engraver}, and @internalsref{ClusterNoteEvent}. Examples: @inputfileref{input/regression,cluster.ly}. @refbugs Music expressions like @code{<< @{ g8 e8 @} a4 >>} are not printed accurately. Use @code{8 8} instead. @node Fermatas @subsection Fermatas @cindex fermatas Contemporary music notation frequently uses special fermata symbols to indicate fermatas of differing lengths. @syntax The following are supported @lilypond[raggedright] \score { << \addlyrics \notes { b' ^\shortfermata _\shortfermata r b' ^\fermata _\fermata r b' ^\longfermata _\longfermata r b' ^\verylongfermata _\verylongfermata r } \context Lyrics \lyrics { "shortfermata" "fermata" "longfermata" "verylongfermata" } >> } @end lilypond See @ref{Articulations} for general instructions how to apply scripts such as fermatas to a @code{\notes@{@}} block. @node Special notation @section Special notation @menu * Balloon help:: * Easy Notation note heads:: @end menu @node Balloon help @subsection Balloon help Elements of notation can be marked and named with the help of a square balloon. The primary purpose of this feature is to explain notation. The following example demonstrates its use. @lilypond[verbatim,fragment,raggedright,relative=1] \context Voice \applyoutput #(add-balloon-text 'NoteHead "heads, or tails?" '(1 . -3)) c8 @end lilypond @noindent The function @code{add-balloon-text} takes the name of a grob, the label to print and where to put the label relative to the object. In the above example, the text ``heads or tails?'' ends 3 spaces below the `balloon.' @cindex balloon @cindex notation, explaining @seealso Internals: @internalsref{text-balloon-interface}. Examples: @inputfileref{input/regression,balloon.ly}. @node Easy Notation note heads @subsection Easy Notation note heads @cindex easy notation @cindex Hal Leonard The `easy play' note head includes a note name inside the head. It is used in music aimed at beginners: @lilypond[raggedright,verbatim,staffsize=26] \score { \notes { c'2 e'4 f' | g'1 } \paper { \translator { \EasyNotation } } } @end lilypond The @code{EasyNotation} variable overrides a @internalsref{Score} @c context. To make the letters readable, it has to be printed in a large font size. To print with a larger font, see @ref{Font Size}. @cindex Xdvi @cindex ghostscript If you view the result with Xdvi, then staff lines may show through the letters. Printing the PostScript file obtained does produce the correct result.