@c -*-texinfo-*-
+
@node Introduction
@chapter Introduction
-LilyPond is a program to print sheet music. If you have used notation
-programs before, then the way to use this program might be surprising
-at first sight: in order to print music you have to enter musical
-codes in a file. Then you run the program on the file, and the music
-is produced without any further intervention. For example, something
-like this:
+There are a lot of programs that let you print sheet music with a
+computer, but most of them do not do good job. Most computer
+printouts have a bland, mechanical look, and are unpleasant to play
+from. If you agree with us on that, then you will like LilyPond: we
+have tried to capture the original look of hand-engraved music. We
+have tuned our algorithms, font-designs, and program settings to make
+the program produce prints that match the quality of the old editions
+we love to see and love to play from.
+
+
+@menu
+* Notation in LilyPond ::
+* Engraving in LilyPond::
+* Typography and program architecture::
+* Music representation::
+* Example applications::
+* About this manual::
+@end menu
+
+@node Notation in LilyPond
+@section Notation in LilyPond
-@lilypond[fragment,verbatim, relative 1, intertext="produces this:
-"]
-\key c \minor r8 c16 b c8 g as c16 b c8 d | g,4
+@cindex engraving
+@cindex typography
+
+
+Printing sheet music consists of two non-trivial tasks. First, one has
+to master music notation: the science of knowing which symbols to use
+for what. Second, one has to master music engraving: the art of
+placing symbols such that the result looks pleasing.
+
+Common music notation is a system of recording music that has evolved
+over the past 1000 years. The form that is now in common use, dates
+from the early renaissance. Although, the basic form (note heads on a
+5-line staff) has not changed, the details still change to express the
+innovations of contemporary notation. Hence, it encompasses some 500
+years of music. Its applications range from monophonic melodies to
+monstruous counterpoint for large orchestras.
+
+How can we get a grip on such a many-headed beast, and force it into
+the confines of a computer program? Our solution is to make a strict
+distinction between notation, @emph{what} symbols to use, and
+engraving, @emph{where} to put them. Anything related to the second
+question is considered ``engraving'' (i.e. typography).
+
+For tackling the first problem, notation, we have broken up the
+problem into digestible (and programmable) chunks: every type of
+symbol is handled by a separate program module, a so-called plug-in.
+Each plug-in are completely modular and independent, so each can be
+developed and improved separately. When put together, the plug-ins
+can solve the music notation program in cooperation. People that put
+graphics to musical ideas are called copyists or engravers, so by
+analogy, each plug-in is also called @code{engraver}.
+
+In the following example, we see how we start out with a note head
+engraver.
+
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+
+\score { \topVoice
+\paper {
+ \translator { \VoiceContext
+ \remove "Stem_engraver"
+ \remove "Phrasing_slur_engraver"
+ \remove "Slur_engraver"
+ \remove "Script_engraver"
+ \remove "Beam_engraver"
+ \remove "Auto_beam_engraver"
+
+ }
+ \translator { \StaffContext
+ \remove "Accidental_engraver"
+ \remove "Key_engraver"
+ \remove "Clef_engraver"
+ \remove "Bar_engraver"
+ \remove "Time_signature_engraver"
+ \remove "Staff_symbol_engraver"
+ \consists "Pitch_squash_engraver"
+ }
+
+}
+}
@end lilypond
-@cindex encoding music
+Then a @code{Staff_symbol_engraver} adds the staff:
+
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+
+\score { \topVoice
+\paper {
+ \translator { \VoiceContext
+ \remove "Stem_engraver"
+ \remove "Phrasing_slur_engraver"
+ \remove "Slur_engraver"
+ \remove "Script_engraver"
+ \remove "Beam_engraver"
+ \remove "Auto_beam_engraver"
+
+ }
+ \translator { \StaffContext
+ \remove "Accidental_engraver"
+ \remove "Key_engraver"
+ \remove "Clef_engraver"
+ \remove "Bar_engraver"
+ \consists "Pitch_squash_engraver"
+ \remove "Time_signature_engraver"
+ }
+
+}
+}
+@end lilypond
-Encoding music using letters and digits may appear strange,
-intimidating or even clumsy at first. Nevertheless, when you take the
-effort to learn the codes and the program you will find that it is
-easier than it seems. Entering music can be done quickly, and you
-never have to remember how you made the program do something
-complicated: it is all in the input code, and you only have to read
-the file to see how it works. Moreover, you are rewarded with very
-nicely looking output.
+ The @code{Clef_engraver} defines a reference point for the staff:
+
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+
+\score { \topVoice
+\paper {
+ \translator { \VoiceContext
+ \remove "Stem_engraver"
+ \remove "Phrasing_slur_engraver"
+ \remove "Slur_engraver"
+ \remove "Script_engraver"
+ \remove "Beam_engraver"
+ \remove "Auto_beam_engraver"
+ }
+ \translator { \StaffContext
+ \remove "Accidental_engraver"
+ \remove "Key_engraver"
+ \remove "Bar_engraver"
+ \remove "Time_signature_engraver"
+ }
+
+}
+}
+@end lilypond
-In this chapter, we will explain the reasoning behind this unusual
-design, and how this approach affects you as a user.
+And the @code{Stem_engraver} adds stems:
+
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+
+\score { \topVoice
+\paper {
+ \translator { \VoiceContext
+ \remove "Phrasing_slur_engraver"
+ \remove "Slur_engraver"
+ \remove "Script_engraver"
+ \remove "Beam_engraver"
+ \remove "Auto_beam_engraver"
+ }
+ \translator { \StaffContext
+ \remove "Accidental_engraver"
+ \remove "Key_engraver"
+ \remove "Bar_engraver"
+ \remove "Time_signature_engraver"
+ }
+}
+}
+@end lilypond
-@menu
-* Batch processing::
-* Music engraving::
-* Music representation::
-* Example applications::
-* About this manual::
-@end menu
+The @code{Stem_engraver} is notified of any note head coming along.
+Every time one (or more, for a chord) note heads is seen, a stem
+object is created, and attached to the note head.
-@node Batch processing
-@section Batch processing
+By adding engravers for beams, slurs, accents, accidentals, bar lines,
+time signature, and key signature, we get a complete piece of
+notation.
-@cindex GUI
-@cindex Batch
-@cindex UNIX
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
-When we started developing LilyPond, we were still studying at the
-university. We were interested in music notation, not as publishers
-or musicians, but as programmers and scientists. We wanted to figure
-to what extent formatting sheet music could be automated. Back then
-GUIs were not as ubiquitous as they are today, and we were immersed in
-the UNIX operating system, where it is very common to use compilers to
-achieve computing tasks. So, our computerized music engraving
-experiment took on the form of a compiler.
+\score { \topVoice }
+@end lilypond
-@ignore
-@cindex free software
-@cindex sharing software
-You can freely use, modify and redistribute LilyPond. This choice was
-also motivated by our academic background. In the scientific community
-it has always been a tradition to share knowledge, also if that
-knowledge was packaged as software. One of the most visible groups
-that stimulated this philosophy, was the Free Software Foundation,
-whose popular GNU project aimed to replace closed and proprietary
-computing solutions with free (as in ``Libre'') variants. We jumped on
-that bandwagon, and released LilyPond as free software. That is the
-reason that you can get LilyPond at no cost and without any strings
-attached.
-@end ignore
+This system works well for monophonic music, but what about
+polyphony? In polyphonic notation, many voices can share a staff.
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+\score { \context Staff << \topVoice \\ \botVoice >> }
+@end lilypond
-@node Music engraving
-@section Music engraving
+In this situation, the accidentals and staff are shared, but the
+stems, slurs, beams, etc. are private to each voice. Hence, engravers
+should be grouped. The engravers for note head, stems, slurs, etc. go
+into a group called ``Voice context,'' while the engravers for key,
+accidental, bar, etc. go into a group called ``Staff context.'' In the
+case of polyphony, a single Staff context contains more than one Voice
+context. In polyphonic notation, many voices can share a staff:
+Similarly, more Staff contexts can be put into a single Score context.
+
+@lilypond[notexidoc]
+\include "engraver-example.lyinc"
+\score {
+<< \new Staff << \topVoice \\ \botVoice >>
+\new Staff << \pah \\ \hoom >>
+ >>
+}
+@end lilypond
-@cindex engraving
-@cindex typography
+@node Engraving in LilyPond
+@section Engraving in LilyPond
+
-Making sheet music may seem trivial at first (``you print 5 lines, and
-then put in the notes at different heights''), @emph{music engraving},
-i.e. professional music typography, is in another ballpark. The term
-`music engraving' derives from the traditional process of music
+The term music engraving derives from the traditional process of music
printing. Only a few decades ago, sheet music was made by cutting and
-stamping the music into zinc or pewter plates, mirrored. The plate
+stamping the music into zinc or pewter plates, in mirror image. The plate
would be inked, and the depressions caused by the cutting and stamping
-would hold ink. A positive image was formed by pressing paper to the
-plate. Stamping and cutting was completely done by hand. Making
+would hold ink. An image was formed by pressing paper to the
+plate. The stamping and cutting was completely done by hand. Making
corrections was cumbersome, so engraving had to be done correctly in
-one go. As you can imagine this was a highly specialized skill, much
-more so than the traditional process of printing books.
+one go. Of course, this was a highly specialized skill, much more so
+than the traditional process of printing books.
@cindex craftsmanship
@cindex master
-In the traditional German craftsmanship six years of full-time
+In the traditional German system of craftsmanship six years of full-time
training, more than any other craft, were required before a student
could call himself a master of the art. After that many more years of
practical experience were needed to become an established music
engraver. Even today, with the use of high-speed computers and
advanced software, music requires lots of manual fine tuning before it
-acceptable to be published.
+is acceptable for publication.
+
+
+Sheet music is performance material: everything is done to aid the
+musician in letting him perform better. Music often is far away from
+its reader---it might be on a music stand. To make it clearly
+readable, traditionally printed sheet music always uses bold symbols,
+on heavy staff lines, and is printed on large sheets of paper. This
+``strong'' look is also present in the horizontal spacing. To
+minimize the number of page breaks, (hand-engraved) sheet music is
+spaced very tightly. Yet, by a careful distribution of white space,
+the feeling of balance is retained, and a clutter of symbols is
+avoided.
+
+
+We have used these observations in designing LilyPond. The images
+below show the flat symbol. On the left, a scan from a Henle edition,
+which was made by a computer, and in the center is the flat from a
+hand engraved B@"{a}renreiter edition of the same music. The left scan
+illustrates typical flaws of computer print: the symbol is much
+lighter, the staff lines are thinner, and the glyph has a straight
+layout with sharp corners. By contrast, the B@"{a}renreiter has a bold
+and almost voluptuous rounded look. Our flat symbol is designed
+after, among others, this one. It is tuned it to harmonize with the
+thickness of our staff lines, which are also much thicker than Henle's
+lines.
+
+@multitable @columnfractions .1 .3 .3 .3
+@item @tab
+@iftex
+@image{henle-flat-bw,4cm}
+@end iftex
+@html
+<img src=henle-flat-bw.png>
+@end html
+
+@tab
+@iftex
+@image{baer-flat-bw,4cm}
+@end iftex
+@html
+<img src=baer-flat-bw.png>
+@end html
+
+@tab
+@iftex
+@image{lily-flat-bw,4cm}
+@end iftex
+@html
+<img src=lily-flat-bw.png>
+@end html
+
+@item @tab
+Henle (2000)
+@tab
+B@"{a}renreiter (1950)
+@tab
+LilyPond Feta font (2003)
+
+@end multitable
-When we wanted to write a computer program to do create music
-typography, we encountered the first problem: there were no sets of
-musical symbols available: either they were not available freely, or
-they did not look well to our taste. Not let down, we decided to try
-font design ourselves. We created a font of musical symbols, relying
-on nice printouts of hand-engraved music. The experience helped
-develop a typographical taste, and it made us appreciate subtle design
-details. Without that experience, we would not have realized how ugly
-the fonts were that we admired at first.
-
-
-@lilypond[noindent]
-#(define magfact 3.0)
-\score { \notes { as'2 r4 }
- \paper {
- raggedright = ##t
- \translator {
- \ScoreContext
- AccidentalPlacement \override #'right-padding = #3.0
- StaffSymbol \override #'transparent = ##t
- Clef \override #'transparent = ##t
- TimeSignature \override #'transparent = ##t
- Accidental \override #'font-magnification = #magfact
- Rest \override #'font-magnification = #magfact
- NoteHead \override #'font-magnification = #magfact
- Stem \override #'transparent = ##t
- } } }
-@end lilypond
@cindex musical symbols
@cindex font
@cindex blackness
@cindex balance
-
-The figure above shows a few notable glyphs. For example, the
-vertical stem of a flat symbol should be slightly brushed,
-i.e. becoming wider at the top. the half-notehead is not elliptic but
-slightly diamond shaped. Fine endings, such as the one on the bottom
-of the quarter rest, should not end in sharp points, but rather in
-rounded shapes. Taken together, the blackness of the font must be
-carefully tuned together with the thickness of lines, beams and slurs
-to give a strong yet balanced overall impression.
-
-Producing a strong and balanced look is the real challenge of music
-engraving. It is a recurring theme with many variations. In spacing,
-the balance is in a distribution that reflects the character of the
-music. The spacing should not lead to unnatural clusters of black and
-big gaps with white space. The distances between notes should reflect
-the durations between notes, but adhering with mathematical precision
-to the duration will lead to a poor result. Shown here is an example
-of a motive, printed twice. It is printed using both exact
-mathematical spacing, and with some corrections. Can you spot which is
-which?
-
+In spacing, the distribution of space should reflect the durations
+between notes. However, adhering with mathematical precision to the
+duration will lead to a poor result. Shown here is an example of a
+motive, printed twice. It is printed using exact mathematical spacing,
+and with some corrections. Can you spot which fragment is which?
@cindex optical spacing
@lilypond[noindent]
= #0.6
c'4 e''4 e'4 b'4 |
\stemDown b'4 e''4 a'4 e''4| \stemBoth
+ \bar "||"
\property Staff.NoteSpacing \override #'stem-spacing-correction
= #0.0
\property Staff.StaffSpacing \override #'stem-spacing-correction
@cindex regular rhythms
@cindex regular spacing
-The fragment that was printed uses only quarter notes: notes that are
-played in a constant rhythm. The spacing should reflect
-that. Unfortunately, the eye deceives us a little: the eye not only
-notices the distance between note heads, but also between consecutive
-stems. As a result, the notes of a up-stem/down-stem combination
-should be put farther apart, and the notes of a down-up combination
-should be put closer together, all depending on the combined vertical
-positions of the notes. The first two measures are printed with this
-correction, the last two measures without. The notes in the last two
-measures form downstem/upstems clumps of notes.
+The fragment only uses quarter notes: notes that are played in a
+constant rhythm. The spacing should reflect that. Unfortunately, the
+eye deceives us a little: not only does it notice the distance between
+note heads, it also takes into account the distance between
+consecutive stems. As a result, the notes of an up-stem/down-stem
+combination should be put farther apart, and the notes of a down-up
+combination should be put closer together, all depending on the
+combined vertical positions of the notes. The first two measures are
+printed with this correction, the last two measures without. The notes
+in the last two measures form down-stem/up-stems clumps of notes.
+
+@node Typography and program architecture
+@section Typography and program architecture
+
+Producing good engraving requires skill and knowledge. As the
+previous examples show, there is a lot of subtlety involved in music
+engraving, and unfortunately, only a small fraction of these details
+are documented. Master engravers must learn all these details from
+experience or from other engravers, which is why it takes so long to
+become a master. As an engraver gets older and wiser, he will be able
+to produce better and more complex pieces. A similar situation is
+present when putting typographical knowledge into a computer program.
+It is not possible to come up with a definitive solution for a problem
+at the first try. Instead, we start out with simple solution that
+might cover 75% of the cases, and gradually refine that solution over
+the course of months or years, so 90 or 95 % of the cases are
+handled.
+
+This has an important implication for the design of the program: at
+any time, almost every piece of formatting code must be considered as
+temporary. When the need arises, it is to be replaced a solution that
+will cover even more cases. A ``plug-in'' architecture is a clean
+way to accomplish this. This is an architecture where new pieces of
+code can be inserted in the program dynamically. In such a program, a
+new solution can be developed along-side the existing code. For
+testing, it is plugged in, but for production use, the old solution is
+used. The new module can be perfected separately until it is better
+than the existing solution, at which point it replaces the old one.
+
+Until that time, users must have a way to deal with imperfections:
+these 25%, 10% or 5% of the cases that are not handled
+automatically. In these cases, a user must be able to override
+formatting decisions. To accomplish this we store decisions in generic
+variables, and let the user manipulate thosed. For example, consider
+the following fragment of notation:
+
+@lilypond
+\score { \notes \relative c'' {
+\stemUp
+ a4_\f f,8
+ }
+\paper { raggedright = ##t }
+ }
+@end lilypond
-We hope that these examples show that music typography is a subtle
-business, and that it requires skill and knowledge to produce good
-engraving. It was our challenge to see if we could put such knowledge
-into a computer program.
+@noindent
+The position of the forte symbol is slightly awkward, because it is
+next to the low note, whereas dynamics should be below notes in
+general. This may be remedied by inserting extra space between the
+high note and the `f', as shown in this example:
+
+@lilypond
+\score { \notes \relative c'' {
+\stemUp
+ \once\property Voice. DynamicLineSpanner \override #'padding = #4.0
+ a4_\f f,8
+ }
+\paper { raggedright = ##t }
+ }
+@end lilypond
+
+This was achieved with the following input statement:
+@example
+ \once \property Voice. DynamicLineSpanner \override #'padding = #4.0
+@end example
+It increases the amount of space (@code{padding}) between the note and
+the dynamic symbol to 4.0 (which is measured in staff space, so 4.0
+equals the height of a staff). The keyword @code{\once} indicates that
+this is a tweak: it is only done one time.
+
+Both design aspects, a plug-in architecture, and formatting variables,
+are built on top of GUILE, an interpreter for the programming language
+Scheme, which is a member of the LISP family. Variables are stored as
+Scheme objects, and attached to graphical objects such as note heads
+and stems. The variables are a means to adjust formatting details in
+individual cases, but they are used in a more general manner.
+
+Consider the case of a publisher that is not satisfied with the in the
+default layout, and wants heavier stems. Normally, they are @code{1.3}
+times the thickness of staff lines, but suppose that their editions
+require them to be twice the thickness of the staff lines. The same
+mechanism can be used to adjust a setting globally. By issuing the
+following command, the entire piece is now formatted with thicker stems:
+@example
+ \property Score.Stem \override #'thickness = #2.0
+@end example
+
+@lilypond
+\score { \notes \relative c'' {
+ \property Score.Stem \override #'thickness = #2.0
+ \once\property Voice. DynamicLineSpanner \override #'padding = #4.0
+\stemUp
+ a4_\f f,8
+ }
+\paper { raggedright = ##t }
+ }
+@end lilypond
+
+@noindent
+In effect, by setting these variables, users can define their own
+layout styles.
+
+``Plug-ins'' are also implemented using Scheme. A formatting
+``plug-in'' takes the form of a function written in Scheme (or a C++
+function made available as a Scheme function), and it is also stored
+in a variable. For example, the placement of the forte symbol in the
+example above is calculated by the function
+@code{Side_position_interface::aligned_side}. If we want to replace
+this function by a more advanced one, we could issue
+@example
+ \property Voice.DynamicLineSpanner \override #'Y-offset-callbacks
+ = #`(,gee-whiz-gadget)
+@end example
+
+@noindent
+Now, the formatting process will trigger a call to our new
+@code{gee-whiz-gadget} function when the position of the f symbol has
+to be determined.
+
+The full scope of this functionality certainly is intimidating, but
+there is no need to fear: normally, it is not necessary to define
+style-sheets or rewrite formatting functions. In fact, LilyPond gets a
+lot of formatting right automatically, so adjusting individual layout
+situations is not needed often at all.
@node Music representation
@section Music representation
-One of the big questions when making programs, is what kind of input
-the program should expect. Many music notation programs offer a
-graphical interface that shows notation, and allow you to enter the
-music by placing notes on a staff. From our point of view, this design
-is a form of cheating. After all, the core message of a piece of music
-notation simply is the music itself. If you start by offering notation
-to the user, you have already skipped one conversion, even if it is
-implicit. If we want to generate music notation from something else,
-then the obvious candidate for the source is the music itself.
+Our premise is that LilyPond is a system that does music formatting
+completely automatically. Under this assumption, the output does not
+have to be touched up. Consequently, an interactive display of the
+output, where it is possible to reposition notation elements, is
+superfluous. This implies that the program should be a batch program:
+the input is entered in a file, which then is @emph{compiled}, i.e.
+put through the program. The final output is produced as a file ready
+to view or print. The compiler fills in all the details of the
+notation, those details should be left out of the input file. In other
+words, the input should mirror the content as closely as possible. In
+the case of music notation the content is the music itself, so that is
+what the input should consist of.
On paper this theory sounds very good. In practice, it opens a can of
worms. What really @emph{is} music? Many philosophical treatises must
There are also more practical concerns. Our users have to key in the
music into the file directly, so the input format should have a
-friendly syntax. As programmers and scientists, we want a
-clean formal definition. After all, producing music notation is a
-difficult problem, and in the scientific world, problems can only be
-solved if they are well-specified. Moreover, formally defined formats
-are easier to write programs for.
-
-These ideas shaped our music representation: it is a compact format
-that can easily be typed by hand. It complex musical constructs from
-simple entities like notes and rests, in much the same way that one
-builds complex formulas from simple expressions such as numbers and
-mathematical operators.
+friendly syntax: a quarter note C is entered as @code{c4}, the code
+@code{r8.} signifies a dotted eighth rest.
+
+Notes and rests form the simplest musical expressions in the input
+syntax. More complex constructs are produced by combining them into
+compound structures. This is done in much the same way that complex
+mathematical formulas are built from simple expressions such as
+numbers and operators.
+
+In effect, the input format is a language, and the rules of that
+language can be specified succinctly with a so-called context-free
+grammar. The grammar formally specificies what types of input form
+valid `sentences'. Reading such languages, and splitting them into
+grammatical structures is a problem with standard solutions.
+Moreover, rigid definitions make the format easier to understand: a
+concise formal definition permits a simple informal description.
+
+The user-interface of LilyPond is its syntax. That part is what users
+see most. As a results, some users think that music representation is
+a very important or interesting problem. In reality, less than 10% of
+the source code of the program handles reading and representing the
+input, and they form the easy bits of the program. In our opinion,
+producing music notation, and formatting it prettily are much more
+interesting and important than music representation: solving
+these problems takes up most of the bulk of the code, and they are the
+most difficult things to get right.
@node Example applications
@section Example applications
-As programmers and hedonists we enjoy beauty in code, and code that
-produces beautiful typeset music, but nevertheless this program can
-applied to do useful things. In this section, we show a few small
-examples of what is possible.
-
-The simplest application, is printing just notes.
+We have written LilyPond as an experiment of how to condense the art
+of music engraving into a computer program. Thanks to all that hard
+work, the program can now be used to perform useful tasks. The
+simplest application is printing notes:
@lilypond[relative=1]
\time 2/4 c4 c g'4 g a4 a g2
@end lilypond
-To these notes, chord names and lyrics may be added
+By adding chord names and lyrics we obtain a lead sheet:
@lilypond[raggedright]
-\score { <
+\score { <<
\context ChordNames \chords { c2 c f2 c }
\notes \relative c' { \time 2/4 c4 c g'4 g a4 a g2 }
- \context Lyrics \lyrics { twin kle twin kle lit tle star } > }
+ \context Lyrics \lyrics { twin4 kle twin kle lit tle star2 } >> }
@end lilypond
+Polyphonic notation and piano music can also be printed. The following
+example combines some more exotic constructs:
-[TODO: need piano and tab example]
+@lilypondfile{screech-boink.ly}
-The following example combines some more exotic uses of notation
+The fragments shown above have all been written by hand, but that is
+not a requirement. Since the formatting engine is mostly automatic, it
+can serve as an output means for other programs that manipulate
+music. For example, it can also be used to convert databases of
+musical fragments to images for use on websites and multimedia
+presentations.
-@lilypondfile{screech-boink.ly}
+This manual also shows an application: the input format is plain text,
+and can therefore be easily embedded in other text-based formats, such
+as La@TeX{}, HTML or in the case of this manual, Texinfo. By means of a
+special program, the input fragments can be replaced by music images in
+the resulting PostScript or HTML output files. This makes it easy to
+mix music and text in documents.
@node About this manual
@section About this manual
-The manual is divided into the following chapters
+The manual is divided into the following chapters:
@itemize @bullet
-@item The @emph{tutorial}
-(@ref{Tutorial}) gives a gentle introduction into typesetting music.
+@item
+@ifhtml The
+@end ifhtml
+@emph{@ref{Tutorial}}
+gives a gentle introduction to typesetting music.
First time users should start here.
-@item The @emph{notation manual} (@ref{Notation manual}),
-is a user manual that discusses topics grouped by notation construct.
-@item The @emph{technical manual} (@ref{Advanced topics})
-discusses the general design of the program, and how to extend the
+@item
+@ifhtml
+The
+@end ifhtml
+@emph{@ref{Notation manual}}
+discusses topics grouped by notation construct. Once you master the
+basics, this is the place to look up details.
+@item
+@ifhtml
+The
+@end ifhtml
+@emph{@ref{Literature list}}
+ contains a set of useful reference books, for those who wish to know
+ more on notation and engraving.
+@item
+@ifhtml
+ The
+ @end ifhtml
+@emph{@ref{Technical manual}}
+@c
+discusses the general design of the program, and how to extend its
functionality.
-@item The chapter
-on @emph{Invoking} (@ref{Invoking LilyPond}) explains how to run LilyPond and its helper
+@item
+@ifhtml
+The chapter
+@end ifhtml
+@emph{@ref{Invoking LilyPond}} explains how to run LilyPond and its helper
programs.
+
+@item
+@ifhtml
+The
+@end ifhtml
+@emph{@ref{lilypond-book manual}}
+explains the details behind creating documents with in-line music
+examples (like this manual).
+
+
+@item
+@ifhtml
+The chapter
+@end ifhtml
+@emph{@ref{Converting from other formats}}
+explains how to run the conversion programs. These programs
+are supplied with the LilyPond package, and convert a variety of music
+formats to the @code{.ly} format. In addition, this section explains
+how to upgrade input files from previous versions of LilyPond.
+
@end itemize
-Once you are experienced, you can simply use the manual as reference:
+Once you are an experienced user, you can use the manual as reference:
there is an extensive index@footnote{If you are looking for something,
-and you cannot find it by using the index, that is considered a bug.
-In that case, please file a bug report}, but the document is also
+and you cannot find it in the manual, that is considered a bug. In
+that case, please file a bug report.}, but the document is also
available in
@ifnothtml
-One Big Page,
+a big HTML page,
@end ifnothtml
@ifhtml
-@uref{One Big Page,../lilypond.html}
+@uref{../lilypond.html, a big HTML page}
@end ifhtml
-which is is available for text search using your browser's search
-facility.
+which can be searched easily using the search facility of a web
+browser.
@cindex search in manual
@cindex using the manual
-If you are familiar with music notation, and music terminology
-(especially if you are a foreigner), then it is advisable to consult
-the glossary as well. This documents explains many terms, and includes
-translations to various languages. It is a
+If you are not familiar with music notation or music terminology
+(especially if you are a non-native English speaker), then it is
+advisable to consult the glossary as well. The glossary explains
+musical terms, and includes translations to various languages. It is a
@ifhtml
-@uref{../glossary.html,separate document}
+@uref{../music-glossary.html,separate document}.
@end ifhtml
@ifnothtml
-separate document, and can be printed as well.
+separate document, available in HTML and PDF.
@end ifnothtml
@cindex idiom
@cindex jargon
This manual is not complete without a number of other documents. They
are not available in print, but should be included with the
-documentation package for your platform
+documentation package for your platform:
@itemize @bullet
@item
-Generated internal documentation.
+Program reference
@ifhtml
-available @uref{../lilypond-internals/lilypond-internals.html,here}
+(available @uref{../lilypond-internals/lilypond-internals.html,here})
@end ifhtml
+The program reference is a set of heavily crosslinked HTML pages,
+which documents the nit-gritty details of each and every LilyPond
+class, object and function. It is produced directly from the
+formatting definitions used.
+
Almost all formatting functionality that is used internally, is
available directly to the user. For example, all variables that
control thicknesses, distances, etc, can be changed in input
-files. There are a huge number of formatting options, and it would be
-impossible to describe them all in a hand-written manual. The
-generated internal documentation is a heavily crosslinked HTML
-document, produced directly from the formatting definitions used. It
-documents the nit-gritty details of each and every LilyPond class, object and
-function.
-
-Each section of the reference manual has a @b{See also}
-subsection, with links (in the HTML document, at least) to the
-generated documentation.
+files. There are a huge number of formatting options, and all of them
+are described in the generated documentation. Each section of the
+notation manual has a @b{See also} subsection, which refers to the
+the generated documentation. In the HTML document, these subsections
+have clickable links.
@item
Templates
@ifhtml
-(available @uref{../../../input/templates/out-www/collated-files.html,here})
+(available @uref{../../../input/template/out-www/collated-files.html,here})
@end ifhtml
- When you have gone through the tutorial, you theoretically should be
-able to start writing input files. However, this turns out to be a
-little intimidating. To give you a headstart, we have collected a
-number of often-used formats in example files. You can take one of
-these example files, and add notes in the appropriate places to
-generate output.
+After you have gone through the tutorial, you should be able to write
+input files. In practice, writing files from scratch turns out to be
+intimidating. To give you a headstart, we have collected a number of
+often-used formats in example files. These files can be used as a
+start: simply copy the template, and add notes in the appropriate
+places.
@item
Various input examples
@ifhtml
-available @uref{../../../input/test/out-www/collated-files.html,here}
+(available @uref{../../../../input/test/out-www/collated-files.html,here})
@end ifhtml
@cindex snippets
-These small files show various applications of lilypond, and are
-available as a big HTML document, with pictures and explanatory texts
-included.
+These small files show various tips and tricks, and are available as a
+big HTML document, with pictures and explanatory texts included.
@item
- The regression test
+ The regression tests
@ifhtml
-available @uref{../../../input/regression/out-www/collated-files.html,here}
+(available @uref{../../../input/regression/out-www/collated-files.html,here})
@end ifhtml
-We strive to test each feature in one test file. This collection of is
-primarily to help us debug problems, but it can be instructive to see
-how we excercise the program. The format is like the input examples.
+This collection of files tests each notation and engraving feature of
+LilyPond in one file. The collection is primarily there to help us
+debug problems, but it can be instructive to see how we excercise the
+program. The format is like the tips and tricks document.
@end itemize
+
+In all HTML documents that have music fragments embedded, the LilyPond
+input that was used to produce that image can be viewed by clicking
+the image.
+
The location of the documentation files that are mentioned here can
-vary from system to system. Throughout this manual, we refer to input
-files relative to the top-directory of the source archive. For
+vary from system to system. On occasion, this manual refers to
+initialization and example files. Throughout this manual, we refer to
+input files relative to the top-directory of the source archive. For
example, @file{input/test/bla.ly} may refer to the file
@file{lilypond-1.7.19/input/test/bla.ly}. On binary packages for the
-Unix platform, these can typically be found somewhere below
-@file{/usr/share/doc/lilypond/}. Initialization files, for example
-@file{scm/lily.scm}, or @file{ly/engraver-init.ly}, are usually found
-in the directory @file{/usr/share/lilypond/}.
+Unix platform, the documentation and examples can typically be found
+somewhere below @file{/usr/share/doc/lilypond/}. Initialization files,
+for example @file{scm/lily.scm}, or @file{ly/engraver-init.ly}, are
+usually found in the directory @file{/usr/share/lilypond/}.
@cindex adjusting output
@cindex variables
@cindex extending lilypond
@cindex bugreport
@cindex index
+
+Finally, this and all other manuals, are available online both as PDF
+files and HTML from the web site, which can be found at
+@uref{http://www.lilypond.org/}.
+
+@cindex website
+@cindex URL