@c -*-texinfo-*-
-@c TODO: LilyPond Lilypond lilypond
+@c TODO: LilyPond LilyPond LilyPond
@node Tutorial
@chapter Tutorial
-
-LilyPond prints music from a specification that you, the user, supply.
-You have to give that specification using a textual @emph{language}.
-This chapter is a gentle introduction to that language.
-
-[rewrite]
-@c gentle?
-@c the first section is gentle
-@c the later sections get rather high-brow, deep, detailed, thorough
-
-This tutorial will demonstrate how to use Lilypond by presenting
-examples of input along with resulting output. We will use English
-terms for notation. In case you are not familiar with those, you may
-consult the glossary that is distributed with LilyPond.
+@html
+<!--- @@WEB-TITLE@@=Tutorial --->
+@end html
@menu
-* Music language of LilyPond::
-* Running LilyPond:: Getting started
-* The first tune:: The first tune
-* Lyrics and chords:: Lyrics and chords
-* More movements ::
+* First steps:: Music language of LilyPond
+* Running LilyPond:: Printing music
+* More basics::
+* Printing lyrics::
+* A melody with chords ::
+* More stanzas::
+* More movements :: Joining separate pieces of music
* A piano excerpt:: Piano music
-* An orchestral score::
-* Other ways to run LilyPond::
-* Integrating text and music::
-* end of tutorial:: The end
+* Fine tuning a piece::
+* An orchestral score:: Conductor's score and individual parts
+* Integrating text and music:: Integrating text and music
+* End of tutorial:: The end
@end menu
-@node Music language of LilyPond
-@section Music language of LilyPond
+Operating lilypond is done through text files: to print a piece of
+music, you enter the music in a file. When you run lilypond on that
+file, the program produces another file which contains sheet music that
+you can print or view.
+This tutorial starts with a small introduction to the LilyPond music
+language. After this first contact, we will show you how to run
+LilyPond to produce printed output; you should then be able to create
+your first sheets of music. The tutorial continues with more and more
+complex examples.
-simple notes
-@lilypond[verbatim, relative 1]
-a b c
-@end lilypond
+@node First steps
+@section First steps
-alterations
-@lilypond[verbatim, relative 0]
-fis as cisis beses
-@end lilypond
-
-durations
-@lilypond[verbatim, relative 1]
-a1 a2 a8 a4 a16 a8. a16
+We start off by showing how very simple music is entered in
+LilyPond: you get a note simply by typing its note name, from
+@code{a} through @code{g}. So if you enter
+@quotation
+@example
+c d e f g a b
+@end example
+@end quotation
+then the result looks like this:
+@quotation
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\transpose c'' { c d e f g a b }
@end lilypond
+@end quotation
+@separate
-octaves: high quote, low quote (comma)
-@lilypond[verbatim, relative 1]
-c c, c''
-@end lilypond
+We will continue with this format: first we show a snippet of input,
+then the resulting output.
-@c normal use of LilyPond is \relative note entry
-@c so let's just show/explain that and make smart
-@c people look for non-\relative
+The length of a note is specified by adding a number, ``@code{1}'' for a
+whole note, ``@code{2}'' for a half note, and so on:
-lilypond chooses nearest note
-@lilypond[verbatim, relative 1]
-c f c g c
+@quotation
+@example
+a1 a2 a4 a16 a32
+@end example
+
+@c missing clef seems to raise more questions than actual pitch of notes,
+@c as these are snippets anyway
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+%\property Staff.Clef = \turnOff
+\transpose c'' { a1 a2 a4 a16 a32 }
+s16_" "
@end lilypond
+@end quotation
+@separate
-to go other way: add octaviation quote
-@lilypond[verbatim, relative 1]
-c f, c' g, c'
-@end lilypond
+If you don't specify a duration, the previous one is used:
+@quotation
+@example
+a4 a a2 a
+@end example
-rests and skips
-@lilypond[verbatim, relative 1]
-r2 s4 r4
+@c missing clef seems to raise more questions than actual pitch of notes,
+@c as these are snippets anyway
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+%\property Staff.Clef = \turnOff
+\transpose c'' { a a a2 a }
+s16_" "
@end lilypond
+@end quotation
+@separate
+A sharp (@texisharp{}) is made by adding ``@code{is}'', a flat
+(@texiflat{}) by adding ``@code{es}''. As you would expect, a
+double-sharp or double-flat is made by adding ``@code{isis}'' or
+``@code{eses}'':
-meter
-@c \time -> \meter ?
-@lilypond[verbatim, relative 1]
-\time 3/4 c c c | R1 * 3/4
-@end lilypond
+@quotation
+@example
+cis1 ees fisis aeses
+@end example
-key
-@lilypond[verbatim, relative 0]
-\key f \major es as bes
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\transpose c'' { cis1 ees fisis aeses }
+s16_" "
@end lilypond
+@end quotation
+@separate
-slur, tie, phrasing slur
-@lilypond[verbatim, relative 1]
-c\( ( ) d ~ d \) c
-@end lilypond
+Add a dot ``@code{.}'' after the duration to get a dotted note:
+@quotation
+@example
+a2. a4 a8. a16
+@end example
-simple chords
-@lilypond[verbatim, relative 1]
-<a c> <b d> <c e>
+@c missing clef seems to raise more questions than actual pitch of notes,
+@c as these are snippets anyway
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature \set #'transparent = ##t
+%\property Staff.Clef = \turnOff
+\transpose c'' { a2. a4 a8. a16 }
+s16_" "
@end lilypond
+@end quotation
+@separate
-suddenly lilypond gets really difficult:
-[explain about score -> \score and \notes]
+The meter (or time signature) can be set with the @code{\time} command:
-long chords; simultaneous music
-@lilypond[verbatim]
-% huh?
-% \singleLine
-% \paper { \singleLine }
-\paper { linewidth = -1.0 }
-\score {
- \context Staff \notes \relative c'' <
- { a b c }
- { c d e }
- >
-}
+@quotation
+@example
+\time 3/4
+\time 6/8
+\time 4/4
+@end example
+
+@c a clef here may lead to confusion
+@lilypond[fragment]
+\property Staff.Clef \set #'transparent = ##t
+\time 3/4
+s4_" "
+\time 6/8
+s4_" "
+\time 4/4
+s16_" "
@end lilypond
+@end quotation
+@separate
-@lilypond[verbatim]
-\paper { linewidth = -1.0 }
-\score {
- \context GrandStaff \notes \relative c' <
- { a' b c }
- { \clef bass c d e }
- >
-}
+The clef can be set using the ``@code{\clef}'' command:
+
+@c what is more common name treble or violin?
+@c in Dutch, its violin.
+@c in English its definately treble.
+@quotation
+@example
+\clef treble
+\clef bass
+\clef alto
+\clef tenor
+@end example
+
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\clef violin
+s4_" "
+\clef bass
+s4_" "
+\clef alto
+s4_" "
+\clef tenor
+s16_" "
@end lilypond
+@end quotation
+@separate
+@c From these commands and notes, a piece of music can be formed. A piece
+@c of music is made by enclosing it in ``@code{\notes @{ ... @}}''.
+@c rephrased:
+With these commands you can now write a piece of music. The next step
+is to enclose your music inside ``@code{\notes @{ .. @}}''.
+This lets LilyPond know that music (and not lyrics, for example) follows:
-@node Running LilyPond
-@section Running LilyPond
+@quotation
+@example
+\notes @{
+ \time 3/4
+ \clef bass
+ c2 e4 g2.
+ f4 e d c2.
+@}
+@end example
+@end quotation
+@separate
-Before we dive into describing the input language of LilyPond, we first
-show you through the procedure for getting notes on your screen and out
-of your printer.
+Now the piece of music is almost ready to be printed. The final step is to
+combine the music with a printing command.
-The first step is creating an input file. Using your favorite
-text-editor, create @file{test.ly} containing
+The printing command is the so-called ``@code{\paper}'' block. Later on
+you will see that the @code{\paper} block is used to customize
+printing specifics. The music and the @code{\paper} block are combined by
+enclosing them in ``@code{\score @{ ... @}}''. This is what a full
+LilyPond source file looks like:
-@ignore
+@quotation
+@example
+\score @{
+ \notes @{
+ \time 3/4
+ \clef bass
+ c2 e4 g2.
+ f4 e d c2.
+ @}
+ \paper @{ @}
+@}
+@end example
-NOTE: if you're reading this, ie, the Texinfo source itself, test.ly
-should of course contain:
+@lilypond
+\score {
+ \notes {
+ \time 3/4
+ \clef bass
+ c2 e4 g2.
+ f4 e d c2.
+ }
+ \paper { linewidth = 60 * \staffspace }
+}
+@end lilypond
+@end quotation
+@separate
- \score{
- \notes { c'4 e' g' }
- }
-@end ignore
+@node Running LilyPond
+@section Running LilyPond
+In the last section we explained what kind of things you could enter
+in a lilypond file. In this section we explain how to run LilyPond
+and how view or print the output. If you have not used LilyPond
+before, want to test your setup of LilyPond, or want to run an example
+file yourself, read this section. Most of the instructions that follow
+are for running LilyPond on Unix-like systems. Some additional
+instructions for running LilyPond on Windows are given at the end of
+this section.
+
+Begin by opening a terminal window and starting a text editor.
+For example, you could open an xterm and execute @code{joe}. In your
+text editor, enter the following input and save the file as
+@file{test.ly}:
+
+@quotation
@example
\score @{
\notes @{ c'4 e' g' @}
@}
@end example
+@end quotation
-@unnumberedsubsec Unix
-@cindex Unix, Running lilypond on
@cindex ly2dvi
-On unix, you invoke ly2dvi to compile your lilypond source file (you can
-omit the @code{.ly}):
+@c now this is weird, running ly2dvi to run LilyPond
+@c (therefore name change proposal)
+
+LilyPond is the program that computes the sheet music. All other
+things, such as adding titles, page breaking and other page layout,
+are done by a small wrapper program called
+@code{ly2dvi}. @code{ly2dvi} calls lilypond to render the music, and
+then adds the titling and page layout instructions. To process
+@file{test.ly} with ly2dvi, proceed as follows:
+@quotation
@example
-ly2dvi -P test
+ly2dvi -P test.ly
@end example
+@end quotation
You will see the following on your screen:
+@quotation
@example
-GNU LilyPond 1.3.145
+GNU LilyPond 1.6.0
Now processing: `/home/fred/ly/test.ly'
Parsing...
Interpreting music...[1]
-Preprocessing elements...
-Calculating column positions... [2]
-paper output to test.tex...
-
-Analyzing test.tex...
-Running LaTeX...
-Running dvips...
-PS output to test.ps...
-DVI output to test.dvi...
+ @emph{ ... more interesting stuff ... }
+PS output to `test.ps'...
+DVI output to `test.dvi'...
@end example
-
-The results of the ly2dvi run are a ``DeVice Independent'' file
-(@file{test.dvi}) and a PostScript file (@file{test.ps}).
-
+@end quotation
@cindex DVI file
-
@cindex Viewing music
@cindex xdvi
-@cindex .dvi
-
-To view the @code{test.dvi} output, run Xdvi (you may omit the
-@code{.dvi}):
+The results of the ly2dvi run are two files, @file{test.dvi} and
+@file{test.ps}. The PS file (@file{test.ps}) is the one you can print.
+You can view the PS file using the program ghostview. If a version of
+ghostview is installed on your system, one of these commands will
+produce a window with some music notation on your screen:
+@c eeek
+@quotation
@example
-xdvi test
+ gv test.ps
+ ghostview test.ps
+ ggv test.ps
+ kghostview test.ps
@end example
+@end quotation
+If the music on your screen looks good, you can print it by clicking
+File/Print inside ghostview.
-@c FIXME: should we say anything on xdvi-gs interaction?
+The DVI file (@file{test.dvi}) contains the same sheet music in a
+different format. DVI files are more easily processed by the computer,
+so viewing them usually is quicker. You can run @code{xdvi test.dvi} or
+@code{kdvi test.dvi} to view the DVI file. In Xdvi, the mouse buttons
+activate magnifying glasses. Unfortunately, variable symbols (such as
+beams and slurs) are not displayed in the magnifying glasses.
-You should see the following in a window next to some buttons.
-@lilypond
-\score {
- \notes { c'4 e' g' }
-}
-@end lilypond
+If your DVI viewer does not have a "Print" button, you can print the
+file by executing @code{lpr test.ps}.
-When you're satisfied with the result, you can print the
-PostScript file:
+@c volgende alinea schrappen?
-@example
-lpr test.ps
-@end example
-If this does not make your printer produce a page of music, you should
-look into installing and configuring ghostscript. Refer to
+If your system does not support printing PostScript files, then you
+can install GhostScript, a PostScript emulator. Refer to
GhostScript's website at @uref{http://www.ghostscript.com}.
+
@cindex GhostScript
@cindex @code{lpr}
@cindex Printing output
-
@cindex PostScript
-@cindex .ps
+@cindex PDF
+
+A final option is to use the popular PDF format. You can get a PDF
+file by running @code{ly2dvi --pdf test.ly}. With @code{--pdf}
+you will get DVI, PS and PDF files. Viewers for PS files also
+accept PDF files, but there are also many other applications for
+viewing PDF files.
+
+If you are familiar with @TeX{}, be warned: do not use other
+DVI drivers like @code{dvilj}. The @TeX{} coming out of LilyPond
+uses embedded PostScript code and will not render correctly if
+you use anything other than @code{dvips}.
+
+@cindex dvips
+@cindex dvilj
+@cindex DVI driver
+
+@unnumberedsubsec Windows users
+Windows users can start the terminal by clicking on the LilyPond or
+Cygwin icons. You can use any text editor (such as Notepad) to edit
+the LilyPond file. Viewing the PS file can be done with:
+@quotation
+@example
+@code{gsview32 test.ps}
+@end example
+@end quotation
+You can also print from the command line by executing:
+@quotation
+@example
+@code{gsview32 /s test.ps}
+@end example
+@end quotation
-@unnumberedsubsec Windows
+@strong{SUMMARY}
+To run LilyPond, input a text file, then run the command @code{ly2dvi} on
+that file. The resulting files are either DVI or PostScript, and can
+be viewed with @code{xdvi} (unix) and ghostview (unix and windows)
+respectively. The following table summarizes the constructs that were
+discussed in the previous two sections.
-On windows, you open a LilyPond shell, and then you invoke ly2dvi
-compile your lilypond source file, just like on Unix:
+@multitable @columnfractions .3 .3 .4
-@example
-ly2dvi -P test
-@end example
+@item @b{Syntax}
+@tab @b{Description}
+@tab @b{Example}
-You will see the following on your screen:
+@item @code{1 2 8 16}
+@tab durations
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+c1 c2 c8 c16
+@end lilypond
-@c FIXME: leave this out, just refer to unix section?
-@c FIXME: commands run in dos shell: we can't redirect output
-@example
-GNU LilyPond 1.3.150
-Now processing: `/home/tim/ly/test.ly'
-Parsing...
-Interpreting music...[1]
-Preprocessing elements...
-Calculating column positions... [2]
-paper output to test.tex...
-
-This is TeX, Version 3.14159 (MiKTeX 2)
-LaTeX2e <2000/06/01>
-Babel <v3.6Z> and hyphenation patterns for english, french, german, ngerman, du
-mylang, nohyphenation, loaded.
-
-(test.latex (C:\cygwin\usr\windows\MiKTeX\tex\latex\base\article.cls
-Document Class: article 2000/05/19 v1.4b Standard LaTeX document class
-(C:\cygwin\usr\windows\MiKTeX\tex\latex\base\size10.clo))
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\geometry.sty
-(C:\cygwin\usr\windows\MiKTeX\tex\latex\graphics\keyval.sty))
-(C:\cygwin\usr\windows\MiKTeX\tex\latex\base\inputenc.sty
-(C:\cygwin\usr\windows\MiKTeX\tex\latex\base\latin1.def))
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\titledefs.tex)
-No file test.aux.
-(test.tex
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\lilyponddefs.tex
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\lilypond-latex.tex
-LaTeX definitions)
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\feta20.tex)
-(C:\cygwin\usr\lilypond-1.3.150.jcn2\share\lilypond\tex\lily-ps-defs.tex)
-[footer empty]))
-Overfull \hbox (15.0pt too wide) in paragraph at lines 20--24
-[] $[]$
-
-Overfull \vbox (0.7539pt too high) has occurred while \output is active
-[1] (test.aux) )
-(see the transcript file for additional information)
-Output written on test.dvi (1 page, 4292 bytes).
-Transcript written on test.log.
-This is dvips(k) 5.86 Copyright 1999 Radical Eye Software (www.radicaleye.com)
-' TeX output 2001.04.25:0015' -> test.ps
-<texc.pro><special.pro>. [1]
-Running LilyPond...
-Analyzing test.tex...
-PS output to test.ps...
-DVI output to test.dvi...
-@end example
-
-To view the @code{test.dvi} output, run Yap
-
-@example
-yap test
-@end example
-
-You should see the following in a window
-@lilypond
-\score {
- \notes { c'4 e' g' }
-}
+@item @code{. ..}
+@tab augmentation dots
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.Clef = \turnOff
+c4. c4..
@end lilypond
-@c FIXME: talk about newer Yap versions, proper gs installation?
-When you're satisfied with the result, you can print from within Yap
-(File/Print). Note that Yap may not display embedded PostScript symbols
-such as beams and slurs. Don't worry, they'll be printed anyway.
+@item @code{c d e f g a b }
+@tab scale
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.Clef = \turnOff
+c d e f g a b
+@end lilypond
-You can also print the PostScript file directly from the
-command line using GSview:
+@item @code{\clef treble \clef bass }
+@tab clefs
+@tab
+@lilypond[fragment]
+\property Staff.TimeSignature \set #'transparent = ##t
+\clef treble
+s4_" "
+\clef bass
+s4_" "
+@end lilypond
+
+@item @code{\time 3/4 \time 4/4 }
+@tab time signature
+@tab
+@lilypond[fragment]
+\property Staff.Clef \set #'transparent = ##t
+\time 3/4
+s4_" "
+\time 4/4
+s16_" "
+@end lilypond
+@end multitable
+
+
+@node More basics
+@section More basics
+
+We continue with the introduction of the remaining musical constructs.
+Normal rests are entered just like notes, but use the name
+``@code{r}'':
+
+@quotation
@example
-gsview32 /s test.ps
+r2 r4 r8 r16
@end example
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.Clef = \turnOff
+\property Staff.TimeSignature = \turnOff
+r2 r4 r8 r16
+s16_" "
+@end lilypond
+@end quotation
+@separate
+@c Tim wants to move this quotes example just before the: quotes-don't-work
+@c score, but we'd need to remove quotes from the other two (key and
+@c tie) examples...
-@node The first tune
-@section The first tune
+@c better to have this just before the `octaves are bad' snipped
+@c but we'd need to remove the ', from \key and tie
+To raise a note by an octave, add a high quote @code{'} (apostrophe) to
+the note name, to lower a note one octave, add a ``low quote'' @code{,}
+(a comma). Middle C is @code{c'}:
+@quotation
+@example
+c'4 c'' c''' \clef bass c c,
+@end example
-@cindex examples, tutorial
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+c'4 c'' c''' \clef bass c c,
+@end lilypond
+@end quotation
+@separate
-The examples discussed are included in the distribution, in the
-subdirectory @file{input/tutorial/}@footnote{When we refer
-to filenames, they are relative to the top directory of the source
-package. In binary installations you should look in your doc section,
-eg, @code{/usr/share/doc/lilypond1.3/examples/input/tutorial}
-@cindex file names
-}. We recommend that you experiment with writing Lilypond input
-yourself, to get a feel for how the program behaves.
+A tie is created by entering a tilde ``@code{~}'' between the notes to
+be tied. A tie between two notes means that the second note must not be
+played separately; it just makes the first note sound longer:
+@quotation
+@lilypond[fragment,verbatim]
+g'4 ~ g' a'2 ~ a'4
+@end lilypond
+@end quotation
+@separate
+The key signature is set with the command ``@code{\key}'':
+@quotation
+@example
+\key d \major
+g'1
+\key c \minor
+g'
+@end example
+
+@lilypond[fragment]
+\property Staff.TimeSignature = \turnOff
+\key d \major
+g'1
+\key c \minor
+g'
+@end lilypond
+@end quotation
-To demonstrate what LilyPond input looks like, we start off with a
-full-fledged, yet simple example. It is a convoluted version
-of the famous minuet in J. S. Bach's @emph{Klavierb@"uchlein}. The file
-is included in the distribution as @file{minuet.ly}.
-@cindex Bach, Johann Sebastian
-@lilypond[verbatim]
-% all text after a percent sign is a comment
-% and is ignored by Lilypond
-\include "paper16.ly"
-\score {
- \notes
- \relative c'' \sequential {
- \time 3/4
- \key g \major
-
- \repeat "volta" 2 {
- d4 g,8 a b c d4 g, g |
- e'4 c8 d e fis g4 g, g |
- c4 d8( )c b a( )b4 c8 b a g |
- a4 [b8 a] [g fis] g2. |
- }
+@c bit on the long/complex/scary taste
+@c cheating a bit: two lines makes for a friendlier look
+This example shows notes, ties, octave marks, and rests in action.
- b'4 g8 a b g
- a4 d,8 e fis d |
- g4 e8 fis g d cis4 b8 cis a4 |
- a8-. b-. cis-. d-. e-. fis-.
- g4 fis e |
- fis a, r8 cis8
- d2.-\fermata
- \bar "|."
- }
- \paper {
- % standard settings are too wide for a book
- linewidth = 14.0 \cm
- }
+@quotation
+@example
+\score @{
+ \notes @{
+ \time 4/4
+ \key d \minor
+ \clef violin
+ r4 r8 d''8 cis''4 e''
+ d''8 a'4. ~ a' b'8
+ cis''4 cis''8 cis'' bis'4 d''8 cis'' ~
+ cis''2 r2
+ @}
+ \paper @{ @}
+@}
+@end example
+
+@lilypond
+\score {
+ \notes {
+ \time 4/4
+ \clef violin
+ \key d \minor
+ r4 r8 d''8 cis''4 e''
+ d''8 a'4. ~ a' b'8
+ cis''4 cis''8 cis'' bis'4 d''8 cis'' ~
+ cis''2 r2
+ }
+ \paper { linewidth = 50*\staffspace }
}
@end lilypond
-
-We will analyse the input, line by line.
-@separate
+@end quotation
+
+@c accidentals...
+There are some interesting points to note in this example.
+Accidentals (sharps and flats) don't have to be marked explicitly: you
+just enter the note name, and LilyPond determines whether or not to
+print an accidental. Bar lines and beams are drawn automatically.
+LilyPond calculates line breaks for you; it doesn't matter where you
+make new lines in the source file. Finally, the order of time, key and
+clef changes is not relevant: lilypond will use standard notation
+conventions for ordering these items.
+
+The example also indicates that a piece of music written in a high
+register needs lots of quotes. This makes the input less readable,
+and is therefore also a potential source of errors.
+
+The solution is to use ``relative octave'' mode. In practice, this is
+the most convenient way to copy existing music. To use relative mode,
+add @code{\relative} before the piece of music. You must also give a
+note from which relative starts, in this case @code{c''}. If you don't
+use octavation quotes (ie don't add ' or , after a note), relative mode
+chooses the note that is closest to the previous one. Since most music
+has small intervals, you can write quite a lot in relative mode without
+using octavation quotes.
+@c don't use commas or quotes in this sentence
+For example: @code{c f} goes up; @code{c g} goes down:
+
+@quotation
@example
- % all text after a percent sign is a comment
- % and is ignored by Lilypond
-@end example
-The percent sign, @code{%}, introduces a line comment. You can also
-comment out a block of several lines, by enclosing them in
-@code{%@{} and @code{%@}}.
-@cindex comment
-@cindex block comment
-@cindex line comment
-@separate
-@example
-
- \include "paper16.ly"
-
+\relative c'' @{
+ c f c g c
+@}
@end example
-@cindex @code{\include}
-@cindex point, printer's
-@cindex staff size setting
-By default, LilyPond will typeset the music in a size such that each
-staff is 20 point@footnote{A point is the standard measure of length for
-printing; one point is 1/72.27 inch.} high. We want smaller
-output (16 point staff height), so we must import the settings for that
-size, which is done here.
-@separate
-@example
- \score @{
-
-@end example
-Music is printed by combining a piece of music with directions for
-outputting it. This combination is formed in the @code{\score} block.
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\relative c'' {
+ c f c g c
+}
+@end lilypond
+@end quotation
@separate
-@example
- \notes
-
-@end example
-Prepare LilyPond for accepting notes.
-@cindex octaves, choosing
-@cindex pitch
-@separate
-@example
- \relative c''
-
+@c needed better, maybe even redundant explanation
+@c added another example below.
+@c grappig: Pa vond het heel logies, en slim toen-i eenmaal begreep.
+@c in eerste instantie drong het `relative' niet door zonder extra uitleg.
+You can make larger intervals by adding octavation quotes. Note that
+quotes or commas do not determine the absolute height of a note;
+the height of a note is relative to the previous one.
+@c don't use commas or quotes in this sentence
+For example: @code{c f,} goes down; @code{f, f} are both the same;
+@code{c c'} are the same; and @code{c g'} goes up:
+
+@quotation
+@example
+\relative c'' @{
+ c f, f c' c g' c,
+@}
@end example
-@cindex relative
-As we will see, each note is described by its note name, duration,
-octave and possibly a chromatic alteration. In this setup, the octave
-is indicated by using high quotes (@code{'}) and ``lowered quotes''
-(commas: @code{,}). The central C is denoted by @code{c'}. The C one
-octave higher is @code{c''}. One and two octaves below the central C is
-denoted by @code{c} and @code{c,} respectively.
-
-Even though a piece of music often spans a range of several octaves, it
-mostly moves in small intervals. LilyPond has a special entry mode to
-save typing in this situation. In this ``relative'' octave mode,
-octaves of notes without quotes are chosen such that a note is as close
-as possible (graphically, on the staff) to the preceding note. If you
-add a high-quote an extra octave is added. A lowered quote (a comma)
-will subtract an extra octave.
-
-Because the first note has no predecessor,
-you have to give the (absolute) pitch of the note to start with.
-@separate
-@example
- \sequential @{
-
-@end example
-What follows is sequential music, i.e.,
-@cindex sequential music
-notes that are to be played and printed after each other.
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\relative c'' {
+ c f, f c' c g' c,
+}
+@end lilypond
+@end quotation
@separate
-@example
- \time 3/4
-
+
+Here's an example of the difference between relative mode and
+``normal'' (non-relative) mode:
+
+@quotation
+@example
+\relative a @{
+\clef bass
+ a d a e d c' d'
+@}
@end example
-@cindex time signature, setting
-@cindex @code{\time}
-Set (or change) the time signature of the current piece: a 3/4 sign is
-printed. The time signature setting is also used to generate bar lines
-at the right spots.
+
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\relative a {
+\clef bass
+ a d a e d c' d'
+}
+@end lilypond
+@end quotation
@separate
-@example
- \key g \major
-
+@quotation
+@example
+\clef bass
+ a d a e d c' d'
@end example
-@cindex key signature, setting
-@cindex @code{\key}
-Set (or change) the current key signature to G-major. Although in this
-example, the @code{\key} command happened to be entered after the
-@code{\time} command, in the output the time signature will be printed
-after the key signature; LilyPond knows about music typesetting
-conventions.
-@separate
-@example
- \repeat "volta" 2
-
-@end example
-The following piece of music is played twice. The first argument
-indicates the type of repeat. In this case, @code{"volta"} means that
-prima volta/secunda volta brackets are used for the alternative
-endings---if there were any.
+@lilypond[fragment]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\clef bass
+ a d a e d c' d'
+@end lilypond
+@end quotation
@separate
-@example
- @{
-
-@end example
-The subject of the repeat is again sequential music. Since
-@code{\sequential} is such a common construct, a shorthand is provided:
-just leave off @code{\sequential}, and the result is the same.
+@strong{SUMMARY}
+
+The following table summarizes the syntax learned so far in this section.
+
+@multitable @columnfractions .3 .3 .4
+
+@item @b{Syntax}
+@tab @b{Description}
+@tab @b{Example}
+
+@item @code{r4 r8}
+@tab rest
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.Clef = \turnOff
+r4 r8
+@end lilypond
+
+
+@item @code{~}
+@tab tie
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+d ~ d
+@end lilypond
+
+
+@item @code{\key es \major }
+@tab key signature
+@tab
+@lilypond[fragment]
+\property Staff.TimeSignature \set #'transparent = ##t
+\clef treble
+\key es \major
+s4
+@end lilypond
+
+@item @code{'}
+@tab raise octave
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+a a'
+@end lilypond
+
+@item @code{,}
+@tab lower octave
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+c c,
+@end lilypond
+
+@end multitable
+
+A slur is drawn across many notes, and indicates bound articulation
+(legato). The starting note and ending note are marked with a
+``@code{(}'' and a ``@code{)}'' respectively:
+
+@quotation
+@lilypond[fragment,relative 1, verbatim]
+d4( )c16( cis d e c cis d )e( )d4
+@end lilypond
+@end quotation
@separate
-@example
- d4 g,8
-
-@end example
-Two notes. The first note is a quarter note with relative pitch
-@code{d}. The relative music was started with a @code{c''}, so the real
-pitch of this note is @code{d''}. The duration of a note is designated
-by a number; the @code{4} here represents a quarter note.
+If you need two slurs at the same time (one for articulation, one for
+phrasing), you can also make a phrasing slur with @code{\(} and
+@code{\)}.
+
+@c lousy example
+@c ? --hwn
+@c fragment of 1st hrn in Adams' The Chairman Dances, with creative
+@c chromatic thing pasted in front. (admittedly the original doesn't
+@c have a phrasing slur. The problem is that we don't want the slur
+@c and the Phrasing slur to collide. We're trying to make a good
+@c impression here.
-The second note is an eight note with relative pitch @code{g,}. The
-pitch is taken relative to the previous @code{d''}, making this
-note have real pitch @code{g'}. The @code{8} represents an eight note.
+@quotation
+@lilypond[fragment,relative 1, verbatim]
+a8(\( ais b ) c cis2 b'2 a4 cis, \) c
+@end lilypond
+@end quotation
@separate
-@example
- a b
-
-@end example
-Two more notes, with pitch @code{a} and @code{b}. Because their
-duration is the same as the @code{g,8}, there is no need to enter the
-duration, but you may enter it anyway, i.e., @code{a4 b4}
+Beams are drawn automatically, but if you don't like the choices, you
+can enter beams by hand. Surround the notes to be grouped with @code{[}
+and @code{]}:
+@quotation
+@lilypond[fragment,relative 1, verbatim]
+[a8 ais] [d es r d]
+@end lilypond
+@end quotation
@separate
-@example
- d4 g, g |
-
-@end example
-@cindex bar check
-@cindex @code{|}
-@cindex errors, finding
-Three more notes. The @code{|} character is a ``bar check''. LilyPond
-will verify that bar checks are found at the start of a measure. This can
-help you track down typing errors.
+To print more than one staff, each piece of music that makes up a staff
+is marked by adding @code{\context Staff} before it. These
+@code{Staff}'s can be grouped inside @code{<} and @code{>}, as is
+demonstrated here:
-@cindex alteration, chromatic
-@cindex chromatic alteration
-@separate
-@example
+@quotation
+@lilypond[fragment,verbatim]
+<
+ \context Staff = staffA { \clef violin c'' }
+ \context Staff = staffB { \clef bass c }
+>
+@end lilypond
+@end quotation
- c8 d e fis
+In this example, @code{staffA} and @code{staffB} are names that are
+given to the staves. It doesn't matter what names you give, as long
+as each staff has a unique name.
-@end example
-So far, no notes were chromatically altered. Here is the first one that
-is: @code{fis}. Lilypond by default uses Dutch@footnote{Note names are
-available in several languages, but we find the Dutch names quite
-convenient.} note names, and ``Fis'' is the Dutch note name for ``F
-sharp''. However, there is no sharp sign in the output. The program
-keeps track of key signatures, and will only print accidentals if they
-are needed.
-
-For groups of eighth notes and shorter, LilyPond can determine how the
-notes should form a beam. In this case, the 4 eights are automatically
-printed as a beam.
@separate
-@example
- c4 d8( )c b a( )b4 c8 b a g |
-
-@end example
-The beginning and ending notes of a slur are marked with parentheses,
-@code{(} and @code{)} for start and end respectively. The line above
-indicates two slurs. These slur markers (parentheses) are entered
-between the slurred notes.
+We can typeset a melody with two staves now:
+
+@quotation
+@lilypond[verbatim,singleline]
+\score {
+ \notes
+ < \context Staff = staffA {
+ \time 3/4
+ \clef violin
+ \relative c'' { e2 ( d4 c2 b4 [a8 a] [b b] [g g] )a2. }
+ }
+ \context Staff = staffB {
+ \clef bass
+ c2 e4 g2.
+ f4 e d c2.
+ }
+ >
+ \paper {}
+}
+@end lilypond
+@end quotation
+
+Notice that the time signature is specified in one melody staff only
+(the top staff), but is printed on both. LilyPond knows that the time
+signature should be the same for all staves.
+
@separate
-@example
- a4 [b8 a] [g fis]
-
-@end example
-Automatic beaming can be overridden by inserting beam marks, @code{[}
-and @code{]}. These beam markers (brackets) are put around the notes
-you want beamed.
+Common accents can be added to a note using @code{-.}, @code{--}, @code{->}:
+@quotation
+@lilypond[verbatim,relative 1]
+c-. c-- c->
+@end lilypond
+@end quotation
@separate
-@example
- g2. |
-
-@end example
-@cindex augmentation dot
-@cindex dot
-A period adds an augmentation dot to the note.
+Dynamic signs are made by adding the markings to the note:
+@quotation
+@lilypond[verbatim,relative 1]
+c-\ff c-\mf
+@end lilypond
+@end quotation
@separate
-@example
- @}
-
-@end example
-The end of the sequential music to be repeated. LilyPond will typeset a
-repeat bar.
+Crescendi are started with the commands @code{\<} and @code{\>}. The
+command @code{\!} finishes a crescendo on the following note.
+@quotation
+@lilypond[verbatim,relative 1]
+c2\< \!c2-\ff \>c2 \!c2
+@end lilypond
+@end quotation
@separate
-@example
- cis'4 b8 cis a4 |
-
-@end example
-Accidentals are printed whenever necessary: the first C sharp of the bar
-will be printed with an accidental, the second one without.
+Chords can be made by surrounding notes with @code{<} and @code{>}:
+@quotation
+@lilypond[relative 0, fragment,verbatim]
+r4 <c e g> <c f a>
+@end lilypond
+@end quotation
@separate
-@example
- a8-. b-. cis-. d-. e-. fis-.
-
+@ignore
+@c te diepzinnig?
+@c hmm, te losjes, iig
+In general, @code{ < @var{stuff} > } is used when @var{stuff} all
+happens at the same time, like in chords, or (like in the two-staff
+example above) in a bunch of stacked staves.
+@end ignore
+
+You can combine beams and ties with chords. Notice that
+beam and tie markings must be placed outside the chord markers:
+@quotation
+@lilypond[relative 0, fragment,verbatim]
+r4 [<c8 e g> <c8 f a>] ~ <c8 f a>
+@end lilypond
+@end quotation
+
+When you want to combine chords with slurs and dynamics, technical
+detail crops up: you have type these commands next to the notes, which
+means that they have to be inside the @code{< >}. Don't get confused
+by the chord @code{< >} and the dynamic @code{\< \>}!
+
+
+@quotation
+@example
+r4 <c8 e g \> ( > <c e g> <c e g> < ) \! c8 f a>
@end example
-@cindex articulation
-You can enter articulation signs either in a verbose form or using a
-shorthand. Here we demonstrate the shorthand: it is formed by a dash
-and the character for the articulation to use, e.g. @code{-.} for
-staccato as shown above.
+@lilypond[relative 0, fragment]
+\slurUp
+r4 <c8 e g \> ( > <c e g> <c e g> < ) \! c8 f a>
+@end lilypond
+@end quotation
+@separate
+
+@c this example is a bit too strongly worded -- there's nothing wrong
+@c with starting a piece with a chord; you just have to be careful when
+@c you do so. I've rephrased this example below.
+@c There is one golden rule that you should keep in mind when writing
+@c LilyPond input:
+@c @quotation
+@c @strong{DO NOT START A PIECE WITH A CHORD}
+@c @end quotation
+@c Of course, it is a allowed, but the result might not be what you expect:
+
+@c rephrased "don't start with a chord"
+There is one caution when using chords: if you use a chord at the very
+beginning of the piece, LilyPond might not understand what you want:
+
+@quotation
+@lilypond[verbatim,singleline]
+\score { \notes <c'2 e'2> }
+@end lilypond
+@end quotation
@separate
-@example
- fis a, r8 cis8
-
-@end example
-
-Rests are denoted by the special notename @code{r}.
+If you have a piece that begins with a chord, you must explicitly
+state that the notes of the chord are to be put on the same staff, in
+the same voice. This is done by specifying @code{\context Staff} or
+@code{\context Voice} for the notes:
+
+@quotation
+@lilypond[verbatim,singleline]
+\score { \notes \context Voice <c'2 e'2> }
+@end lilypond
+@end quotation
@separate
+
+
+@strong{SUMMARY}
+
+@multitable @columnfractions .3 .3 .4
+
+@item @b{Syntax}
+@tab @b{Description}
+@tab @b{Example}
+
+
+@item @code{( )}
+@tab slur
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+c( d )e
+@end lilypond
+
+
+@item @code{\( \)}
+@tab phrasing slur
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+c\( c() d \)e
+@end lilypond
+
+
+@item @code{[ ]}
+@tab beam
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+[a8 b]
+@end lilypond
+
+
+@item @code{< \context Staff ... >}
+@tab more staffs
+@tab
+@lilypond[fragment]
+< \context Staff = SA { c'1 }
+ \context Staff = SB { c'1 } >
+@end lilypond
+
+
+@item @code{-> -.}
+@tab articulations
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.Clef = \turnOff
+c-> c-.
+@end lilypond
+
+
+@item @code{-\mf -\sfz}
+@tab dynamics
+@tab
+@lilypond[fragment, relative 1]
+\property Staff.TimeSignature = \turnOff
+\property Staff.Clef = \turnOff
+c-\mf c-\sfz
+@end lilypond
+
+
+@item @code{\< \!}
+@tab crescendo
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+a\< a \!a
+@end lilypond
+
+@item @code{\> \!}
+@tab decrescendo
+@tab
+@lilypond[fragment, relative 1]
+\property Score.timing = ##f
+\property Staff.TimeSignature = \turnOff
+\property Staff.autoBeaming = ##f
+\property Staff.Clef = \turnOff
+a\> a \!a
+@end lilypond
+
+
+@item @code{< >}
+@tab chord
+@tab
+@lilypond[fragment, relative 1]
+\context Voice <c e>
+@end lilypond
+
+@end multitable
+
+Now you know the basic ingredients of a music file, so this is the right
+moment to try your at hand at doing it yourself: try typing some
+simple examples, and experiment a little.
+
+When you're comfortable with the basics, you might want to read
+the rest of this chapter. It continues in tutorial-style, but it
+is much more in-depth, dealing with more advanced topics such as
+lyrics, chords, orchestral scores and parts, fine tuning of output,
+polyphonic music, and integrating text and music.
+
+
+
+
+
+@node Printing lyrics
+@section Printing lyrics
+@cindex lyrics
+
+In this section we shall explain how to typeset the following
+fragment of The Free Software Song:
+
+@lilypond[singleline]
+\score { \notes { \addlyrics
+ \notes \relative c' {
+ \time 7/4
+ d'2 c4 b16 ( a g a b a b ) c a2
+ b2 c4 b8 ( a16 g ) a4 g2 }
+ \context Lyrics \lyrics {
+ Join us now __ and
+ share the soft -- ware; }
+}
+\paper { linewidth = -1. }
+}
+@end lilypond
+
+
+@cindex lyric mode
+@cindex @code{\lyrics}
+
+
+To print lyrics, you must enter them, and then instruct lilypond to
+handle the lyrics by printing them.
+You can enter lyrics in a special input mode of LilyPond. This mode is
+called Lyrics mode, and it is introduced by the keyword @code{\lyrics}.
+The purpose of this mode is that you can enter lyrics as plain text,
+punctuation and accents without any hassle.
+
+Syllables are entered like notes, with pitches replaced by text. For
+example, @code{Twin- kle twin- kle} enters four syllables. Note that
+the hyphen has no special meaning for lyrics, and does not introduce
+special symbols.
+
+Spaces can be introduced into a lyric either by using quotes:
+@code{"He could"4 not4} or by using an underscore without quotes:
+@code{He_could4 not4}. All unquoted underscores are converted to
+spaces.
+
+These are the lyrics for the free software song:
+
@example
+ \lyrics @{
+ Join us now __ and
+ share the soft -- ware; @}
+@end example
+
+As you can see, extender lines are entered as @code{__}. This will
+create an extender, a line that extends over the entire duration of
+the lyric. This line will run all the way to the start of the next
+lyric, so you may want to shorten it by using a blank lyric (using
+@code{_}).
+
- d2.-\fermata
+If you can use have hyphens at the end of a syllable, i.e.
+@example
+ soft- ware
+@end example
+but then the hyphen will be attached to the to the end of the first
+syllable.
-@end example
-All articulations have a verbose form, like @code{\fermata}. The
-command @code{\fermata} is not part of the core of the language, but it
-is a shorthand for a more complicated description of a fermata symbol.
-@code{\fermata} names that description and is therefore called an
-identifier.
-@cindex identifier
-@cindex @code{\fermata}
-@separate
+If you want them centered between syllables you can use the special
+`@code{-}@code{-}' lyric as a separate word between syllables. The
+hyphen will have variable length depending on the space between
+syllables. It will be centered between the syllables.
+
+Normally, the notes that you enter are transformed into note heads.
+Note heads alone make no sense, they need surrounding information: a key
+signature, a clef, staff lines, etc. They need @emph{context}. In
+LilyPond, these symbols are created by objects called `interpretation
+contexts'. Interpretation contexts exist for generating notation
+(`notation context') and for generating sound (`performance
+context'). These objects only exist during a run of LilyPond.
+
+When LilyPond interprets music, it will create a Staff context.
+We don't want that default here, because we want lyric. The
+command
@example
- \bar "|."
- @}
-@end example
-Here the music ends. LilyPond does not automatically typeset and end
-bar, we must explicitely request one, using @code{"|."}.
+ \context Lyrics
+@end example
+explicitly creates an interpretation context of
+@code{Lyrics} type to interpret the song text that we entered.
-@separate
-@example
+The melody of the song doesn't offer anything new:
+@example
+ \notes \relative c' @{
+ \time 7/4
+ d'2 c4 b16 ( a g a b a b ) c a2
+ b2 c4 b8 ( a16 g ) a4 g2 @}
+@end example
- \paper @{
- linewidth = 14.0\cm
- @}
-
-@end example
-The @code{\paper} block specifies how entered music should be converted
-to notation output. Most of the details of the conversion (font sizes,
-dimensions, etc.) have been taken care of, but to fit the output in this
-document, it has to be narrower. We do this by setting the line width
-to 14 centimeters (approximately 5.5 inches).
-@separate
-@example
+Both can be combined with the @code{\addlyrics}:
+@example
+\addlyrics
+ \notes \relative c' @dots{}
+ \context Lyrics \lyrics @dots{}
+@end example
- @}
-
-@end example
-The last brace ends the @code{\score} block.
+The lyrics are also music expressions, similar to notes. What happens
+here, is that each syllable of the lyrics is put under the a note of
+the melody.
+The complete file is listed here:
+@example
+\score @{ \notes @{ \addlyrics
+ \notes \relative c' @{
+ \time 7/4
+ d'2 c4 b16 ( a g a b a b ) c a2
+ b2 c4 b8 ( a16 g ) a4 g2 @}
+ \context Lyrics \lyrics @{
+ Join us now __ and
+ share the soft -- ware; @}
+@}
+\paper @{ linewidth = -1. @}
+@}
+@end example
-@node Lyrics and chords
-@section Lyrics and chords
+@node A melody with chords
+@section A melody with chords
-In this section we show how to typeset a song. This file is
-included as @file{flowing.ly}.
+In this section we show how to typeset a melody with chord
+accompaniment. This file is included as @file{input/tutorial/flowing.ly}.
@example
-\header @{
- title = "The river is flowing"
- composer = "Traditional"
-@}
\include "paper16.ly"
melody = \notes \relative c' @{
\partial 8
\bar "|."
@}
-text = \lyrics @{
- The ri -- ver is flo- __ wing, flo -- wing and gro -- wing, the
- ri -- ver is flo -- wing down to the sea.
-@}
-
accompaniment =\chords @{
r8
c2:3- f:3-.7 d:min es4 c8:min r8
\simultaneous @{
%\accompaniment
\context ChordNames \accompaniment
-
- \addlyrics
\context Staff = mel @{
- \property Staff.noAutoBeaming = ##t
- \property Staff.automaticMelismata = ##t
\melody
@}
- \context Lyrics \text
+
@}
\midi @{ \tempo 4=72 @}
\paper @{ linewidth = 10.0\cm @}
@end example
-The result would look this.@footnote{The titling and font size shown
-may differ, since the titling in this document is not generated by
-@code{ly2dvi}.}
-
-@center @strong{The river is flowing}
-@center Traditional
+The result would look this.
@lilypond[center]
-\header {
- title = "The river is flowing"
- composer = "Traditional"
-}
\include "paper16.ly"
melody = \notes \relative c' {
\partial 8
\bar "|."
}
-text = \lyrics {
- The ri -- ver is flo- __ wing, flo -- wing and gro -- wing, the
- ri -- ver is flo -- wing down to the sea.
-}
-
accompaniment =\chords {
r8
c2:3- f:3-.7 d:min es4 c8:min r8
%\accompaniment
\context ChordNames \accompaniment
- \addlyrics
\context Staff = mel {
- \property Staff.noAutoBeaming = ##t
- \property Staff.automaticMelismata = ##t
- \melody
+ \property Staff.autoBeaming = ##f
+ \melody
}
- \context Lyrics \text
}
\midi { \tempo 4=72 }
\paper { linewidth = 10.0\cm }
@end lilypond
Again, we will dissect the file line by line.
-@separate
-@example
- \header @{
-
-@end example
-@cindex @code{\header}
-Information about the music you are about to typeset goes into a
-@code{\header} block. The information in this block is not used by
-LilyPond, but it is passed into the output. @file{ly2dvi} uses this
-information to print titles above the music.
-@separate
-@example
-
- title = "The river is flowing"
- composer = "Traditional (?)"
-@end example
-@cindex assignments
-@cindex identifier assignment
-the @code{\header} block contains assignments. In each assignment, a
-variable is set to a value. Lexically, both the variable name and the
-assigned value are strings. The values have to be quoted here, because
-they contain spaces, the variable names could also be put within quotes
-but it is not necessary.
@separate
@example
@cindex lyrics
@cindex identifier assignment
@cindex syllables, entering
-Another identifier assignment. This one is for the lyrics.
-Lyrics are formed by syllables that have duration, and not by
-notes. To make LilyPond parse words as syllables, switch it into
-lyrics mode with @code{\lyrics}. Again, the brace after @code{\lyrics}
-is a shorthand for @code{\sequential @{}.
-@separate
-@example
- The4 ri -- ver is flo- __ wing, flo -- wing and gro -- wing, the
- ri- ver is flo- __ wing down to the sea.
-@}
-
-@end example
-@cindex extenders, lyric
-@cindex hyphens, lyric
-The syllables themselves are separated by spaces. You can get syllable
-extenders by entering @code{__}, and centered hyphens with
-@code{-}@code{-}. We enter the syllables as if they are all quarter notes
-in length (hence the @code{4}), and use a feature to align the
-syllables to the music, which obviously isn't all quarter notes.
@separate
@example
@separate
@example
- c2:3- f:3-.7
+ c2:3-
@end example
@cindex tonic
@cindex chord modifier
@cindex modifier, chord
-A chord is started by the tonic of the chord. The
-first one lasts a half note. An unadorned note creates a major
-triad. Since a minor triad is wanted, @code{3-} is added to modify the
-third to be small. @code{7} modifies (adds) a seventh, which is small by
+This is a c minor chord, lasting half a note. Chord are entered by
+entering the tonic. Then notes can be changed. In this case, a small third
+is used. The cod for this is @code{3-}.
+
+@separate
+@example
+f:3-.7
+@end example
+Similarly, @code{7} modifies (adds) a seventh, which is small by
default to create the @code{f a c es} chord. Multiple modifiers must be
separated by dots.
@separate
d:min es4 c8:min r8
@end example
-
-Some modifiers have predefined names, eg. @code{min} is the same as
+Some modifiers have predefined names, e.g. @code{min} is the same as
@code{3-}, so @code{d-min} is a minor @code{d} chord.
@separate
@example
(`notation context') and for generating sound (`performance
context'). These objects only exist during a run of LilyPond.
-By default, LilyPond will create a Staff context for you. If you would
-remove the @code{%} sign in the previous line, you would see that
-mechanism in action.
+When LilyPond interprets music, it will create a Staff context. If
+the @code{%} sign in the previous line were removed, you could see
+that mechanism in action.
We don't want that default here, because we want chord names. The
command above explicitly creates an interpretation context of
@code{ChordNames} type to interpret the music @code{\accompaniment}.
-@separate
-@example
-
- \addlyrics
-
-@end example
-@cindex @code{\addlyrics}
-@cindex lyrics and melody, combining
-@cindex combining lyrics and melody
-The lyrics should be aligned with the melody. This is done by
-combining both with @code{\addlyrics}. @code{\addlyrics} takes two
-pieces of music (usually a melody and lyrics, in that order) and
-aligns the syllables of the second piece under the notes of the
-first piece. If you would reverse the order, the notes would be
-aligned on the lyrics, which is not very useful, and looks
-silly.
@separate
@example
@end example
-The second argument of @code{\addlyrics} is the melody. We instantiate
-a @code{Staff} context explicitly: should you choose to remove the
-comment before the ``note heads'' version of the accompaniment, the
-accompaniment will be on a nameless staff. The melody has to be on
-staff different from the accompaniment. This is accomplished by giving
-the melody and accompaniment staffs different names.
+We place the melody on a staff called @code{mel}. We give it a name to
+differentiate it from the one that would contain note heads for the
+chords, if you would remove the comment before the ``note heads''
+version of the accompaniment. By giving this staff a name, it is
+forced to be different.
@separate
@example
- \property Staff.noAutoBeaming = ##t
+ \property Staff.autoBeaming = ##f
@end example
@cindex \property
@cindex context variables
@cindex setting context variables
An interpretation context has variables, called properties, that tune
-its behaviour. One of the variables is @code{noAutoBeaming}. Setting
-this Staff's property to @code{##t}, which is the boolean value @var{true},
-turns the automatic beaming mechanism off for the current staff.
-@cindex GUILE
-@cindex Scheme
-@cindex accessing Scheme
-@cindex evaluating Scheme
-@cindex LISP
-
-LilyPond internally uses GUILE, a Scheme-interpreter. Scheme is a
-language from the LISP family. You can learn more about Scheme at
-@uref{http://www.scheme.org}. It is used to represent data throughout
-the whole program. The hash-sign (@code{#}) accesses GUILE directly: the
-code following the hash-sign is evaluated as Scheme. The boolean value
-@var{true} is @code{#t} in Scheme, so for LilyPond @var{true} looks like
-@code{##t}.
-
-If Scheme scares you, don't worry. You don't need to know Scheme to
-create beautiful sheet music.
-
+its behavior. One of the variables is @code{autoBeaming}. Setting
+this @code{Staff}'s property to @code{##f}, which is the boolean value
+@var{false}, turns the automatic beaming mechanism off for the current
+staff.
-@separate
-@example
-
- \property Staff.automaticMelismata = ##t
-
-@end example
-@cindex automaticMelismata
-@cindex melismata
-@cindex @code{\addlyrics} and slurs
-Similarly, we don't want to print a syllable when there is
-a slur. This sets up @code{\addlyrics} to not put lyrics under each
-separate note while there is a slur.
@separate
@example
@code{\property} directives and @code{\melody} are grouped in sequential
music, so the property settings are done before the melody is
processed.
-@separate
-@example
- \context Lyrics \text
-
-@end example
-The second argument of @code{\addlyrics} is the text. The text also
-should not land on a Staff, but on a interpretation context for
-syllables, extenders, hyphens etc. This context is called
-Lyrics.
@separate
@example
@end example
MIDI (Musical Instrument Digital Interface) is a standard for
connecting and recording digital instruments. So a MIDI file is like a
-tape recording of an instrument. The @code{\midi} block causes makes the
+tape recording of an instrument. The @code{\midi} block makes the
music go to a MIDI file, so you can listen to the music you entered. It
is great for checking the music. Whenever you hear something weird, you
probably hear a typing error.
We also want notation output. The linewidth is short so the piece
will be set in two lines.
-@node More movements
-@section More movements
-
-[FIXME: merge here with, or move this to: Other ways to run LilyPond]
-
-You probably ran @file{ly2dvi} on the last example, and ended up with a
-viewable @file{.dvi} file. However, between there are a few steps of
-which LilyPond is only one. To enhance your understanding of what's
-happening under the hood when you run @code{ly2dvi}, we explain what
-programs are run.
+@node More stanzas
+@section More stanzas
-@code{ly2dvi} is a program that calls a number of programs in sequence.
-The first thing it does, is running LilyPond on the input file. After
-some calculations, a @file{.tex} is produced. The contents
-of this file are very low-level instructions.
-For example, the following file (@file{miniatures.ly})
+@cindex phrasing
-@example
-\version "1.3.124"
-\header @{ title = "Two miniatures" @}
-
-#(set! point-and-click line-column-location)
+If you have multiple stanzas printed underneath each other, the vertical
+groups of syllables should be aligned around punctuation. LilyPond can
+do this if you tell it which lyric lines belong to which melody.
+We show how you can do this by showing how you could print a frivolous
+fragment of a fictional Sesame Street duet.
-\paper @{ linewidth = -1.0 @}
-
-\score @{
- \notes @{ c'4 d'4 @}
- \header @{
- opus = "Opus 1."
- piece = "Up" @}
-@}
-\score @{
- \notes @{ d'4 c'4 @}
- \header @{
- opus = "Opus 2."
- piece = "Down" @}
-@}
+@lilypond[singleline,verbatim]
+\score {
+\addlyrics
+ \notes \relative c'' \context Voice = duet { \time 3/4
+ g2 e4 a2 f4 g2. }
+ \lyrics \context Lyrics <
+ \context LyricsVoice = "duet-1" {
+ \property LyricsVoice . stanza = "Bert"
+ Hi, my name is bert. }
+ \context LyricsVoice = "duet-2" {
+ \property LyricsVoice . stanza = "Ernie"
+ Ooooo, ch\'e -- ri, je t'aime. }
+ >
+}
+@end lilypond
+
+To this end, give the Voice context an identity, and set the
+LyricsVoice to a name starting with that identity followed by a dash.
+In the following example, the Voice identity is @code{duet},
+@example
+\context Voice = duet @{
+ \time 3/4
+ g2 e4 a2 f4 g2. @}
+@end example
+and the
+identities of the LyricsVoices are @code{duet-1} and @code{duet-2}.
+@example
+ \context LyricsVoice = "duet-1" @{
+ Hi, my name is bert. @}
+ \context LyricsVoice = "duet-2" @{
+ Ooooo, ch\'e -- ri, je t'aime. @}
+@end example
+
+We add the names of the singers. This can be done by setting
+@code{LyricsVoice.Stanza} (for the first system) and
+@code{LyricsVoice.stz} for the following systems. Notice how you must
+surround dots with spaces in @code{\lyrics} mode.
+
+@example
+ \property LyricsVoice . stanza = "Bert"
+ @dots{}
+ \property LyricsVoice . stanza = "Ernie"
@end example
-The titling in this manual was not generated by ly2dvi, so we can't
-exactly show it would look, but the result should resemble this:
+The convention for naming @code{LyricsVoice} and @code{Voice} must
+also be used to get melismata on rests correct.
+
+
+
+@node More movements
+@section More movements
+
+LilyPond only handles formatting sheet music. It doesn't concern
+itself with producing titles. This is the jobs of a simple wrapper
+program called ly2dvi. @code{ly2dvi} calls LilyPond to do the
+sheet music formatting. Then it produces titles, and ties together all
+inputs into a single @file{dvi} file. In this section, we show some of
+the options for titling. We will show how you can produce a file
+that looks like this:
@center @strong{Two miniatures}
@flushright
}
@end lilypond
-This file is produced by ly2dvi in a few stages, with the help of text
-formatting tools. LilyPond produces two output files, @file{miniatures.tex}
-and @file{miniatures-1.tex}. They both look like this:
+For example, consider the following file (@file{miniatures.ly})
@example
- ...
- \placebox@{-5 \outputscale @}%
- @{ 8.7229 \outputscale @}%
- @{\magfontWXGEomMMBo\char90 @}%
-
- \placebox@{-4 \outputscale @}%
- @{ 81.0647 \outputscale @}%
- ...
-@end example
+\version "1.5.60"
+\header @{
+ title = "Two miniatures"
+ composer = "F. Bar Baz"
+ tagline = "small is beautiful" @}
-@file{ly2dvi} looks at what output LilyPond produces, and generates a
-file called @file{ly2dvi.out.tex}. This file contains formatting
-instructions for the title and page layout. A fragment might look like
+\paper @{ linewidth = -1.0 @}
-@example
+%@{
- \def\lilypondopus@{Opus 1.@}
- \def\lilypondpiece@{Up@}
- \def\mustmakelilypondtitle@{@}
- \input miniatures.tex
- \def\lilypondtitle@{Two miniatures@}
+Mental note: discuss Schenkerian analysis of these key pieces.
-@end example
+%@}
-@file{ly2dvi} runs it through LaTeX. LaTeX is a text-formatting system
-built on top of @TeX{}. It's very popular in the academic world. If LaTeX
-is successful, this will produce a @file{.dvi} file, containing both the
-titling and the actual music. @code{ly2dvi} completes its task by
-deleting the two temporary files, leaving only @file{miniatures.dvi}.
-Next, now we'll look at the example line by line to explain new things.
+\score @{
+ \notes @{ c'4 d'4 @}
+ \header @{
+ opus = "Opus 1."
+ piece = "Up" @}
+@}
+\score @{
+ \notes @{ d'4 c'4 @}
+ \header @{
+ opus = "Opus 2."
+ piece = "Down" @}
+@}
+@end example
-@separate
+The information for the global titling is in a so-called header block.
+The information in this block is not used by
+LilyPond, but it is passed into the output. @file{ly2dvi} uses this
+information to print titles above the music.
+@cindex assignments
+@cindex identifier assignment
+the @code{\header} block contains assignments. In each assignment, a
+variable is set to a value. The header block for this file looks like
+this
+@cindex @code{\header}
@example
-\version "1.3.124"
-@end example
-Lilypond and its language are still under development, and occasionally,
-details of the syntax are changed. This fragment indicates for which
-version the input file was written. When you compile this file, the
-version number will be checked, and you will get a warning when the file
-is too old.
-
-This version number is also used by the @code{convert-ly} program (See
-@ref{convert-ly}), which uses it to update the file to the latest lily
-version.
-
-@separate
-@example
- \header @{ title = "Two miniatures" @}
+ \header @{
+ title = "Two miniatures"
+ composer = "F. Bar Baz"
+ tagline = "small is beautiful"
+ @}
@end example
-This sets the titling information for the entire file.
-@separate
-@example
- #(set! point-and-click line-column-location)
-@end example
+When you process a file with ly2dvi, a signature line is printed at
+the bottom of the last page. This signature is produced from the
+@code{tagline} field of @code{\header}. The default "Lily was here,
+@var{version number}" is convenient for us programmers. Archived
+the layout of different versions can be compared using archived
+print-outs (that include a version number).
-This piece of Scheme code sets the Scheme variable
-@code{point-and-click} to the value @var{line-column-location} (which
-itself is a Scheme procedure).
+@cindex Lily was here
+@cindex signature line
+@cindex tag line
-Editing input files can be quite complicated if you're working with
-large files: if you're digitizing existing music, you have to
-synchronize the .ly file, the sheet music on your lap and the sheet
-music on the screen. The point-and-click mechanism makes it easy to
-find the origin of an error in the .ly file: when you view the file with
-Xdvi and click on a note, your editor will jump to the spot where that
-note was entered. For more information, see @ref{Point and click}.
+Many people find the default tagline (``Lily was here'') too droll.
+If that is the case, assign something else to @code{tagline}, as shown
+above.
@separate
@example
\paper @{
+ linewidth = -1.0 @}
@end example
-The @code{\score} blocks that follow in the file don't have
-@code{\paper} sections, so the settings of this block are substituted: A
-paper block, at top-level, i.e. not in a @code{\score} block sets the
-default page layout.
+A paper block at top level, i.e. not in a @code{\score} block sets the
+default page layout. The following @code{\score} blocks don't have
+@code{\paper} sections, so the settings of this block are substituted:
+
+The variable @code{linewidth} normally sets the length of the systems
+on the page. However, a negative value has a special meaning. If
+@code{linewidth} is less than 0, no line breaks are inserted into the
+score, and the spacing is set to natural length: a short phrase takes
+up little space, a longer phrase more space.
-@separate
@example
- linewidth = -1.0 @}
-@end example
+%@{
+Mental note: discuss Schenkerian analysis of these key pieces.
+%@}
+@end example
-The variable @code{linewidth} normally sets the length of the systems on
-the page. However, a negative value has a special meaning. If
-@code{linewidth} is less than 0, no line breaks are inserted into the
-score, and the spacing is set to natural length: a short phrase takes up
-little space, a longer phrase more space.
+Mental notes to yourself can be put into comments. There are two types
+of comments. Line comments are introduced by @code{%}, and block
+comments are delimited by @code{%@{} and @code{%@}}.
@separate
@example
@end example
In previous examples, notes were specified in relative octaves,
-i.e. each note was put in the octave that would put it closest to its
+i.e. each note was put in the octave that is closest to its
predecessor. Besides relative, there is also absolute octave
specification, which you get when you don't specify @code{\relative}. In
this input mode, the central C is denoted by @code{c'}. Going down, you
When you're copying music from existing sheet music, relative octaves
are probably the easiest to use: it's less typing work and errors are
-easily spotted. However, if you write LilyPond input, either by hand
-(ie. composing) or by computer, absolute octaves are probably less work.
+easily spotted. However, if you write LilyPond input directly, either by
+hand (i.e. composing) or by computer, absolute octaves may be easier to use.
@separate
-@node A piano excerpt
-@section A piano excerpt
+@example
+\version "1.5.60"
+\header @{
+ title = "Two miniatures"
+ composer = "F. Bar Baz"
+ tagline = "small is beautiful" @}
-Our fourth subject is a piece of piano music. The fragment in the input
-file is a piano reduction of the G major Sinfonia by Giovanni Battista
-Sammartini. It was composed around 1740. It's in the source package
-under the name @file{sammartini.ly}.
+\paper @{ linewidth = -1.0 @}
-@lilypond[verbatim]
-\include "paper16.ly"
+\score @{
+ \notes @{ c'4 d'4 @}
+ \header @{
+ opus = "Opus 1."
+ piece = "Up" @}
+@}
+\score @{
+ \notes @{ d'4 c'4 @}
+ \header @{
+ opus = "Opus 2."
+ piece = "Down" @}
+@}
+@end example
-stemDown = \property Voice.Stem \override #'direction = #-1
-stemUp = \property Voice.Stem \override #'direction = #1
-stemBoth = \property Voice.Stem \revert #'direction
-viola = \notes \relative c' \context Voice = viola {
- <c4-\f-\arpeggio g' c>
- \stemDown g'8. b,16
- s1 s2. r4
- g
-}
+@separate
+@example
+\version "1.6.0"
+@end example
+Lilypond and its language are still under development, and
+occasionally, details of the syntax are changed. This fragment
+indicates for which version the input file was written. When you
+compile this file, the version number will be checked, and you will
+get a warning when the file is too old. This version number is also
+used by the @code{convert-ly} program (See @ref{Older
+LilyPond versions}), which is used to update the file to the latest
+lily version.
-oboes = \notes \relative c'' \context Voice = oboe {
- \stemUp s4 g8. b,16 c8 r <e'8.^\p g> <f16 a>
- \grace <e8( g> <d4 )f> <c2 e>
- \times 2/3 { <d8 \< f> <e g> <f a> }
- <
- { \times 2/3 { a8 g c } \! c2 }
- \context Voice = oboeTwo {
- \stemDown
- \grace {
- \property Grace.Stem \override #'direction = #-1
- [f,16 g] }
- f8 e e2
- }
- >
- \stemBoth
- \grace <c,8( e> <)b8. d8.-\trill> <c16 e> |
- [<d ( f> < )f8. a>] <)b,8 d> r [<d16( f> <f8. )a>] <b,8 d> r |
- [<c16( e> < )e8. g>] <c8 e,>
-}
-hoomPah = \repeat unfold 8 \notes
- \transpose c' { \stemUp c8 \stemBoth \stemDown c'8 \stemBoth }
-
-bassvoices = \notes \relative c' {
- c4 g8. b,16
- \autochange Staff \hoomPah
- \translator Staff = down
- \stemDown [c8 c'8] r4
- <g d'> r4
- < {\stemUp r2 <e4 c'> <c8 g'> }
- \context Voice = reallyLow {\stemDown g2 ~ | g4 c8 } >
-}
+@node A piano excerpt
+@section A piano excerpt
-\score {
- \context PianoStaff \notes <
- \context Staff = up < \time 2/2
- \viola
- \oboes
- >
- \context Staff = down < \time 2/2 \clef bass
- \bassvoices
- >
- >
- \midi { }
- \paper {
- indent = 0.0
- linewidth = 15.0 \cm }
-}
-@end lilypond
+Our fourth subject is a piece of piano music. The fragment in the
+input file is a piano reduction of the G major Sinfonia by Giovanni
+Battista Sammartini. It was composed around 1740. It's in the source
+package under the name @file{input/tutorial/sammartini.ly}.
-If this looks like incomprehensible gibberish to you, you are right.
-This example has been doctored to have as many quirks as possible.
+@lilypondfile[smallverbatim]{sammartini.ly}
As you can see, this example features multiple voices on one staff. To
make room for those voices, their notes have to be stemmed in opposite
directions.
-Printed symbols are internally represented by so-called Graphical
-Objects (more colloquially: Grobs). These statements concern the
-grob called `Stem'. Each grob is described by a bunch of settings. These
-setting determine the fonts, offsets, sub-routines to be called on the
-grob, etc. The initial values of these settings are set in the Scheme
-file @file{scm/grob-description.scm}.
-
-@separate
-@example
- stemDown = \property Voice.Stem \override #'direction = #-1
-@end example
-
-Set a proprerty for all Stem grobs in the current Voice:
-@code{direction} is set to @code{-1}, which encodes down. The setting
-remains in effect until it is reverted.
-
-@separate
-@example
- \property Voice.Stem \revert #'direction
-@end example
-
-Revert the to the previous setting. The effect of precisely one
-@code{\stemDown} or @code{\stemUp} is neutralised.
-
-
LilyPond includes the identifiers @code{\stemUp}, @code{\stemDown} along
with some other commonly used formatting instructions, but to explain how
it works, we wrote our own here. Of course, you should use predefined
@end example
In this example, you can see multiple parts on a staff. Each part is
associated with one notation context. This notation context handles
-stems and dynamics (among others). The name of this context is
+stems and dynamics (among others). The type name of this context is
@code{Voice}. For each part we have to make sure that there is
-precisely one @code{Voice} context, so we give it an unique name
+precisely one @code{Voice} context, so we give it a unique name
(`@code{viola}').
@separate
@example
-<c4-\f-\arpeggio g' c>
+<c4-\arpeggio g' c>
@end example
The delimiters @code{<} and @code{>} are shorthands for
@code{\simultaneous @{} and @code{@}}. The expression enclosed in
@code{<} and @code{>} is a chord.
-@cindex dynamics
-@cindex loudness
-@cindex forte
@cindex arpeggio
-@code{\f} places a forte symbol under the chord. The forte applies to
-the whole chord, but the syntax requires that commands like forte and
-arpeggio are attached to a note, so here we attach them to the first
-note.
-
@code{\arpeggio} typesets an arpeggio sign (a wavy vertical line) before
the chord.
@separate
@example
- \stemDown
+ \voiceTwo
@end example
+We want the viola to have stems down, and have all the other
+characteristics of a second voice. This is enforced using the
+@code{\voiceTwo} command: it inserts instructions that makes stem,
+ties, slurs, etc. go down.
+
+
@separate
@example
@code{\context}.
@separate
@example
-\stemUp s4 g8. b,16 c8 r <e'8.-\p g> <f16 a>
-@end example
-@code{\stemUp} is a reference to the @code{\property \override} command
-defined above.
+\voiceOne s4 g8. b,16 c8 r <e'8. g> <f16 a>
+@end example
+
+The oboes should have stems up, so they should have stems up, to keep
+them from interfering with the staff-jumping bass figure.
+
@separate
@example
-\grace <e8 g> < d4 f> <c2 e>
+\grace <e8( g> < d4 )f> <c2 e>
@end example
@cindex @code{\grace}
@cindex ornaments
@cindex grace notes
-
@code{\grace} introduces grace notes. It takes one argument, in this
-case a chord.
+case a chord. A slur is introduced starting from the @code{\grace}
+ending on the following chord.
-@ignore
-The slur started on the @code{e} of the chord
-will be attached to the next note.@footnote{LilyPond will squirm
-about unended Slurs. In this case, you can ignore the warning}.
-@end ignore
@separate
@example
\times 2/3
of their notated duration, so in this case the fraction is 2/3.
@separate
@example
-@{ <d8 \< f> <e g> <f a> @}
+@{ <d8 f> <e g> <f a> @}
@end example
The piece of music to be `tripletted' is sequential music containing
-three notes. On the first chord, a crescendo is started with
-@code{\<}. To be precise, the crescendo start is syntactically attached
-to the preceding note, the @code{d}.
-
-@cindex dynamics
-@cindex crescendo
-@cindex @code{\<}
+three chords.
@separate
@example
voice, which continues with upward stems:
@separate
@example
- @{ \times 2/3 @{ a8 g c @} \! c2 @}
+ @{ \times 2/3 @{ a8 g c @} c2 @}
@end example
-@cindex @code{\!}
-
-The crescendo is ended at the half note by the escaped exclamation
-mark @code{\!}.
-@separate
-@example
-\context Voice = oboeTwo @{
-\stemDown
-@end example
-We can't share stems with the other voice, so we have to create a new
-@code{Voice} context. We give it the name @code{oboeTwo} to distinguish
-it from the other context. Stems go down in this voice.
@separate
-@example
-\grace @{
+@example
+\\
@end example
-@cindex Grace context
-When a grace section is processed, a @code{Grace} context is
-created. This context acts like a miniature score of its own. It has
-its own time bookkeeping, and you can make notes, beams, slurs
-etc. Here we fiddle with a property and make a beam. The argument of
-@code{\grace} is sequential music.
-
-@separate
-@example
-\property Grace.Stem \override #'direction = #-1
-[f,16 g] @}
-@end example
-
-Normally, grace notes are always stem up, but in this case, the upper
-voice interferes. We set the stems down here.
+The easiest way to enter multiple voices is demonstrated
+here. Separate the components of the voice (single notes or entire
+sequences) with @code{\\} in a simultaneous music expression. The
+@code{\\} separators split first voice, second voice, third voice, and
+so on.
As far as relative mode is concerned, the previous note is the
@code{c'''2} of the upper voice, so we have to go an octave down for
@separate
@example
- f8 e e2
+ f,8 e e2
@} >
@end example
This ends the two-part section.
positioned as if it were single part music.
The bass has a little hoom-pah melody to demonstrate parts switching
-between staffs. Since it is repetitive, we use repeats:
+between staves. Since it is repetitive, we use repeats:
@separate
@example
hoomPah = \repeat unfold 8
@cindex transposing
@cindex relative mode and transposing
-Transposing can be done with @code{\transpose}. It takes two arguments
-the first specifies what central C should be transposed to. The second
+Transposing can be done with @code{\transpose}, which takes two arguments.
+The first specifies what central C should be transposed to. The second
is the to-be-transposed music. As you can see, in this case, the
transposition has no effect, as central C stays at central C.
-The purpose of this no-op is circumventing relative mode. Relative mode
-can not be used together with transposition, so @code{\relative} will
-leave the contents of @code{\hoomPah} alone. We can use it without
-having to worry about getting the motive in a wrong octave.
+The purpose of this no-op is to protect it from being interpreted as
+relative notes. Relative mode can not be used together with
+transposition, so @code{\relative} will leave the contents of
+@code{\hoomPah} alone. We can use it without having to worry about
+getting the motive in a wrong octave.
+@separate
+@cindex staff switch, manual
+@cindex cross staff voice, manual
+@cindex @code{\translator}
+
+@example
+ \translator Staff = down
+ \stemUp
+ c8
+ \translator Staff = up
+ \stemDown
+ c'8 @}
+@end example
+Voices can switch between staves. Here you see two staff switching
+commands. The first one moves to the lower staff, the second one to
+the lower one. If you set stem directions explicitly (using the
+identifiers @code{\stemUp} and @code{\stemDown}.
+
@separate
@example
bassvoices = \notes \relative c' @{
c4 g8. b,16
-\autochange Staff \hoomPah
+\autochange Staff \hoomPah \context Voice
@end example
-@cindex staff switch, automatic
-@cindex cross staff voice, automatic
-@cindex @code{\autochange}
-Voices can switch between staffs. The easiest way to get this, is to use
-@code{\autochange}. This command looks at the pitch of each note, and if
-necessary, will cross to the other staff. For this to work, the two
-staffs must be called @code{"up"} and @code{"down"}.
@separate
@example
\translator Staff = down
@end ignore
+@node Fine tuning a piece
+@section Fine tuning a piece
+
+In this section, we show some ways to fine tune the final output of a
+piece. We do so using a single measure of a moderately complex piano
+piece: a Brahms intermezzo (opus 119, no. 1). Both fragments (the
+tuned and the untuned are in the @file{input/tutorial/}).
+
+The code for the untuned example shows us some new things.
+
+@lilypondfile[verbatim]{brahms-original.ly}
+
+
+@cindex dynamics
+@cindex loudness
+@cindex forte
+@cindex crescendo
+@cindex @code{\<}
+@cindex @code{\!}
+
+The crescendo is ended at the half note by the escaped exclamation
+mark @code{\!}.
+
+Hairpin dynamics can be indicated using @code{\>} to start a
+decrescendo, and @code{\!} to end one. The crescendo is started using
+@code{\<} and also ended using @code{\!}. Absolute dynamics can be
+entered using @code{\p}, @code{\mf}, etc. All these commands apply to
+the complete chord where they are entered, but for syntactical
+reasons, they must be attached to one of the notes of the chord.
+
+@cindex fingering instructions
+
+Fingering indications are entered simply using @code{-@var{N}}, where
+@var{N} is a digit.
+
+Now that we have the basic piece of music entered, we want to fine
+tune it, so we get something that resembles the original printed
+edition by Schott/Universal Edition:
+
+@lilypondfile{brahms-tweaked.ly}
+
+@cindex tuning grob behavior
+
+The basic process that we follow is that we override defaults in the
+printing system. We do this by setting variables in so-called grobs.
+Printed symbols are internally represented by Graphical Objects
+(Grobs). Each grob is described by a bunch of settings. Every
+setting is a variable: it has a name, and you can assign a value to
+the variable. These setting determine the fonts, offsets, sub-routines
+to be called on the grob, etc. The initial values of these settings
+are set in the Scheme file @file{scm/grob-description.scm}.
+
+@cindex slur attachments
+
+We start with the slur: the slur in the upper part, running from the F
+sharp to the A, runs from stem to stem in the printed edition, while
+ours starts from the note head at the left. The following property
+setting forces all slurs to run from stem to stem (and not from or to
+note head)
+
+@example
+ \property Voice.Slur \set #'attachment = #'(stem . stem)
+@end example
+
+More precisely, this command extends the definition of the @code{Slur}
+object in the current @code{Voice}. The variable @code{attachment} is
+set to the pair of symbols @code{'(stem . stem)}.
+
+Although this is useful information, it is not very helpful: the
+lilypond backend supports approximately 240 variables like
+@code{attachment}, each with their own meaning and own type
+(eg. number, symbol, list, etc). Besides slur, LilyPond has 80
+different types of Grobs, that may be created in 14 different context
+types besides Voice.
+
+@cindex internal documentation
+@cindex finding grobs
+@cindex grob descriptiosn
+
+The interesting information is how you can figure out which properties
+to tune for your own scores. To discover this, you must have a copy of
+the internals document. This is a set of HTML pages, which should be
+included if you run a binary distribution@footnote{You can also
+compile them by executing @code{make -C Documentation/user/
+out/lilypond-internals.html} in the source package.}. This document is
+also available on the web: go to the lilypond website, click
+``Documentation: other'' on the side bar, click
+``lilypond-internals'', under information for users.
+
+You might want to bookmark either the HTML files on disk, or the one
+on the web. One word of caution is in place here: the internals
+documentation is generated from the definitions that lily uses. For
+that reason, it is strongly tied to the version of LilyPond that you
+use. Before you proceed, please make sure that you are using the
+documentation that corresponds to the LilyPond version that you use.
+
+Suppose that you wanted to tune the behavior of the slur. The first
+step is to get some general information on slurs in lilypond. Turn to
+the index, and look up ``slur''. The section on slurs says
+@quotation
+The grob for this object is @internalsref{Slur}, generally in
+@internalsref{Voice} context.
+@end quotation
+
+So the grob for this object is called @code{Slur}, and slurs are
+created in the @code{Voice} context. If you are reading this tutorial
+in the HTML version, then you can simply click Slur, otherwise, you
+must look it up the internal documentation: click ``grob overview'' ,
+and select ``slur'' (the list is alphabetical.)
+
+Now you get a list of all the properties that the slur object
+supports, along with their default values. Among the properties we
+find the @code{attachment} property with its default setting.
+The property documentation explains that the following setting will
+produce the desired effect:
+@example
+ \property Voice.Slur \set #'attachment = #'(stem . stem)
+@end example
+
+If you ran the previous example, you have unknowingly already used
+this kind of command. The @file{ly/property-init.ly} contains the
+definition of @code{\stemUp}
+@example
+ stemUp = \property Voice.Stem \set #'direction = #1
+@end example
+
+
+We also want to move around the fingering `3'. In the printed edition
+it is not above the stem, but a little lower, slightly left of the
+stem. From the user manual, we find that the associated grob is called
+@code{Fingering}, but how do we know if we should use @code{Voice} or
+@code{Staff}. In many cases, @code{Voice} is a safe bet, but you can
+also deduce this information from the internals documentation: if you
+visit the documentation of @code{Fingering}, you will notice
+@example
+Fingering grobs are created by: Fingering_engraver
+@end example
+
+
+
+Clicking @code{Fingering_engraver} will show you the documentation of
+the module responsible for interpreting the fingering instructions and
+translating them to a @code{Fingering} grob. Such a module is called
+an @emph{engraver}. The documentation of the @code{Fingering_engraver}
+says,
+@example
+Fingering_engraver is part of contexts: Voice and TabVoice
+@end example
+so tuning the settings for Fingering should be done using either
+@example
+ \property Voice.Fingering \set @dots{}
+@end example
+or
+@example
+ \property TabVoice.Fingering \set @dots{}
+@end example
+
+Since the @code{TabVoice} is only used for tab notation, we see that
+the first guess @code{Voice} was indeed correct.
+
+@cindex setting grob properties
+@cindex @code{extra-offset}
+
+For shifting the fingering, we use the grob property
+@code{extra-offset}. The following command manually adds an offset to
+the object. We move it a little to the left, and 1.8 staff space
+downwards.
+@example
+ \property Voice.Fingering \set #'extra-offset = #'(-0.3 . -1.8)
+@end example
+The @code{extra-offset} is a low-level feature: it moves around
+objects in the printout; the formatting engine is completely oblivious
+to these offsets. The unit of these offsets are staff-spaces.
+
+@cindex reverting grob properties
+@cindex undoing grob properties
+
+We only want to offset a single grob, so after the F-sharp, we must
+undo the setting. The technical term is to revert the grob property.
+@example
+ \property Voice.Fingering \revert #'extra-offset
+@end example
+
+@cindex property types
+@cindex translator properties
+@cindex grob properties
+@cindex music properties
+
+
+There is three different types of variables in LilyPond, something
+which is confusing at first (and for some, it stays like that).
+Variables such as @code{extra-offset} and @code{attachment} are called
+grob properties. They are something different from the translator
+properties, like @code{autoBeaming}. Finally, music expressions are
+internally also stored using properties, so-called music
+properties. You will encounter the latter type if you run Scheme
+functions on music using @code{\apply}.
+
+The second fingering instruction should be moved up a little, to avoid
+a collision with the slur. This could be achieved with
+@code{extra-offset}, but in this case, a simpler mechanism also
+works. We insert an empty text between the 5 and the note. The empty
+text pushes the fingering instruction away:
+@example
+ a^" "^#'(finger "5")
+@end example
+
+Lilypond tries to put fingering instructions closer to the notes as
+text instructions. To insert an empty text (@code{^" "}) between the
+finger and the note, we have disguised the fingering instruction as a
+text: @code{(finger "5")}.
+
+Normally, one would specify dynamics in a single voice, and start and
+end dynamics (such as @b{f} and @b{p}) will be aligned with
+hairpins. In this case, we want the decrescendo to be in a different
+place from the piano sign. We achieve this by putting the dynamic
+markings in different voices. The crescendo should be above the upper
+staff. This can be forced by the precooked command
+@example
+ \dynamicsUp
+@end example
+
+However, if you do that, the decrescendo will be too close to the
+upper voice, and collide with the stems. Looking at the manual for
+dynamics, we notice that ``Vertical positioning of these symbols is
+handled by the @internalsref{DynamicLineSpanner} grob.''. If we turn
+to the documentation of @code{DynamicLineSpanner}, we find that the
+@code{DynamicLineSpanner} supports several so-called
+`interfaces'. This grob not only puts dynamic objects next to the
+staff (@code{side-position-interface}), but it also groups dynamic
+objects (@code{axis-group-interface}), is considered a dynamic sign
+itself (@code{dynamic-interface}) and is a grob: it has the
+@code{grob-interface}, with all the variables that come with it.
+
+For the moment, we are interested in the side positioning:
+@quotation
+ side-position-interface
+
+ Position a victim object (this one) next to other objects (the
+ support). In this case, the direction signifies where to put the
+ victim object relative to the support (left or right, up or down?)
+@end quotation
+Between the grob and its support (in this case: the notes in the voice
+going down), there should be more space. This space is controlled by
+@code{padding}, so we increase it.
+@example
+ \property Voice.DynamicLineSpanner \override #'padding = #5.0
+@end example
+
+This command is almost like the command for setting slur attachments,
+but subtly different in its details. Grob properties can be
+manipulated with two commands: @code{\override} extends the grob
+variables with a setting, and @code{\revert} releases this
+setting. This has a certain theoretical appeal: the operations are
+simple and symmetric. For practical use, it can be cumbersome. Both
+commands act like parentheses: you should carefully balance the use of
+@code{\override} and @code{\revert}. The @code{\set} command is more
+friendly: it first does a @code{\revert} followed by @code{\override}.
+
+Finally, Brahms uses music notation is a slightly unorthodox way. Ties
+usually happen only within one voice. In this piece, the composer
+gladly produces ties that jump voices. We deal with this by faking
+these ties: whenever we need such a tie, we insert a notehead in a
+different voice, and blank the stem. This is done in the following
+snippet of code.
+
+@example
+ \property Voice.Stem \set #'transparent = ##t
+ d'
+ \property Voice.Stem \revert #'transparent
+@end example
+
+Finally, the last tie is forced up using @code{\tieUp}.
+
+
@node An orchestral score
@section An orchestral score
@code{\score} blocks to produce different combinations of the score.
This orchestral score example consists of three input files. In the
-first file, @file{os-music.ly}, we define the music for all instruments.
-This file will be used both for producing the score and the separate
-parts.
+first file, @file{os-music.ly}, we define the music for all
+instruments. This file will be used both for producing the score and
+the separate parts. Other files reference this file by doing
+@code{\include "os-music.ly"}.
-If you were to run lilypond on this file, no printable output would be
+If you were to run LilyPond on this file, no printable output would be
produced.
@example
Key = \notes \key as \major
@end example
Declare the key signature of the piece and assign it to the identifier
-@var{Key}. Lateron, we'll use @code{\Key} for all staffs except those
+@var{Key}. Later on, we'll use @code{\Key} for all staves except those
for transposing instruments.
@node The full score
@subsection The full score
-The second file, @file{os-score.ly} reads the definitions of the first
-(@file{os-music.ly}), and defines the @code{\score} block for the full
+The second file, @file{input/tutorial/os-score.ly} reads the definitions of the first
+(@file{input/tutorial/os-music.ly}), and defines the @code{\score} block for the full
conductor's score.
indent = 15 * \staffspace
linewidth = 60 * \staffspace
textheight = 90 * \staffspace
- \translator@{
- \VoiceContext
- \consists "Multi_measure_rest_engraver"
- @}
\translator@{
\HaraKiriStaffContext
- \remove "Multi_measure_rest_engraver"
@}
@}
\midi @{
@example
#(set! point-and-click line-column-location)
@end example
-In a large orchestral score like this you're bound to make some small
-mistakes, so we enable point and click (See @ref{Point and click})
-editing.
+
+This piece of Scheme code sets the Scheme variable
+@code{point-and-click} to the value @var{line-column-location} (which
+itself is a Scheme procedure).
+
+Editing input files can be complicated if you're working with large
+files: if you're digitizing existing music, you have to synchronize
+the .ly file, the sheet music on your lap and the sheet music on the
+screen. The point-and-click mechanism makes it easy to find the
+origin of an error in the LY file: when you view the file with Xdvi
+and click on a note, your editor will jump to the spot where that note
+was entered. For more information, see @ref{Point and click}.
+
@separate
@example
with a flat sign. LilyPond has a mechanism for font selection and
kerning called Scheme markup text (See @ref{Text markup}). The flat
sign is taken from the music font, and its name is @code{accidentals--1}
-(The sharp sign is called @code{accidentals-+1}). The default font is
+(The natural sign is called @code{accidentals-0}). The default font is
too big for text, so we select a relative size of @code{-2}.
@separate
<
\global
@end example
-Of course, all staffs are simultaneous and use the same global settings.
+Of course, all staves are simultaneous and use the same global settings.
@separate
@example
\property Score.BarNumber \override #'padding = #3
@end example
LilyPond prints bar numbers at the start of each line, but
-unfortunately, they end up a bit too close to the staff in this example.
-A bar number internally is a Grob called @var{BarNumber}. BarNumber
-Grobs can be manipulated through their @var{side-position-interface}. One
-of the properties of a @var{side-position-interface} that can be tweaked
-is the @var{padding}: the amount of extra space that is put between this
-Grob and other Grobs. We set the padding to three staff spaces.
-
-You can find all this kind of information in LilyPond's automatically
-generated documentation in
+unfortunately, they end up a bit too close to the staff in this
+example. A bar number internally is a Grob called @var{BarNumber}.
+BarNumber Grobs can be manipulated through their
+@var{side-position-interface}. One of the properties of a
+@var{side-position-interface} that can be tweaked is the
+@var{padding}: the amount of extra space that is put between this Grob
+and other Grobs. We set the padding to three staff spaces.
+
+You can find information on all these kind of properties in LilyPond's
+automatically generated documentation in
@ifnottex
@ref{ (lilypond-internals)lilypond-internals, LilyPond Internals}.
@end ifnottex
\context StaffGroup = woodwind <
\context Staff = flauti <
@end example
-A new notation context: the StaffGroup. StaffGroup can hold one or more
-Staffs, and will print a big bracket at the left of the score. Start a
-new staff group for the woodwind section (just the flutes in this case).
-Immediately after that, we start the staff for the two flutes, that also
-play simultaneously.
+A new notation context: the @code{StaffGroup}. @code{StaffGroup} can
+hold one or more @code{Staff}'s, and will print a big bracket at the
+left of the score. Start a new staff group for the woodwind section
+(just the flutes in this case). Immediately after that, we start the
+staff for the two flutes, that also play simultaneously.
@separate
@example
(columns "(E" ,text-flat ")"))
@end example
The french horn has the most complex scheme markup name, made up of two
-lines of text. The second line has two elements (columns), the @code{E}
-and the flat sign @code{text-flat} that we defined before.
+lines of text. The second line has three elements (columns), the @code{(E},
+the flat sign @code{text-flat} that we defined before and a final @code{")"}.
+Note that we use a backquote instead of an ordinary quote at the
+beginning of the Scheme expression to be able to access the
+@code{text-flat} identifier, `unquoting' it with a @code{,}.
@separate
@example
transpose this staff by three steps.
Note how we can choose different tuning for entering, printing and
-playing, using @code{\transpose} and the MIDI Staff proprerty
+playing, using @code{\transpose} and the MIDI Staff property
@var{transposing}.
@separate
Voice, Staff, Staffgroup, Score) is just fine. But in this case, we
want a different type of Staff context.
+@example
+ \translator@{
+ \HaraKiriStaffContext
+ @}
+@end example
+
In orchestral scores, it often happens that one instrument has only
rests during one line of the score. The @code{HaraKiriStaffContext} can
be used as a regular @code{StaffContext} drop-in and will take care of
-the automatic removing of empty staffs.
+the automatic removing of empty staves.
@node Extracting an individual part
@subsection Extracting an individual part
Because we separated the music definitions from the @code{\score}
-instantiations, we can easily define a second score from the music of
+instantiations, we can easily define a second score with the music of
the second flute. This then is the part for the second flute player.
Of course, we make separate parts for all individual instruments.
true.
-@node Other ways to run LilyPond
-@section Other ways to run LilyPond
-
-Until now, you have been using @file{ly2dvi} to invoke LilyPond.
-There are three other routes. Firstly, there is a script called
-@code{lilypond-book}, that allows you to freely mix LilyPond input with
-Texinfo or LaTeX input. For example, this manual was written using
-@code{lilypond-book}. It is discussed in @ref{lilypond-book}.
-
-
-Secondly, you can generate PostScript directly. This is useful if you
-can not or do not want to run @TeX{} on your system. To obtain direct
-PostScript output, invoke LilyPond as follows:
-@cindex PostScript output
-@example
-lilypond -f ps test.ly
-@end example
-You have to set some environment variables to view or print this
-output. More information can be found in @ref{Invoking
-LilyPond}.
-
-
-Thirdly, if you want to do special things with your output, you can run
-invoke lilypond directly:
-@example
-lilypond test.ly
-@end example
-to produce plain @TeX{} output. Note that La@TeX{} will not work on the
-resulting @file{test.tex}. You must run plain @TeX{} on it.
-
-@cindex @TeX{}
-
-
-
-
-
@node Integrating text and music
@section Integrating text and music
hand, simply by importing a PostScript figure into your wordprocessor.
However, there is a also an automated procedure:
-If you use La@TeX{} or texinfo, you can mix text and lilypond code. A
-script called @code{lilypond-book} will extract the music fragments, run
-lilypond on them, and put back the resulting notation. lilypond-book is
-described fully in @ref{lilypond-book}, but here we show a small
-example. Since the example also contains explanatory text, we won't
-comment on the contents.
+If you use HTML, La@TeX{} or texinfo, you can mix text and LilyPond
+code. A script called @code{lilypond-book} will extract the music
+fragments, run LilyPond on them, and put back the resulting notation.
+This utility program is described fully in the chapter @ref{Insert
+music snippets into your texts using lilypond-book}. Here we show a
+small example. Since the example also contains explanatory text, we
+won't comment on the contents.
@example
\documentclass[a4paper]@{article@}
c'4 f bes es
\end@{lilypond@}
-\texttt@{verbatim@} also shows the lilypond code, \texttt@{11pt@} selects
+\texttt@{verbatim@} also shows the LilyPond code, \texttt@{11pt@} selects
the default music size, \texttt@{fragment@} adds a score block,
\texttt@{relative@} uses relative mode for the fragment, and
\texttt@{intertext@} specifies what to print between the
$ cd input/tutorial
$ lilypond-book --outdir=out/ lilbook.tex
lilypond-book (GNU LilyPond) 1.3.146
-Reading `/home/hanwen/usr/src/lilypond-1.3.146/input/tutorial/lilbook.tex'
-Reading
-`/home/hanwen/usr/src/lilypond-1.3.146/input/tutorial/sammartini.ly'
+Reading `input/tutorial/lilbook.tex'
+Reading `input/tutorial/sammartini.ly'
@var{lots of stuff deleted}
Writing `out/lilbook.latex'
$ cd out
@end example
Notice the @code{outdir} option to lilypond-book. Running lilypond-book
-and running latex creates a lot of temporary files, and you wouldn't
+and running latex creates a lot of temporary files, and you wouldn't want
those to clutter up your working directory. Hence, we have them created
in a separate subdirectory.
c'4 f bes es
@end lilypond
-@code{verbatim} also shows the lilypond code, @code{11pt} selects
+@code{verbatim} also shows the LilyPond code, @code{11pt} selects
the default music size, @code{fragment} adds a score block,
@code{relative} uses relative mode for the fragment, and
@code{intertext} specifies what to print between the
@lilypondfile[printfilename]{sammartini.ly}
The @code{printfilename} option adds the file name to the output.
-@node end of tutorial
-@section The end
+@node End of tutorial
+@section End of tutorial
-That's all folks. From here, you can either try fiddling with input
-files, or you can read the reference manual. You can find more example
-files in @file{input} and @file{input/test}. You can also look at some
-real music. Have a look at the @uref{Mutopia project,
-http://www.mutopiaproject.org}.
-
-
-
-@ignore
-
-[TODO
-
-this should be on mutopia website.
-
-]
-
+This is the end of the tutorial. If you came up till here, and
+have understood everything, then you're now an accomplished lilypond
+hacker. From here, you can try fiddling with input
+files, coming back to the reference manual for information.
+Also don't forget to check out the
+@ifhtml
+@uref{../../templates/out-www/templates.html,templates},
+@uref{../../test/out-www/test.html,example} and
+@uref{../../regression/out-www/regression.html,feature test}
+snippets.
+@end ifhtml
+@ifnothtml
+templates, example and feature test snippets.
+@end ifnothtml
+If you want to see real action lilypond, then head over to
+@uref{http://www.mutopiaproject.org}, which has many examples of
+classical music typeset by LilyPond.
-@c waar deze info? is uiteindelijk wel handig, schat ik.
-[TODO: cut blabla]
-
-If you have a big music project, or just a lot of LilyPond input files,
-all generated output from LilyPond, @TeX{} and metafont will clutter
-your working directory. LilyPond comes with a one-size-fits-all
-pre-cooked makefile that helps you manage producing output. It will
-produce all output in the directory @file{out} , generate and track
-dependencies. Also, it helps in preparing your submission to @ref{Mutopia
-project}.
-
-@file{make/ly.make}
-@example
-mkdir my-project
-cd my-project
-cp /usr/share/lilypond/make/ly.make GNUmakefile
-cp /usr/share/doc/lilypond/examples/input/tutorial/minuet.ly .
-make minuet
-[..]
-Generated out/minuet.ps for target minuet.
-@end example
-
-Type @samp{make help} to see possible targets.
-
-[TODO]
-@file{/usr/share/lilypond/doc/lilypond/examples/input/mutopia-header.ly}
-
-
-
-
-
-[TODO: rewrite completely.]
-
-@menu
-* Songs with additional verses::
-@end menu
-
-@end ignore