@c -*- coding: utf-8; mode: texinfo; -*- @ignore Translation of GIT committish: FILL-IN-HEAD-COMMITTISH When revising a translation, copy the HEAD committish of the version that you are working on. For details, see the Contributors' Guide, node Updating translation committishes.. @end ignore @c \version "2.19.21" @ignore Tutorial guidelines: (different from policy.txt!) - unless you have a really good reason, use @lilypond[verbatim,quote] - use "aes" and "ees" instead of "as" and "es". I know it's not correct Dutch naming, but let's not confuse people with this until we get to the Basic notation chapter. - Add "Music Glossary: @rglos{foo}" to the *top* of the relevant portions of the tutorial. @end ignore @node Common notation @chapter Common notation This chapter explains how to create beautiful printed music containing common musical notation, following the material in @ref{Tutorial}. @menu * Single staff notation:: * Multiple notes at once:: * Songs:: * Final touches:: @end menu @node Single staff notation @section Single staff notation This section introduces common notation that is used for one voice on one staff. @menu * Bar lines and bar checks:: * Pitches and key signatures:: * Ties and slurs:: * Articulation and dynamics:: * Adding text:: * Automatic and manual beams:: * Advanced rhythmic commands:: @end menu @node Bar lines and bar checks @subsection Bar lines and bar checks @menu * Bar lines:: * Bar checks:: @end menu @node Bar lines @unnumberedsubsubsec Bar lines Single bar lines are automatically placed in the music so there is no need to add them manually. Other types of bar lines are added using @code{\bar}, for example @code{\bar "||"} for a double bar line, or @code{\bar "|."} for an ending bar line. For a full list of bar lines see the @ruser{Bar lines}. @lilypond[verbatim,quote] \relative { g'1 e1 \bar "||" c2. c'4 \bar "|." } @end lilypond @node Bar checks @unnumberedsubsubsec Bar checks Though not strictly necessary, @emph{bar checks} should be used in the input code to show where bar lines are expected to fall. They are entered using the bar symbol, @code{|}. With bar checks, the program can verify that you've entered durations that make each measure add up to the correct length. Bar checks also make your input code easier to read, since they help to keep things organized. @c This example deliberately produces a warning @lilypond[verbatim,quote] \relative { g'1 | e1 | c2. c' | g4 c g e | c4 r r2 | } @end lilypond If you compile the code in the example above, you should see a warning in the console output: @example warning: barcheck failed at: 1/2 g'1 | e1 | c2. c' | g4 c g e | c4 r r2 | @end example Although the missing duration is clear in the musical output in this simple example, the warning in the console output is far more effective in drawing attention to the missing @code{4} in bar 3. @seealso Notation Reference: @ruser{Bar and bar number checks}. @node Pitches and key signatures @subsection Pitches and key signatures @menu * Pitch alterations:: * Key signatures:: * Warning key signatures and pitches:: @end menu @warning{New users often misunderstand how LilyPond uses the key signature -- please read the warning at the bottom of this page.} @node Pitch alterations @unnumberedsubsubsec Pitch alterations @cindex accidentals @cindex natural @cindex sharp @cindex double sharp @cindex sharp, double @cindex flat @cindex double flat @cindex flat, double @funindex es @funindex is @funindex eses @funindex isis Music Glossary: @rglos{sharp}, @rglos{flat}, @rglos{double sharp}, @rglos{double flat}, @rglos{accidental}. Note-names in LilyPond identify pitches. For example, @code{c} always means C-natural, regardless of the key signature. A @notation{sharp} pitch is made by adding @code{is} to the name, and a @notation{flat} pitch by adding @code{es}. As you might expect, a @notation{double sharp} or @notation{double flat} is made by adding @code{isis} or @code{eses}. This syntax is derived from note naming conventions in Nordic and Germanic languages, like German and Dutch. To use other names for @notation{alterations}, see @ruser{Note names in other languages}. @lilypond[verbatim,quote] \relative { cis''4 ees fisis, aeses } @end lilypond @cindex key signature, setting @node Key signatures @unnumberedsubsubsec Key signatures @cindex key signature @cindex major @cindex minor @cindex accidentals and key signature @cindex content vs. layout @cindex layout vs. content @funindex \key @funindex \major @funindex \minor Music Glossary: @rglos{key signature}, @rglos{major}, @rglos{minor}. The @notation{key signature} is set with the command @code{\key} followed by a pitch and @code{\major} or @code{\minor}. @lilypond[verbatim,quote] \relative { \key d \major d'4 fis a c | \bar "||" \key c \minor c,4 ees g b | } @end lilypond @smallspace @node Warning key signatures and pitches @unnumberedsubsubsec Warning: key signatures and pitches Music Glossary: @rglos{accidental}, @rglos{key signature}, @rglos{pitch}, @rglos{flat}, @rglos{natural}, @rglos{sharp}, @rglos{transposition}, @rglos{Pitch names}. LilyPond makes a distinction between musical content and its printed representation. Input such as @code{d4 e fis2} defines the pitches and durations of notes, which is musical content. The @notation{key signature} is part of the printed representation. The key signature also sets rules for the printed representations of notes. LilyPond compares each input pitch to the key signature to determine whether to print an @notation{accidental}. The command @code{\key} sets the @notation{key signature}, which affects the printed representation, but does @emph{not} change the pitch assigned to a note such as @code{c} in the input. In this example: @lilypond[verbatim,quote] \relative { \key d \major cis''4 d e fis } @end lilypond @noindent No note has a printed accidental, but you must still add @code{is} and type @code{cis} and @code{fis} in the input file. The code @code{b} does not mean @qq{print a black dot just on the middle line of the staff.} Rather, it means @qq{there is a note with pitch B-natural.} In the key of A-flat major, it @emph{does} get an accidental: @lilypond[verbatim,quote] \relative { \key aes \major aes'4 c b c } @end lilypond Whenever you enter a pitch that is a black key on the piano, you @emph{must} add @w{@code{-is}} or @w{@code{-es}} to the note name. Adding all alterations explicitly might require a little more effort when typing, but the advantage is that @notation{transposing} is easier, and accidentals can be printed according to different conventions. For some examples of how accidentals can be printed according to different rules, see @ruser{Automatic accidentals}. @seealso Notation Reference: @ruser{Note names in other languages}, @ruser{Accidentals}, @ruser{Automatic accidentals}, @ruser{Key signature}. @node Ties and slurs @subsection Ties and slurs @cindex tie @cindex slur @cindex slur, phrasing @cindex phrasing slur @funindex ~ @funindex ( ... ) @funindex \( ... \) @menu * Ties:: * Slurs:: * Phrasing slurs:: * Warnings slurs vs. ties:: @end menu @node Ties @unnumberedsubsubsec Ties Music Glossary: @rglos{tie}. A @notation{tie} is created by appending a tilde @code{~} to the first of the two notes being tied. @lilypond[verbatim,quote] \relative { g'4~ g c2~ | c4~ c8 a~ a2 | } @end lilypond @cindex bare duration @cindex duration, bare When the pitch does not change, as is always the case with tied notes, subsequent pitches may be omitted, specifying just the bare duration: @lilypond[verbatim,quote] \relative { g'4~ 4 c2~ | 4~ 8 a~ 2 | } @end lilypond This shorthand may be useful in other places where the rhythm changes with an unchanging pitch, but remember that a bare pitch followed by a space and a bare duration will be interpreted as a single note. In other words, @code{c4 a 8 8} would be interpreted as @code{c4 a8 a8}, not as @code{c4 a4 a8 a8}. Write instead @code{c4 a4 8 8 }. @node Slurs @unnumberedsubsubsec Slurs Music Glossary: @rglos{slur}. A @notation{slur} is a curve drawn across many notes. The starting note and ending note are marked with @code{(} and @code{)} respectively. @lilypond[verbatim,quote] \relative { d''4( c16) cis( d e c cis d) e( d4) } @end lilypond @node Phrasing slurs @unnumberedsubsubsec Phrasing slurs Music Glossary: @rglos{slur}, @rglos{phrasing}. Slurs to indicate longer @notation{phrasing} can be entered with @code{\(} and @code{\)}. You can have both @notation{slurs} and phrasing slurs at the same time. @lilypond[verbatim,quote] \relative { g'4\( g8( a) b( c) b4\) } @end lilypond @smallspace @cindex slurs versus ties @node Warnings slurs vs. ties @unnumberedsubsubsec Warnings: slurs vs. ties Music Glossary: @rglos{articulation}, @rglos{slur}, @rglos{tie}. A @notation{slur} looks like a @notation{tie}, but it has a different meaning. A tie simply makes the first note longer, and can only be used on pairs of notes with the same pitch. Slurs indicate the @notation{articulation} of notes, and can be used on larger groups of notes. Slurs and ties can be nested. @lilypond[verbatim,quote] \relative { c''4(~ c8 d~ 4 e) } @end lilypond @seealso Notation Reference: @ruser{Ties}, @ruser{Slurs}, @ruser{Phrasing slurs}. @node Articulation and dynamics @subsection Articulation and dynamics @menu * Articulations:: * Fingerings:: * Dynamics:: @end menu @node Articulations @unnumberedsubsubsec Articulations @cindex articulation @cindex accent @cindex staccato Music Glossary: @rglos{articulation}. Common @notation{articulations} can be added to a note using a dash @code{-} and a single character: @lilypond[verbatim,quote] \relative { c''4-^ c-+ c-- c-! c4-> c-. c2-_ } @end lilypond @node Fingerings @unnumberedsubsubsec Fingerings @cindex fingering @funindex ^ @funindex _ Music Glossary: @rglos{fingering}. Similarly, @notation{fingering} indications can be added to a note using a dash (@code{-}) and the digit to be printed: @lilypond[verbatim,quote] \relative { c''4-3 e-5 b-2 a-1 } @end lilypond Articulations and fingerings are usually placed automatically, but you can specify a direction by replacing the dash (@code{-}) with @code{^} (up) or @code{_} (down). You can also use multiple articulations on the same note. However, in most cases it is best to let LilyPond determine the articulation directions. @lilypond[verbatim,quote] \relative { c''4_-^1 d^. f^4_2-> e^-_+ } @end lilypond @node Dynamics @unnumberedsubsubsec Dynamics @cindex dynamics @cindex decrescendo @cindex crescendo @funindex \f @funindex \ff @funindex \mp @funindex \p @funindex \mf @funindex \pp @funindex \< @funindex \> @funindex \! Music Glossary: @rglos{dynamics}, @rglos{crescendo}, @rglos{decrescendo}. @notation{Dynamic} signs are made by adding the markings (with a backslash) to the note: @lilypond[verbatim,quote] \relative { c''4\ff c\mf c\p c\pp } @end lilypond @notation{Crescendi} and @notation{decrescendi} are started with the commands @code{\<} and @code{\>}. The next dynamics sign, for example @code{\f}, will end the (de)crescendo, or the command @code{\!} can be used: @lilypond[verbatim,quote] \relative { c''4\< c\ff\> c c\! } @end lilypond @seealso Notation Reference: @ruser{Articulations and ornamentations}, @ruser{Fingering instructions}, @ruser{Dynamics}. @node Adding text @subsection Adding text @cindex text, adding @cindex adding text @cindex markup @funindex \markup Text may be added to your scores: @lilypond[verbatim,quote,fragment] c''2^"espr" a'_"legato" @end lilypond Extra formatting may be added with the @code{\markup} command: @lilypond[verbatim,quote,fragment] c''2^\markup { \bold espr } a'2_\markup { \dynamic f \italic \small { 2nd } \hspace #0.1 \dynamic p } @end lilypond @seealso Notation Reference: @ruser{Writing text}. @node Automatic and manual beams @subsection Automatic and manual beams @cindex beaming @cindex automatic beams @cindex manual beams @cindex beams, automatic @cindex beams, manual @cindex beams, by hand @funindex [ ... ] @funindex [ @funindex ] @funindex \autoBeamOff @funindex \autoBeamOn Music Glossary: @rglos{beam}. All @notation{beams} are drawn automatically: @lilypond[verbatim,quote] \relative { a'8 ais d ees r d c16 b a8 } @end lilypond If you do not like the automatic beams, they may be overridden manually. To correct just an occasional beam mark the first note to be beamed with @code{[} and the last one with @code{]}. @lilypond[verbatim,quote] \relative { a'8[ ais] d[ ees r d] c16 b a8 } @end lilypond If you want to turn off automatic beaming entirely or for an extended section of music, use the command @code{\autoBeamOff} to turn off automatic beaming and @code{\autoBeamOn} to turn it on again. @lilypond[verbatim,quote] \relative { \autoBeamOff a'8 c b4 d8. c16 b4 | \autoBeamOn a8 c b4 d8. c16 b4 | } @end lilypond @seealso Notation Reference: @ruser{Automatic beams}, @ruser{Manual beams}. @node Advanced rhythmic commands @subsection Advanced rhythmic commands @menu * Partial measure:: * Tuplets:: * Grace notes:: @end menu @node Partial measure @unnumberedsubsubsec Partial measure @cindex pickup @cindex anacrusis @cindex partial measure @funindex \partial Music Glossary: @rglos{anacrusis}. A pickup (or @notation{anacrusis}) is entered with the keyword @code{\partial}. It is followed by a duration: @code{\partial 4} is a quarter note pickup and @code{\partial 8} an eighth note. @lilypond[verbatim,quote] \relative { \partial 8 f''8 | c2 d | } @end lilypond @node Tuplets @unnumberedsubsubsec Tuplets @cindex tuplets @cindex triplets @funindex \tuplet Music Glossary: @rglos{note value}, @rglos{triplet}. @notation{Tuplets} are made with the @code{\tuplet} keyword. It takes two arguments: a fraction and a piece of music. The fraction is the number of tuplet notes over the number of notes normally filling the same duration. For triplets, there are three notes instead of two, so @notation{triplets} have 3/2 as their fraction. @lilypond[verbatim,quote] \relative { \tuplet 3/2 { f''8 g a } \tuplet 3/2 { c8 r c } \tuplet 3/2 { f,8 g16[ a g a] } \tuplet 3/2 { d4 a8 } } @end lilypond @node Grace notes @unnumberedsubsubsec Grace notes @cindex grace notes @cindex acciaccatura @cindex appoggiatura @funindex \grace @funindex \acciaccatura @funindex \appoggiatura @funindex acciaccatura Music Glossary: @rglos{grace notes}, @rglos{acciaccatura}, @rglos{appoggiatura}. @notation{Grace notes} are created with the @code{\grace} command, although they can also be created by prefixing a music expression with the keyword @code{\appoggiatura} or @code{\acciaccatura}: @lilypond[verbatim,quote] \relative { c''2 \grace { a32 b } c2 | c2 \appoggiatura b16 c2 | c2 \acciaccatura b16 c2 | } @end lilypond @seealso Notation Reference: @ruser{Grace notes}, @ruser{Tuplets}, @ruser{Upbeats}. @node Multiple notes at once @section Multiple notes at once This section introduces having more than one note at the same time: multiple instruments, multiple staves for a single instrument (i.e. piano), and chords. Polyphony in music refers to having more than one voice occurring in a piece of music. Polyphony in LilyPond refers to having more than one voice on the same staff. @menu * Music expressions explained:: * Multiple staves:: * Staff groups:: * Combining notes into chords:: * Single staff polyphony:: @end menu @node Music expressions explained @subsection Music expressions explained @cindex music expression @cindex expression, music @cindex compound music expression @cindex music expression, compound @menu * Analogy mathematical expressions:: * Simultaneous music expressions multiple staves:: * Simultaneous music expressions single staff:: @end menu In LilyPond input files, music is represented by @emph{music expressions}. A single note is a music expression: @lilypond[verbatim,quote,fragment] a'4 @end lilypond Enclosing a note in braces creates a @emph{compound music expression}. Here we have created a compound music expression with two notes: @lilypond[verbatim,quote] \relative { a'4 g4 } @end lilypond Putting a group of music expressions (e.g. notes) in braces means that they are in sequence (i.e. each one follows the previous one). The result is another music expression: @lilypond[verbatim,quote] \relative { { a'4 g } f4 g } @end lilypond @node Analogy mathematical expressions @unnumberedsubsubsec Analogy: mathematical expressions This mechanism is similar to mathematical formulas: a big formula is created by composing small formulas. Such formulas are called expressions, and they can contain other expressions, so you can make arbitrarily complex and large expressions. For example, @example 1 1 + 2 (1 + 2) * 3 ((1 + 2) * 3) / (4 * 5) @end example This is a sequence of expressions, where each expression is contained in the next (larger) one. The simplest expressions are numbers, and larger ones are made by combining expressions with operators (like @code{+}, @code{*} and @code{/}) and parentheses. Like mathematical expressions, music expressions can be nested arbitrarily deep, which is necessary for complex music like polyphonic scores. @node Simultaneous music expressions multiple staves @unnumberedsubsubsec Simultaneous music expressions: multiple staves @cindex multiple staves @cindex staves, multiple @cindex polyphony @cindex combining expressions in parallel @cindex parallel expressions @cindex expressions, parallel @cindex relative notes and simultaneous music @cindex relative notes and parallel expressions @cindex simultaneous music and relative notes @cindex parallel expressions and relative notes @funindex << @funindex >> @funindex << ... >> Music Glossary: @rglos{polyphony}. This technique is useful for @notation{polyphonic} music. To enter music with more voices or more staves, we combine expressions in parallel. To indicate that two voices should play at the same time, simply enter a simultaneous combination of music expressions. A @q{simultaneous} music expression is formed by enclosing expressions inside @code{<<} and @code{>>}. In the following example, three sequences (all containing two separate notes) are combined simultaneously: @lilypond[verbatim,quote] << \relative { a'2 g } \relative { f'2 e } \relative { d'2 b } >> @end lilypond Note that we have indented each level of the input with a different amount of space. LilyPond does not care how much (or little) space there is at the beginning of a line, but indenting LilyPond code like this makes it much easier for humans to read. @warning{each note is relative to the previous note in the input, only the first is relative to the @code{c''} in the initial @code{@bs{}relative} command.} @node Simultaneous music expressions single staff @unnumberedsubsubsec Simultaneous music expressions: single staff To determine the number of staves in a piece, LilyPond looks at the beginning of the first expression. If there is a single note, there is one staff; if there is a simultaneous expression, there is more than one staff. The following example shows a complex expression, but as it begins with a single note it will be set out on a single staff. @lilypond[verbatim,quote] \relative { c''2 <> | << { e2 f } { c2 <> } >> | } @end lilypond @node Multiple staves @subsection Multiple staves @cindex multiple staves @cindex staves, multiple @cindex context @cindex context, notation @cindex notation context @funindex \new Staff @funindex Staff @funindex \new @funindex Score @funindex Voice @funindex Lyrics @funindex ChordNames LilyPond input files are constructed out of music expressions, as we saw in @ref{Music expressions explained}. If the score begins with simultaneous music expressions, LilyPond creates multiples staves. However, it is easier to see what happens if we create each staff explicitly. To print more than one staff, each piece of music that makes up a staff is marked by adding @code{\new Staff} before it. These @code{Staff} elements are then combined in parallel with @code{<<} and @code{>>}: @lilypond[verbatim,quote] << \new Staff { \clef "treble" c''4 } \new Staff { \clef "bass" c4 } >> @end lilypond The command @code{\new} introduces a @q{notation context.} A notation context is an environment in which musical events (like notes or @code{\clef} commands) are interpreted. For simple pieces, such notation contexts are created automatically. For more complex pieces, it is best to mark contexts explicitly. There are several types of contexts. @code{Score}, @code{Staff}, and @code{Voice} handle melodic notation, while @code{Lyrics} sets lyric texts and @code{ChordNames} prints chord names. In terms of syntax, prepending @code{\new} to a music expression creates a bigger music expression. In this way it resembles the minus sign in mathematics. The formula @math{(4+5)} is an expression, so @math{-(4+5)} is a bigger expression. Time signatures entered in one staff affect all other staves by default. On the other hand, the key signature of one staff does @emph{not} affect other staves. This different default behavior is because scores with transposing instruments are more common than polyrhythmic scores. @lilypond[verbatim,quote] << \new Staff { \clef "treble" \key d \major \time 3/4 c''4 } \new Staff { \clef "bass" c4 } >> @end lilypond @node Staff groups @subsection Staff groups @cindex piano staff @cindex staff, piano @cindex choir staff @cindex staff, choir @cindex grand staff @cindex staff, grand @cindex staff group @funindex PianoStaff @funindex GrandStaff @funindex ChoirStaff Music Glossary: @rglos{brace}, @rglos{staff}, @rglos{system}. Piano music is typeset in two staves connected by a @notation{brace}. Printing such a staff is similar to the polyphonic example in @ref{Multiple staves}. However, now this entire expression is inserted inside a @code{PianoStaff}: @example \new PianoStaff << \new Staff @dots{} \new Staff @dots{} >> @end example Here is a small example: @lilypond[verbatim,quote] \new PianoStaff << \new Staff \relative { \time 2/4 c''4 e | g g, | } \new Staff \relative { \clef "bass" c4 c' | e c | } >> @end lilypond Other staff groupings are introduced with @code{\new GrandStaff}, suitable for orchestral scores, and @w{@code{\new ChoirStaff}}, suitable for vocal scores. These staff groups each form another type of context, one that generates the brace at the left end of every system and also controls the extent of bar lines. @seealso Notation Reference: @ruser{Keyboard and other multi-staff instruments}, @ruser{Displaying staves}. @node Combining notes into chords @subsection Combining notes into chords Music Glossary: @rglos{chord} @cindex chords @cindex note durations in chords @funindex < @funindex > @funindex < ... > We saw earlier how notes can be combined into @notation{chords} by indicating they are simultaneous by enclosing them in double angle brackets. However, the normal way of indicating a chord is to surround the pitches with @emph{single} angle brackets. Note that all the notes in a chord must have the same duration, and that the duration is placed after the closing bracket. @lilypond[verbatim,quote] \relative { r4 2 } @end lilypond Think of chords as almost equivalent to single notes: almost everything you can attach to a single note can be attached to a chord, and everything must go @emph{outside} the angle brackets. For example, you can combine markings like beams and ties with chords. They must be placed outside the angle brackets. @lilypond[verbatim,quote] \relative { r4 ~ 2 | 8[ ] 8\>[ ]\! | r4 8.\p 16( 4-. ) | } @end lilypond @seealso Notation Reference: @ruser{Chorded notes}. @node Single staff polyphony @subsection Single staff polyphony @cindex polyphony @cindex multiple voices @cindex voices, more on one staff @cindex single staff polyphony @cindex spacer rest @cindex rest, spacer @funindex << ... \\ ... >> @funindex << @funindex \\ @funindex >> Polyphonic music in lilypond, while not difficult, uses concepts that we haven't discussed yet, so we're not going to introduce them here. Instead, the following sections introduce these concepts and explain them thoroughly. @seealso Learning Manual: @ref{Voices contain music}. Notation Reference: @ruser{Simultaneous notes}. @node Songs @section Songs This section introduces vocal music and simple song sheets. @menu * Setting simple songs:: * Aligning lyrics to a melody:: * Lyrics to multiple staves:: @end menu @node Setting simple songs @subsection Setting simple songs @cindex lyrics @cindex songs @funindex \addlyrics Music Glossary: @rglos{lyrics}. Here is the start of the melody to a nursery rhyme, @notation{Girls and boys come out to play}: @lilypond[verbatim,quote] \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 } @end lilypond The @notation{lyrics} can be set to these notes, combining both with the @code{\addlyrics} keyword. Lyrics are entered by separating each syllable with a space. @lilypond[verbatim,quote] << \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 } \addlyrics { Girls and boys come out to play, } >> @end lilypond Note the double angle brackets @w{@code{<<@dots{}>>}} around the whole piece to show that the music and lyrics are to occur at the same time. @node Aligning lyrics to a melody @subsection Aligning lyrics to a melody @cindex melisma @cindex extender line @cindex hyphens @cindex underscore @cindex lyrics, aligning @cindex aligning lyrics @cindex lyrics, multi-syllable words @cindex words with multiple syllables in lyrics Music Glossary: @rglos{melisma}, @rglos{extender line}. The next line in the nursery rhyme is @notation{The moon doth shine as bright as day}. Let's extend it: @lilypond[verbatim,quote] << \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 g8 | a4 b8 c b a | d4 b8 g4. | } \addlyrics { Girls and boys come out to play, The moon doth shine as bright as day; } >> @end lilypond Looking at the music, we see that the extra lyrics do not align properly with the notes. The word @notation{shine} should be sung on two notes, not one. This is called a @notation{melisma}, a single syllable sung to more than one note. There are several ways to spread a syllable over multiple notes, the simplest being to add a slur across them, for details, see @ref{Ties and slurs}: @lilypond[verbatim,quote] << \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 g8 | a4 b8 c( b) a | d4 b8 g4. | } \addlyrics { Girls and boys come out to play, The moon doth shine as bright as day; } >> @end lilypond The words now line up correctly with the notes, but the automatic beaming for the notes above @notation{shine as} does not look right. We can correct this by inserting manual beaming commands to override the automatic beaming here, for details, see @ref{Automatic and manual beams}. @lilypond[verbatim,quote] << \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 g8 | a4 b8 c([ b]) a | d4 b8 g4. | } \addlyrics { Girls and boys come out to play, The moon doth shine as bright as day; } >> @end lilypond As an alternative to using slurs, the melismata may be indicated in just the lyrics by using an underscore @code{_} for each note that should be included in the melisma: @lilypond[verbatim,quote] << \relative { \key g \major \time 6/8 d''4 b8 c4 a8 | d4 b8 g4 g8 | a4 b8 c[ b] a | d4 b8 g4. | } \addlyrics { Girls and boys come out to play, The moon doth shine _ as bright as day; } >> @end lilypond If a syllable extends over several notes or a single very long note an @notation{extender line} is usually drawn from the syllable extending under all the notes for that syllable. It is entered as two underscores @code{__}. Here is an example from the first three bars of @notation{Dido's Lament}, from Purcell's @notation{Dido and Æneas}: @lilypond[verbatim,quote] << \relative { \key g \minor \time 3/2 g'2 a bes | bes2( a) b2 | c4.( bes8 a4. g8 fis4.) g8 | fis1 } \addlyrics { When I am laid, am laid __ in earth, } >> @end lilypond None of the examples so far have involved words containing more than one syllable. Such words are usually split one syllable to a note, with hyphens between syllables. Such hyphens are entered as two dashes, resulting in a centered hyphen between the syllables. Here is an example showing this and everything we have learned so far about aligning lyrics to notes. @c no ragged-right here because otherwise the hyphens get lost, @c but the example is long enough to avoid looking strange. @lilypond[verbatim,quote,noragged-right] << \relative { \key g \major \time 3/4 \partial 4 d'4 | g4 g a8( b) | g4 g b8( c) | d4 d e | c2 } \addlyrics { A -- way in a __ man -- ger, no __ crib for a bed, } >> @end lilypond Some lyrics, especially those in Italian, require the opposite: setting more than one syllable to a single note. This is achieved by linking the syllables together with a single underscore @code{_} (with no spaces), or enclosing them in quotes. Here's an example from Rossini's @notation{Figaro}, where @notation{al} has to be sung on the same note as the @notation{go} of @notation{Largo} in Figaro's aria @notation{Largo al factotum}: @c no ragged-right here because otherwise the hyphens get lost, @c but the example is long enough to avoid looking strange. @lilypond[verbatim,quote,noragged-right] << \relative { \clef "bass" \key c \major \time 6/8 c'4.~ 8 d b | c8([ d]) b c d b | c8 } \addlyrics { Lar -- go_al fac -- to -- tum del -- la cit -- tà } >> @end lilypond @seealso Notation Reference: @ruser{Vocal music}. @node Lyrics to multiple staves @subsection Lyrics to multiple staves @cindex lyrics and multiple staves @cindex multiple staves and lyrics The simple approach using @code{\addlyrics} can be used for placing lyrics under more than one staff. Here is an example from Handel's @notation{Judas Maccabæus}: @lilypond[verbatim,quote] << \relative { \key f \major \time 6/8 \partial 8 c''8 | c8([ bes]) a a([ g]) f | f'4. b, | c4.~ 4 } \addlyrics { Let flee -- cy flocks the hills a -- dorn, __ } \relative { \key f \major \time 6/8 \partial 8 r8 | r4. r4 c'8 | a'8([ g]) f f([ e]) d | e8([ d]) c bes'4 } \addlyrics { Let flee -- cy flocks the hills a -- dorn, } >> @end lilypond Scores any more complex than this simple example are better produced by separating out the score structure from the notes and lyrics with variables. These are discussed in @ref{Organizing pieces with variables}. @seealso Notation Reference: @ruser{Vocal music}. @node Final touches @section Final touches This is the final section of the tutorial; it demonstrates how to add the final touches to simple pieces, and provides an introduction to the rest of the manual. @menu * Organizing pieces with variables:: * Adding titles:: * Absolute note names:: * After the tutorial:: @end menu @node Organizing pieces with variables @subsection Organizing pieces with variables @cindex variables @cindex variables, defining @cindex identifiers @cindex macros @cindex assigning variables @cindex using variables @cindex variables, using @cindex variables, characters allowed in @cindex characters allowed in variables When all of the elements discussed earlier are combined to produce larger files, the music expressions get a lot bigger. In polyphonic music with many staves, the input files can become very confusing. We can reduce this confusion by using @emph{variables}. With variables (also known as identifiers or macros), we can break up complex music expressions. A variable is assigned as follows: @example namedMusic = @{ @dots{} @} @end example The contents of the music expression @code{namedMusic} can be used later by placing a backslash in front of the name (@code{\namedMusic}, just like a normal LilyPond command). @lilypond[verbatim,quote] violin = \new Staff { \relative { a'4 b c b } } cello = \new Staff { \relative { \clef "bass" e2 d } } { << \violin \cello >> } @end lilypond @noindent By convention, variable names consist of alphabetic characters only. Variables must be defined @emph{before} the main music expression, but may be used as many times as required anywhere after they have been defined. They may even be used in a later definition of another variable, giving a way of shortening the input if a section of music is repeated many times. @lilypond[verbatim,quote] tripletA = \relative { \tuplet 3/2 { c'8 e g } } barA = { \tripletA \tripletA \tripletA \tripletA } { \barA \barA } @end lilypond Variables may be used for many other types of objects in the input. For example, @example myWidth = 60 % a number to pass to a \paper variable (the unit is millimeter) myName = "Wendy" % a string to pass to a markup aFivePaper = \paper @{ #(set-paper-size "a5") @} @end example Depending on its contents, the variable can be used in different places. The following example uses the above variables: @example \paper @{ \aFivePaper line-width = \myWidth @} @{ c4^\myName @} @end example @node Adding titles @subsection Adding titles @cindex title @cindex headers @cindex header block @funindex \header The title, composer, opus number, and similar information are entered in the @code{\header} block. This exists outside of the main music expression; the @code{\header} block is usually placed underneath the version number. @example \version @w{"@version{}"} \header @{ title = "Symphony" composer = "Me" opus = "Op. 9" @} @{ @dots{} music @dots{} @} @end example When the file is processed, the title and composer are printed above the music. More information on titling can be found in @ruser{Creating titles headers and footers}. @node Absolute note names @subsection Absolute note names @cindex note names @cindex note names, absolute @cindex absolute mode @cindex absolute values for pitches @cindex pitches, absolute values @cindex absolute note names So far we have used @code{\relative} to define pitches. This is usually the fastest way to enter most music. Without @code{\relative}, pitches are interpreted in absolute mode. In this mode, LilyPond treats all pitches as absolute values. A @code{c'} will always mean middle@tie{}C, a @code{b} will always mean the note one step below middle@tie{}C, and a @code{g,} will always mean the note on the bottom staff of the bass clef. @lilypond[verbatim,quote] { \clef "bass" c'4 b g, g, | g,4 f, f c' | } @end lilypond Writing a melody in the treble clef involves a lot of quote @code{'} marks. Consider this fragment from Mozart: @lilypond[verbatim,quote] { \key a \major \time 6/8 cis''8. d''16 cis''8 e''4 e''8 | b'8. cis''16 b'8 d''4 d''8 | } @end lilypond @funindex \fixed Common octave marks can be indicated just once, using the command @code{\fixed} followed by a reference pitch: @lilypond[verbatim,quote] \fixed c'' { \key a \major \time 6/8 cis8. d16 cis8 e4 e8 | b,8. cis16 b,8 d4 d8 | } @end lilypond With @code{\relative}, the previous example needs no octave marks because this melody moves in steps no larger than three staff positions: @lilypond[verbatim,quote] \relative { \key a \major \time 6/8 cis''8. d16 cis8 e4 e8 | b8. cis16 b8 d4 d8 | } @end lilypond If you make a mistake with an octave mark (@code{'} or @code{,}) while working in @code{\relative} mode, it is very obvious -- many notes will be in the wrong octave. When working in absolute mode, a single mistake will not be as visible, and will not be as easy to find. However, absolute mode is useful for music which has large intervals, and is extremely useful for computer-generated LilyPond files. When cutting and pasting melody fragments, absolute mode preserves the original octave. Sometimes music is arranged in more complex ways. If you are using @code{\relative} inside of @code{\relative}, the outer and inner relative sections are independent: @lilypond[verbatim,quote] \relative { c'4 \relative { f'' g } c } @end lilypond To use absolute mode inside of @code{\relative}, put the absolute music inside @code{\fixed c @{ @dots{} @}} and the absolute pitches will not affect the octaves of the relative music: @lilypond[verbatim,quote] \relative { c'4 \fixed c { f'' g'' } c | c4 \fixed c'' { f g } c } @end lilypond @node After the tutorial @subsection After the tutorial After finishing the tutorial, you should probably try writing a piece or two. Start by adding notes to one of the @ref{Templates}. If you need any notation that was not covered in the tutorial, look at the Notation Reference, starting with @ruser{Musical notation}. If you want to write for an instrument ensemble that is not covered in the templates, take a look at @ref{Extending the templates}. Once you have written a few short pieces, read the rest of the Learning Manual (chapters 3-5). There's nothing wrong with reading it now, of course! However, the rest of the Learning Manual assumes that you are familiar with LilyPond input. You may wish to skim these chapters right now, and come back to them after you have more experience. In this tutorial and in the rest of the Learning Manual, there is a paragraph @strong{See also} at the end of each section, which contains cross-references to other sections: you should not follow these cross-references at first reading; when you have read all of the Learning Manual, you may want to read some sections again and follow cross-references for further reading. If you have not done so already, @emph{please} read @ref{Overview of manuals}. There is a lot of information about LilyPond, so newcomers often do not know where they should look for help. If you spend five minutes reading that section carefully, you might save yourself hours of frustration looking in the wrong places!