-@c -*-texinfo-*-
-@c TODO:
-@c - Reinsert subsection commands that were lost in the
-@c ancient conversion from YODL! /MB
-@c - Restructure! Separate internal commands from user level commands. /MB
-@c - Add some words about Guile. /MB
-@c - Fix indexing (keyindex) so it doesn't add line breaks /MB
-
-@node Reference Manual, , , Top
+
+@c Note:
+@c
+@c A menu is needed before every deeper *section nesting of @nodes
+@c Run M-x texinfo-all-menus-update
+@c to automagically fill in these menus
+@c before saving changes
+
+
+@ignore
+ TODO:
+
+ fix all FIXMEs
+
+ Rhythm staff (clef, x-notehead)
+
+@end ignore
+
+
+@c .{Reference Manual}
+
+@node Reference Manual
@chapter Reference Manual
+This document describes GNU LilyPond and its input format. This document
+has been revised for LilyPond 1.3.131
+
+
+
@menu
-* Overview:: Overview
-* Top level:: Top level
-* Pitch names:: Pitch names
-* Lexical conventions:: Lexical conventions
-* Other languages:: Note names in various languages
-* Lexical modes:: modes
-* Types:: Types
-* Music expressions:: Music expressions
-* Atomic music expressions:: Atomic music expressions
-* Note specification:: notedesc
-* barlines:: barlines
-* Manual beams:: Manual beam
-* stem tremolo:: tremolo
-* Compound music expressions:: Compound music expressions
-* relative:: relative
-* Repeats:: Repeats
-* transpose:: transpose
-* Ambiguities:: Ambiguities
-* Notation conversion specifics:: Notation conversion specifics
-* autobeam:: autobeam
-* lyricprint:: lyricprint
-* Notation Contexts:: Notation Contexts
-* Properties:: Changing formatting
-* Notation output definitions:: Notation output definitions
-* paper:: paper
-* Paper variables:: papervars
-* contextdefs:: contextdefs
-* Sound output:: Sound output
-* midilist:: midilist
-* Grobs:: Graphical objects
-* Molecule:: Molecules
-* Pre-defined Identifiers:: Pre-defined Identifiers
-@c May be fragile. Better make single link to generated doco?
-* Interpretation contexts:(lilypond-internals)LilyPond interpretation contexts.
-* Engravers:(lilypond-internals)LilyPond engravers.
-* Backend:(lilypond-internals)LilyPond backend.
+* Overview::
+* Note entry::
+* Music notation::
+* Polyphony::
+* Spanners::
+* Repeats::
+* Piano music::
+* Lyrics::
+* Chords::
+* Writing parts::
+* Custodes::
+* Tuning output::
+* Page layout::
+* Sound::
+* Music entry::
+* Engravers::
+* Syntactic details::
@end menu
+@c . {Overview}
+@node Overview
+@section Overview
-@node Overview, , , Reference Manual
-@section Overview
+The purpose of LilyPond is explained informally by the term `music
+typesetter'. This is not a fully correct name: not only does the
+program print musical symbols, it also makes esthetic decisions. All
+symbols and their placement is @emph{generated} from a high-level
+musical description. In other words, LilyPond would be best described
+by `music compiler' or `music to notation compiler'.
+
+Internally, LilyPond is written in a mixture of Scheme and C++. Most of
+the algorithms and low-level routines are written in C++, but these low
+level components are glued together using Scheme data
+structures. LilyPond is linked to GUILE, GNU's Scheme library for
+extension.
+
+When lilypond is run to typeset sheet music, the following happens:
-This document@footnote{This document has been revised for LilyPond 1.2.}
-describes the the GNU LilyPond input format This format represents a
-piece of music in an elegant way, but contains enough information for
-both automatic typesetting and automatic performances.
+@itemize @bullet
+@item GUILE Initialization: various scheme files are read
+@item parsing: first standard .ly initialization files are read, and
+then the user @file{.ly} file is read.
+@item interpretation: the music in the file is processed "in playing
+order", i.e. in the same order as your eyes scan sheet music, and in the
+same order that you hear the notes play.
+
+@item typesetting:
+in this step, the results of the interpretation, a typesetting
+specification, is solved.
+
+@item the visible results ("virtual ink") is written to the output file.
+@end itemize
-LilyPond input can be classified into three types:
+These stages, involve data of a specific type: during parsing,
+@strong{Music} objects are created. During the interpretation,
+@strong{context} is constructed, and with this context af network of
+@strong{graphical objects} (``grobs'') is created. The grobs contain
+unknown variables, and the network forms a set of equations. After
+solving the equations and filling in these variables, the printed output
+(in the form of @strong{molecules}) is written to an output file.
+
+These threemanship of tasks (parsing, translating, typesetting) and
+data-structures (music, context, graphical objects) permeates the entire
+design of the program. This manual is ordered in terms of user
+tasks. With each concept will be explained to which of the three parts
+it belongs.
+
+LilyPond input can be classified into three types:
@itemize @bullet
@item musical expressions: a musical expression is some combination of
rest, notes, lyrics
-@node Top level, , , Reference Manual
-@section Top level
-@cindex top level
-
-This section describes what you may enter at top level.
+@c . {Note entry}
+@node Note entry
+@section Note entry
+@cindex Note entry
+@menu
+* Notes mode::
+* Pitches::
+* Defining pitch names::
+* Durations::
+* Notes::
+* Rests::
+* Skip::
+@end menu
+@c . {Notes mode}
+@node Notes mode
+@subsection Notes mode
-@cindex score definition
+@cindex note mode
-The output is generated combining a music expression with an output
-definition. A score block has the following syntax:
+@cindex @code{\notes}
+Note mode is introduced by the keyword
+@code{\notes}. In Note mode, words can only
+contain alphabetic characters. If @code{word} is encountered,
+LilyPond first checks for a notename of @code{word}. If no
+notename is found, then @code{word} is treated as a string.
-@example
- \score @{ @var{musicexpr} @var{outputdefs} @}
-@end example
+Since combinations of numbers and dots are used for indicating
+durations, it is not possible to enter real numbers in this mode.
-@var{outputdefs} are zero or more output definitions. If no output
-definition is supplied, the default @code{\paper} block will be added.
+@cindex Notes mode
-@cindex header
+@c . {Pitches}
+@node Pitches
+@subsection Pitches
-@keyindex{header}
+@cindex Pitch names
+@cindex Note specification
+@cindex pitches
+@cindex entering notes
-The syntax is
+The verbose syntax for pitch specification is
+@cindex @code{\pitch}
@example
- \header @{ @var{key1} = @var{val1};
- @var{key2} = @var{val2}; @dots{} @}
+ \pitch @var{scmpitch}
@end example
-A header describes the file's contents. It can also appear in a
-@code{\score} block. Tools like @code{ly2dvi}@indexcode{ly2dvi} can use this
-information for generating titles. Key values that are used by
-@code{ly2dvi} are: title, subtitle, composer, opus, poet, instrument,
-metre, arranger, piece and tagline.
-
-It is customary to put the @code{\header} at the top of the file.
-
+@var{scmpitch} is a pitch scheme object, see @ref{Pitch data type}.
-@node Pitch names, , , Reference Manual
+In Note and Chord mode, pitches may be designated by names. The default
+names are the Dutch note names. The notes are specified by the letters
+@code{c} through @code{b}, where @code{c} is an octave below middle C
+and the letters span the octave above that C. In Dutch,
+@cindex note names, Dutch
+a sharp is formed by adding @code{-is} to the end of a pitch name. A
+flat is formed by adding @code{-es}. Double sharps and double flats are
+obtained by adding @code{-isis} or @code{-eses}. @code{aes} and
+@code{ees} are contracted to @code{as} and @code{es} in Dutch, but both
+forms will be accepted.
-Note names and chord modifiers can be customised for nationalities.
-languages and conventions. The syntax is as follows.
-@example
- \pitchnames @keyindex{pitchnames} @var{scheme-alist}
- \chordmodifiers@keyindex{chordmodifiers} @var{scheme-alist}
-@end example
+LilyPond has predefined sets of notenames for various other languages.
+To use them, simply include the language specific init file. For
+example: @code{\include "english.ly"}. The available language files and
+the names they define are:
-See @file{ly/nederlands.ly} and @file{ly/chord-modifiers.ly} for
-specific examples how to do this. tables can be tailored specified
-using. Some national note names have been provided, see @ref{Other
-languages}.
+@example
+ Note Names sharp flat
+nederlands.ly c d e f g a bes b -is -es
+english.ly c d e f g a bf b -s/-sharp -f/-flat
+deutsch.ly c d e f g a b h -is -es
+norsk.ly c d e f g a b h -iss/-is -ess/-es
+svenska.ly c d e f g a b h -iss -ess
+italiano.ly do re mi fa sol la sib si -d -b
+catalan.ly do re mi fa sol la sib si -d/-s -b
+@end example
-A @code{\paper} block at top level sets the default paper block. A
-@code{\midi} block at top level works similarly.
+@cindex @code{'}
+@cindex @code{,}
-Identifier assignments may appear at top level. Semicolons are
-forbidden after top level assignments.
+The optional octave specification takes the form of a series of
+single quote (`@code{'}') characters or a series of comma
+(`@code{,}') characters. Each @code{'} raises the pitch by one
+octave; each @code{,} lowers the pitch by an octave.
+@lilypond[fragment,verbatim,center]
+ c' d' e' f' g' a' b' c''
+@end lilypond
-@node Lexical conventions, , , Reference Manual
-@section Lexical conventions
+@lilypond[fragment,verbatim,center]
+ cis' dis' eis' fis' gis' ais' bis'
+@end lilypond
-@cindex lexical conventions
+@lilypond[fragment,verbatim,center]
+ ces' des' es' fes' ges' as' bes'
+@end lilypond
+@lilypond[fragment,verbatim,center]
+ cisis' eisis' gisis' aisis' beses'
+@end lilypond
+@lilypond[fragment,verbatim,center]
+ ceses' eses' geses' ases' beses'
+@end lilypond
-@unnumberedsubsec Comments
-@cindex comment
+@c . {Defining pitch names}
+@node Defining pitch names
+@subsection Defining pitch names
-@indexcode{%}
+@cindex defining pitch names
+@cindex pitch names, defining
+Note names and chord modifiers can be customised for nationalities. The
+syntax is as follows.
-A one line comment is introduced by a `@code{%}' character.
-Block comments are started by `@code{%@{}' and ended by `@code{%@}}'.
-They cannot be nested.
+@cindex @code{\pitchnames}
+@cindex @code{\chordmodifiers}
+@example
+ \pitchnames @var{scheme-alist}
+ \chordmodifiers @var{scheme-alist}
+@end example
-@unnumberedsubsec Scheme
+See @file{ly/nederlands.ly} and @file{ly/chord-modifiers.ly} for
+specific examples how to do this. Some national note names have been
+provided, among others: Norwegian, Swedish, German, Italian, Catalan,
+French, Dutch and English.
-@indexcode{#}
-LilyPond contains a Scheme interpreter (the GUILE library) for
-internal use. The interpreter is accessed by the pound sign:
+@c . {Durations}
+@node Durations
+@subsection Durations
-Whereever the syntax allows Scheme expressions, you may enter one as
-@example
- #@var{scheme}
-@end example
+@cindex duration
+@cindex @code{\duration}
-Evaluates the specified Scheme code. If this is used at toplevel, then
-the result is discarded. Example:
+The syntax for an verbose duration specification is
@example
- \property Staff.TestObject \override #'symbol = #(+ 1 2)
+ \duration @var{scmduration}
@end example
-(in this case, @code{\override} expects two Scheme expressions.
+In Note, Chord, and Lyrics mode, durations may be designated by numbers
+and dots: durations are entered as their reciprocal values. For notes
+longer than a whole note, use identifiers.
-[refer appendix/ online intro on Scheme]
+@quotation
-@unnumberedsubsec Keywords
+@example
+c'\longa c'\breve
+c'1 c'2 c'4 c'8 c'16 c'32 c'64 c'64
+r\longa r\breve
+r1 r2 r4 r8 r16 r32 r64 r64
+@end example
-@cindex keyword
-Keywords start with a backslash, followed by a number of lower case
-alphabetic characters. These are all the keywords.
+@lilypond[]
+\score {
+ \notes \relative c'' {
+ a\longa a\breve \autoBeamOff
+ a1 a2 a4 a8 a16 a32 a64 a64
+ r\longa r\breve
+ r1 r2 r4 r8 r16 r32 r64 r64
+ }
+ \paper {
+ \translator {
+ \StaffContext
+ \remove "Clef_engraver";
+ \remove "Staff_symbol_engraver";
+ \remove "Time_signature_engraver";
+ \consists "Pitch_squash_engraver";
+ }
+ }
+}
+@end lilypond
+@end quotation
-@example
-apply arpeggio autochange spanrequest commandspanrequest
-simultaneous sequential accepts alternative bar breathe
-char chordmodifiers chords clef cm consists consistsend
-context denies duration dynamicscript elementdescriptions
-font grace header in lyrics key mark musicalpitch
-time times midi mm name pitchnames notes outputproperty
-override set revert partial paper penalty property pt
-relative remove repeat addlyrics partcombine score
-script stylesheet skip textscript tempo translator
-transpose type
-@end example
+As you can see, the longa is not printed. To get a longa note head, you
+have to use a mensural note heads. This is done accomplished by setting
+the @code{style} property of the NoteHead grob to @code{mensural}.
-@unnumberedsubsec Integers
+If the duration is omitted then it is set equal to the previous duration
+entered. At the start of parsing there is no previous duration, so then
+a quarter note is assumed. The duration can be followed by a dot
+(`@code{.}') to obtain dotted note lengths.
+@cindex @code{.}
-@cindex integer
+@lilypond[fragment,verbatim,center]
+ a'4. b'4. c'2..
+@end lilypond
+@cindex @code{r}
+@cindex @code{s}
-Formed from an optional minus sign followed by digits. Arithmetic
-operations cannot be done with integers, and integers cannot be mixed
-with reals.
+You can alter the length of duration by writing `@code{*}@var{fraction}'
+after it. This will not affect the appearance of note heads or rests.
-@unnumberedsubsec Reals
+@c . {Notes}
+@node Notes
+@subsection Notes
-@cindex real
-
+A note specification has the form
-Formed from an optional minus sign and a sequence of digits followed
-by a @emph{required} decimal point and an optional exponent such as
-@code{-1.2e3}. Reals can be built up using the usual operations:
-`@code{+}@indexcode{+}', `@code{-}@indexcode{-}', `@code{*}@indexcode{*}', and
-`@code{/}@indexcode{/}', with parentheses for grouping.
+@example
+ @var{pitch}[@var{octavespec}][!][?][@var{duration}]
+@end example
-A real constant can be followed by one of the dimension
-keywords:
-@cindex dimensions
- @code{\mm}@keyindex{mm},
-@code{\pt}@keyindex{pt}, @code{\in}@keyindex{in}, or
-@code{\cm}@keyindex{cm}, for millimeters, points, inches and
-centimeters, respectively. This converts the number to a real that
-is the internal representation of dimensions.
+LilyPond will determine what accidentals to typeset depending on the key
+and context, so alteration refer to what note is heard, not to whether
+accidentals are printed. A reminder accidental
+@cindex reminder accidental
+@cindex @code{?}
+can be forced by adding an exclamation mark @code{!} after the pitch.
+A cautionary accidental,
+@cindex cautionary accidental
-@unnumberedsubsec
-@cindex string
-
-Begins and ends with the `@code{"}' character. To include a `@code{"}'
-character in a string write `@code{\"}'. Various other backslash
-sequences have special interpretations as in the C language. A string
-that contains no spaces can be written without the quotes. See
-@ref{Lexical modes} for details on unquoted strings; their interpretation varies
-depending on the situation. Strings can be concatenated with the
-`@code{+}' operator.
+i.e., an accidental within parentheses can be obtained by adding the
+question mark `@code{?}' after the pitch.
-The tokenizer accepts the following commands. They have no grammatical
-function, hence they can appear anywhere in the input.
+@lilypond[fragment,verbatim,center]
+ cis' d' e' cis' c'? d' e' c'!
+@end lilypond
-@example
- \maininput@keyindex{maininput}
-@end example
-This command is used in init files to signal that the user file must
-be read. This command cannot be used in a user file.
+@c . {Rests}
+@node Rests
+@subsection Rests
+@cindex Rests
-@unnumberedsubsec file inclusion
+Rests are entered like notes, with note name `@code{r}'.
+There is also a note name
+`@code{s}', which produces a space of the specified
+duration.
-@example
- \include@keyindex{include} @var{file}
-@end example
-Include @var{file}. The argument @var{file} may be a quoted string (an
-unquoted string will not work here!) or a string identifier. The full
-filename including the @file{.ly} extension must be given,
+@c . {Skip}
+@node Skip
+@subsection Skip
+@cindex Skip
-@unnumberedsubsec Version information
@example
- \version@keyindex{version} @var{string} ;
+ \skip @var{duration} @code{;}
@end example
+@cindex @code{\skip}
-Specify the version of LilyPond that a file was written for. The
-argument is a version string in quotes, for example @code{"1.2.0"}.
-This is used to detect invalid input, and to aid
-@code{convert-ly}, a tool that automatically upgrades input files.
-
-
+Skips the amount of time specified by @var{duration}. If no other
+music is played, a gap will be left for the skipped time with no
+notes printed. It works in Note Mode or Lyrics Mode. In Note mode,
+this has the same effect as the spacer rest.
-@cindex other languages
-@node Other languages, , , Reference Manual
-Note name definitions have been provided in various languages.
-Simply include the language specific init file. For example:
-`@code{\include "english.ly"}'. The available language files and the
-names they define are:
+@c . {Music notation}
+@node Music notation
+@section Music notation
+@cindex Music notation
+@menu
+* Key::
+* Breath marks::
+* Time signature::
+@end menu
-@example
- Note Names sharp flat
-nederlands.ly c d e f g a bes b -is -es
-english.ly c d e f g a bf b -s/-sharp -f/-flat
-deutsch.ly c d e f g a b h -is -es
-norsk.ly c d e f g a b h -iss/-is -ess/-es
-svenska.ly c d e f g a b h -iss -ess
-italiano.ly do re mi fa sol la sib si -d -b
-catalan.ly do re mi fa sol la sib si -d/-s -b
-@end example
+@c . {Key}
+@node Key
+@subsection Key
+@cindex Key
-Pitch names can be redefined using the @code{\pitchnames} command, see
-@ref{Pitch names}.
+@cindex @code{\key}
-@cindex Lexical Modes
+@example
+ @code{\key} @var{pitch} @var{type} @code{;}
+@end example
+@cindex @code{\minor}
+@cindex @code{\major}
+@cindex @code{\minor}
+@cindex @code{\ionian}
+@cindex @code{\locrian}
+@cindex @code{\aeolian}
+@cindex @code{\mixolydian}
+@cindex @code{\lydian}
+@cindex @code{\phrygian}
+@cindex @code{\dorian}
-@cindex modes
+Change the key signature. @var{type} should be @code{\major} or
+@code{\minor} to get @var{pitch}-major or @var{pitch}-minor,
+respectively. The second argument is optional; the default is major
+keys. The @var{\context} argument can also be given as an integer,
+which tells the number of semitones that should be added to the pitch
+given in the subsequent @code{\key} commands to get the corresponding
+major key, e.g., @code{\minor} is defined as 3. The standard mode names
+@code{\ionian}, @code{\locrian}, @code{\aeolian}, @code{\mixolydian},
+@code{\lydian}, @code{\phrygian}, and @code{\dorian} are also defined.
-@node Lexical modes, , , Reference Manual
+This command sets @code{Staff.keySignature}.
-To simplify entering notes, lyrics, and chords, @emph{Lilypond} has three
-special input modes on top of the default mode. In each mode, words
-are identified on the input. If @code{"word"} is encountered, it is
-treated as a string. If @code{\word} is encountered, it is treated as
-a keyword or as an identifier. The behavior of the modes differs in
-two ways: Different modes treat unquoted words differently, and
-different modes have different rules for deciding what is a word.
-@table @samp
- @item Normal mode.
-@cindex mode!normal
-
- At the start of parsing, @emph{Lilypond} is in Normal mode. In Normal
- mode, a word is an alphabetic character followed by alphanumeric
- characters. If @code{word} is encountered on the input it is
- treated as a string.
-
- @item Note mode.
-@cindex mode!note
-
- Note mode is introduced by the keyword
- @code{\notes}@keyindex{notes}. In Note mode, words can only
- contain alphabetic characters. If @code{word} is encountered,
- LilyPond first checks for a notename of @code{word}. If no
- notename is found, then @code{word} is treated as a string.
-
- Since combinations of numbers and dots are used for indicating
- durations, it is not possible to enter real numbers in this mode.
-
- @item Chord mode.
-@cindex mode!chord
-
- Chord mode is introduced by the keyword
- @code{\chords}@keyindex{chords}. It is similar to Note mode, but
- words are also looked up in a chord modifier table (containing
- @code{maj}, @code{dim}, etc).
-
- Since combinations of numbers and dots are used for indicating
- durations, you can not enter real numbers in this mode. Dashes
- and carets are used to indicate chord additions and subtractions,
- so scripts can not be entered in Chord mode.
-
- @item Lyrics mode.
-@cindex mode!lyric
-
- Lyrics mode is introduced by the keyword
- @code{\lyrics}@keyindex{lyrics}. This mode has rules that make it
- easy to include punctuation and diacritical marks in words. A
- word in Lyrics mode begins with: an alphabetic character,
- `@code{_}', `@code{?}', `@code{!}', `@code{:}', `@code{'}', the
- control characters @code{^A} through @code{^F}, @code{^Q} through
- @code{^W}, @code{^Y}, @code{^^}, any 8-bit character with ASCII code
- over 127, or a two-character combination of a backslash followed
- by one of `@code{`}', `@code{'}', `@code{"}', or
- `@code{^}'.@footnote{The purpose of Lyrics mode is that you can
- enter lyrics in @TeX{} format or a standard encoding without
- needing quotes. The precise definition of this mode indeed is
- ludicrous. This will remain so until the authors of LilyPond
- acquire a deeper understanding of character encoding, or someone
- else steps up to fix this.}
-
- Subsequent characters of a word can be any character that is not
- a digit and not white space. One important consequence of this
- is that a word can end with `@code{@}}', which may be confusing if
- you thought the closing brace was going to terminate Lyrics
- mode.@footnote{LilyPond will issue a warning, though.} Any
- `@code{_}' character which appears in an unquoted word is
- converted to a space. This provides a mechanism for introducing
- spaces into words without using quotes. Quoted words can also be
- used in Lyrics mode to specify words that cannot be written with
- the above rules. Here are some examples. Not all of these words
- are printable by @TeX{}.
-@example
-Ah! % a word
-2B_||_!2B % not a word because it starts with a digit
-``Hello'' % not a word because it starts with `
-_ _ _ _ % 4 words, each one a space
-@end example
+@cindex @code{keySignature}
- Since combinations of numbers and dots are used for indicating
- durations, you can not enter real numbers in this mode.
-@end table
+@c . {Clef changes}
+@subsubsection Clef changes
+@cindex @code{\clef}
+@example
+ \clef @var{clefname} @code{;}
+@end example
-[todo: include short table showign differences]
+Short-cut for
-@node Types, , , Reference Manual
-@section Types
+@example
+ \property Staff.clefGlyph = @var{symbol associated with clefname}
+ \property Staff.clefPosition = @var{clef Y-position for clefname}
+ \property Staff.clefOctavation = @var{extra pitch of clefname}
+@end example
-@cindex Identifiers
+Supported clef-names include
-[say something about types]
+@itemize @bullet
+@item treble, violin, G, G2: G clef on 2nd line
+@item french: G clef on 1st line
+@item soprano: C clef on 1st line
+@item mezzosoprano: C clef on 2nd line
+@item alto: C clef on 3rd line
+@item tenor: C clef on 4th line
+@item baritone: C clef on 5th line
+@item varbaritone: F clef on 3rd line
+@item bass, F: F clef on 4th line
+@item subbass: F clef on 5th line
+@item percussion: percussion clef
+@end itemize
-All of the information in a LilyPond input file, is represented as a
-Scheme value. In addition to normal Scheme data types (such as pair,
-number, boolean, etc.), LilyPond has a number of specialized data types,
+Supported associated symbols (for Staff.clefGlyph) are:
@itemize @bullet
- @item Input
- @item c++-function
- @item Music: see @ref{Music expressions}
- @item Identifier
- @item Translator_def:
-See section @ref{contextdefs} for more information
-
- @item Duration
- @item Pitch
- @item Score (TODO, smobme)
-@item Music_output_def (TODO, smobme)
-
- @item Moment (rational number)
+@item clefs-C: modern style C clef
+@item clefs-F: modern style F clef
+@item clefs-G: modern style G clef
+@item clefs-vaticana_do: Editio Vaticana style do clef
+@item clefs-vaticana_fa: Editio Vaticana style fa clef
+@item clefs-medicaea_do: Editio Medicaea style do clef
+@item clefs-medicaea_fa: Editio Medicaea style fa clef
+@item clefs-mensural1_c: modern style mensural C clef
+@item clefs-mensural2_c: historic style small mensural C clef
+@item clefs-mensural3_c: historic style big mensural C clef
+@item clefs-mensural1_f: historic style traditional mensural F clef
+@item clefs-mensural2_f: historic style new mensural F clef
+@item clefs-mensural_g: historic style mensural G clef
+@item clefs-hufnagel_do: historic style hufnagel do clef
+@item clefs-hufnagel_fa: historic style hufnagel fa clef
+@item clefs-hufnagel_do_fa: historic style hufnagel combined do/fa clef
+@item clefs-percussion: modern style percussion clef
@end itemize
-LilyPond also includes some transient object types. Objects of these
-types are built during a LilyPond run, and do not `exist' per se within
-your input file. These objects are created as a result of your input
-file, so you can include commands in the input to manipulate them,
-during a lilypond run .
+@emph{Modern style} means "as is typeset in current editions".
+@emph{Historic style} means "as was typeset or written in contemporary
+historic editions". @emph{Editio XXX style} means "as is/was printed in
+Editio XXX".
-@itemize @bullet
- @item Grob: short for Graphical object. See @ref{Grobs}.
- @item Molecule: device-independent paper output object,
- including dimensions. Produced by some Grob functions
- @item Translator: object that produces audio objects or Grobs
+@node Breath marks
+@subsection Breath marks
- @item Font_metric: object representing a font. (Not yet user accessible.)
- @item Audio_element: (TODO, smobme)
-@end itemize
+Breath marks are entered using @code{\breathe}:
-Identifiers allow objects to be assigned to names during the parse
-stage. To assign an identifier, you use `@var{name}=@var{value}' and to
-refer to an identifier, you preceed its name with a backslash:
-`@code{\}@var{name}'. Identifier assignments must appear at top level
-in the @emph{Lilypond} file. Semicolons are forbidden after assignments
-appearing at top level but they are obligatory after assignments
-appearing in the @code{\paper} block, see Section @ref{paper}.
+@lilypond[fragment,relative]
+c'4 \breathe d4
+@end lilypond
-@var{value} is any valid Scheme value or any of the input-types listed
-above.
-An identifier can be created with any string for its name, but you
-will only be able to refer to identifiers whose names begin with a
-letter, being entirely alphanumeric. It is impossible to refer to an
-identifier whose name is the same as the name of a keyword.
-The right hand side of an identifier assignment is parsed completely
-before the assignment is done, so it is allowed to redefine an
-identifier in terms of its old value, e.g.
+@c . {Time signature}
+@node Time signature
+@subsection Time signature
+@cindex Time signature
+@cindex meter
+@cindex @code{\time}
@example
- foo = \foo * 2.0
+ \time @var{numerator}@code{/}@var{denominator} @code{;}
@end example
-When an identifier is referenced, the information it points to is
-copied. For this reason, an identifier reference must always be the
- first item in a block.
+A short-cut for doing
@example
-\paper @{
- foo = 1.0
- \paperIdent % wrong and invalid
-@}
-
-\paper @{
- \paperIdent % correct
- foo = 1.0
-@}
+ \property Score.timeSignatureFraction = #'(@var{numerator} . @var{denominator})
@end example
+See the documentation of @code{timeSignatureFraction}
-@node Music expressions, , , Reference Manual
-@section Music expressions
-@cindex music expressions
+@c . {Partial}
+@subsubsection Partial
+@cindex Partial
+@cindex anacrusis
+@cindex upstep
+@cindex partial measure
+@cindex measure, partial
+@cindex shorten measures
+@cindex @code{\partial}
+@example
+ \partial @var{duration} @code{;}
+@end example
-Music in @emph{Lilypond} is entered as a music expression. Notes, rests,
-lyric syllables are music expressions (the atomic
-expressions)
-@cindex atomic music expressions
-, and you can combine
-music expressions to form new ones. This example forms a compound
-expressions out of the quarter @code{c} note and a @code{d}
-note:
+Short cut for
-@example
-\sequential @{ c4 d4 @}
-@end example
+@example
+ \property Score.measurePosition = @var{length of duration}
+@end example
+@cindex @code{|}
-The meaning of this compound expression is to play the `@code{c}'
-first, and then the `@code{d}' (as opposed to playing them
-simultaneously, for instance).
+See the documentation of @code{measurePosition}.
-Atomic music expression are discussed in
-subsection @ref{Atomic music expressions}. Compound music expressions are
-discussed in subsection @ref{Compound music expressions}.
-@node Atomic music expressions, , , Reference Manual
-@section Atomic music expressions
+@c . {Polyphony}
+@node Polyphony
+@section Polyphony
+@cindex Polyphony
+[todo : collisiosn, rest-collisinos, voiceX identifiers, how to
+which contexts to instantiate.]
-@cindex pitch
+@table @code
+@cindex @code{\shiftOff}
+ @item @code{\shiftOff}
+ Disable horizontal shifting of note heads that collide.
-@cindex duration
-
+@cindex @code{\shiftOn}
+ @item @code{\shiftOn}
+ Enable note heads that collide with other note heads to be
+ shifted horiztonally. Also @code{\shiftOnn} and @code{\shiftOnnn}
+set different shift values.
-The syntax for pitch specification is
+@cindex @code{\stemBoth}
+ @item @code{\stemBoth}
+ Allow stems, beams, and slurs to point either upwards or
+ downwards, decided automatically by LilyPond.
+@cindex @code{\stemDown}
+ @item @code{\stemDown}
+ Force stems, beams, and slurs to point down.
-@example
- \musicalpitch@keyindex{musicalpitch} @{ @var{octave} @var{note} @var{shift} @}
-@end example
+@cindex @code{\stemUp}
+ @item @code{\stemUp}
+ Force stems, beams and slurs to point up.
+@end table
+
+@c . {Spanners}
+@node Spanners
+@section Spanners
+@cindex Spanners
-@var{octave} is specified by an integer, zero for the octave
-containing middle C. @var{note} is a number from 0 to 7, with 0
-corresponding to C and 7 corresponding to B. The shift is zero for a
-natural, negative to add flats, or positive to add sharps.
+@menu
+* Beam::
+* Slur ::
+* Phrasing slur::
+* Ornaments::
+* Grace notes::
+* Bar check::
+@end menu
-In Note and Chord mode, pitches may be designated by names. See
-section @ref{Other languages} for pitch names in different languages.
-The syntax for duration specification is
-@example
- \duration@keyindex{duration}
- @{ @var{length} @var{dotcount} @}
-@end example
+@c . {Beam}
+@node Beam
+@subsection Beams
-@var{length} is the negative logarithm (base 2) of the duration:
-1 is a half note, 2 is a quarter note, 3 is an eighth
-note, etc. The number of dots after the note is given by
-@var{dotcount}.
+@cindex beams
-In Note, Chord, and Lyrics mode, durations may be designated by
-numbers and dots.
+@c . {Automatic beams}
+@subsubsection Automatic beams
-@node Note specification, , , Reference Manual
+@cindex automatic beam generation
+@cindex autobeam
+@cindex @code{Voice.noAutoBeaming}
-@cindex note specification
+LilyPond will group flagged notes and generate beams autmatically, where
+appropriate.
-@cindex pitches
+This feature can be disabled by setting the @code{Voice.noAutoBeaming}
+property to true, which you may find necessary for the melody that goes
+with lyrics, eg. Automatic beaming can easily be overridden for
+specific cases by specifying explicit beams. This is discussed in the
+next subsubsection.
-@cindex entering notes
-A note specification has the form
+@cindex @code{Voice.autoBeamSettings}
+@cindex @code{(end * * * *)}
+@cindex @code{(begin * * * *)}
+
+A large number of Voice properties are used to decide how to generate
+beams. Their default values appear in @file{scm/auto-beam.scm}. In
+general, beams can begin anywhere, but their ending location is
+significant. Beams can end on a beat, or at durations specified by the
+properties in @code{Voice.autoBeamSettings}. To end beams every quarter
+note, for example, you could set the property @code{(end * * * *)} to
+@code{(make-moment 1 4)}. To end beams at every three eighth notes you
+would set it to @code{(make-moment 1 8)}. The same syntax can be used
+to specify beam starting points using @code{(begin * * * *)}, eg:
+@quotation
@example
- @var{pitch}[@var{octavespec}][!][?][@var{duration}]
+\property Voice.autoBeamSettings \override
+ #'(end * * * *) = #(make-moment 1 4)
+\property Voice.autoBeamSettings \override
+ #'(begin * * * *) = #(make-moment 1 8)
@end example
+@end quotation
-The pitch of the note is specified by the note's name.
+To allow different settings for different time signatures, instead of
+the first two asterisks @code{* *} you can specify a time signature; use
+@code{(end N M * *)} to restrict the definition to
+`@var{N}@code{/}@var{M}' time. For example, to specify beams ending
+only for 6/8 time you would use the property @code{(end 6 8 * *)}.
+To allow different endings for notes of different durations, instead of
+th last two asterisks you can specify a duration; use @code{(end * * N
+M)} to restrict the definition to beams that contain notes of
+`@var{N}@code{/}@var{M}' duration.
-The default names are the Dutch note names. The notes are specified
-by the letters `@code{c}' through `@code{b}', where `@code{c}' is an
-octave below middle C and the letters span the octave above that C.
-In Dutch,
-@cindex notenames!Dutch
-a sharp is formed by adding `@code{-is}' to the end of a pitch name. A
-flat is formed by adding `@code{-es}'. Double sharps and double flats
-are obtained by adding `@code{-isis}' or `@code{-eses}'. `@code{aes}'
-and `@code{ees}' are contracted to `@code{as}' and `@code{es}' in Dutch,
-but both forms will be accepted.
+For example, to specify beam endings for beams that contain 32nd notes,
+you would use @code{(end * * 1 32)}.
-LilyPond has predefined sets of notenames for various languages. See
-@ref{Other languages}.
+@c . {Manual beams}
+@cindex Automatic beams
+@subsubsection Manual beams
+@cindex beams, manual
+@cindex @code{]}
+@cindex @code{[}
-The optional octave specification takes the form of a series of
-single quote (`@code{'}@indexcode{'}') characters or a series of comma
-(`@code{,}@indexcode{,}') characters. Each @code{'} raises the pitch by one
-octave; each @code{,} lowers the pitch by an octave.
+In some cases it may be necessary to override LilyPond's automatic
+beaming algorithm. For example, the auto beamer will not beam over
+rests or bar lines, so if you want that, specify the begin and end point
+manually using @code{[} and @code{]}:
-@lilypond[fragment,verbatim,center]
- c' d' e' f' g' a' b' c''
+@quotation
+@lilypond[fragment,relative,verbatim]
+ \context Staff {
+ r4 [r8 g'' a r8] r8 [g | a] r8
+ }
@end lilypond
-@lilypond[fragment,verbatim,center]
- cis' dis' eis' fis' gis' ais' bis'
-@end lilypond
-@lilypond[fragment,verbatim,center]
- ces' des' es' fes' ges' as' bes'
-@end lilypond
+@cindex @code{stemLeftBeamCount}
-@lilypond[fragment,verbatim,center]
- cisis' eisis' gisis' aisis' beses'
-@end lilypond
+If you have specific wishes for the number of beams, you can fully
+control the number of beams through the properties
+y@code{Voice.stemLeftBeamCount} and @code{Voice.stemRightBeamCount}.
-@lilypond[fragment,verbatim,center]
- ceses' eses' geses' ases' beses'
+@lilypond[fragment,relative,verbatim]
+ \context Staff {
+ [f'8 r16 f g a]
+ [f8 r16 \property Voice.stemLeftBeamCount = #1 f g a]
+ }
@end lilypond
+@end quotation
+@cindex @code{stemRightBeamCount}
-Whenever a C-sharp is desired, you must specify a C-sharp. LilyPond
-will determine what accidentals to typeset depending on the key and
-context. A reminder accidental
-@cindex reminder accidental
- can be
-forced by adding an exclamation mark `@code{!}' after the pitch. A
-cautionary accidental,
-@cindex cautionary accidental
- i.e., an
-accidental within parentheses can be obtained by adding the question
-mark `@code{?}@indexcode{?}' after the pitch.
+
+@c . {Adjusting beams}
+@unnumberedsubsubsec Adjusting beams
+@cindex Adjusting beams
+
+FIXME
+
+
+
+
+@c . {Slur}
+@node Slur
+@subsection Slur
+@cindex slur
+
+@menu
+* Slur attachments::
+@end menu
+
+A slur connects chords and is used to indicate legato. Slurs avoid
+crossing stems. A slur is started with @code{(} and stopped with
+@code{)}. The starting @code{(} appears to the right of the first note
+in the slur. The terminal @code{)} appears to the left of the last note
+in the slur. This makes it possible to put a note in slurs from both
+sides:
@lilypond[fragment,verbatim,center]
- cis' d' e' cis' c'? d' e' c'!
+ f'()g'()a' [a'8 b'(] a'4 g'2 )f'4
@end lilypond
+@c . {Adjusting slurs}
+@unnumberedsubsubsec Adjusting slurs
-@cindex duration
-Durations are entered as their reciprocal values. For notes longer
-than a whole note, use identifiers.
+@node Slur attachments
+@subsubsection Slur attachments
-@quotation
+The ending of a slur should whenever possible be attached to a note
+head. Only in some instances where beams are involved, LilyPond may
+attach a slur to a stem end. In some cases, you may want to override
+LilyPond's decision, e.g., to attach the slur to the stem end. This can
+be done through @code{Voice.Slur}'s grob-property @code{attachment}:
-@example
-c'\longa c'\breve
-c'1 c'2 c'4 c'8 c'16 c'32 c'64 c'64
-@end example
+@quotation
+@lilypond[fragment,relative,verbatim]
+ \property Voice.Slur \set #'direction = #1
+ \property Voice.Stem \set #'length = #5.5
+ g''8(g)g4
+ \property Voice.Slur \set #'attachment = #'(stem . stem)
+ g8(g)g4
+@end lilypond
@end quotation
-@quotation
+Similarly, slurs can be attached to note heads even when beams are
+involved:
-@lilypond[]
-\score {
- \notes \relative c'' {
- a\longa a\breve
- a1 a2 a4 a8 a16 a32 a64 a64
- }
- \paper {
-%{ \translator {
- \StaffContext
- \remove "Clef_engraver";
- \remove "Staff_symbol_engraver";
- } %}
- }
-}
+@quotation
+@lilypond[fragment,relative,verbatim]
+ \property Voice.Slur \set #'direction = #1
+ \property Voice.Slur \set #'attachment = #'(head . head)
+ g''16()g()g()g()d'()d()d()d
@end lilypond
@end quotation
+If a slur would strike through a stem or beam, LilyPond will move the
+slur away vertically (upward or downward). In some cases, this may
+cause ugly slurs that you may want to correct:
+
@quotation
+@lilypond[fragment,relative,verbatim]
+ \property Voice.Stem \set #'direction = #1
+ \property Voice.Slur \set #'direction = #1
+ d'32( d'4 )d8..
+ \property Voice.Slur \set #'attachment = #'(stem . stem)
+ d,32( d'4 )d8..
+@end lilypond
+@end quotation
-@example
-r\longa r\breve
-r1 r2 r4 r8 r16 r32 r64 r64
-@end example
+LilyPond will increase the curvature of a slur trying to stay free of
+note heads and stems. However, if the curvature would increase too much,
+the slur will be reverted to its default shape. This decision is based
+on @code{Voice.Slur}'s grob-property @code{beautiful} value. In some
+cases, you may find ugly slurs beautiful, and tell LilyPond so by
+increasing the @code{beautiful} value:
-@end quotation
+[hoe gedefd?? wat betekent beautiful = X?]
@quotation
-
-@lilypond[]
+@lilypond[verbatim]
\score {
- \notes \relative c'' {
- r\longa r\breve
- r1 r2 r4 r8 r16 r32 r64 r64
- }
+ \notes \context PianoStaff <
+ \time 6/4;
+ \context Staff=up { s1 * 6/4 }
+ \context Staff=down <
+ \clef bass;
+ \autochange Staff \context Voice
+ \notes \relative c {
+ d,8( a' d f a d f d a f d )a
+ }
+ >
+ >
\paper {
- loose_column_distance = 2.5 * \staffspace;
- linewidth = -1.0;
+ linewidth = -1.;
\translator {
- \StaffContext
- \remove "Clef_engraver";
- \remove "Staff_symbol_engraver";
- \remove "Bar_engraver";
+ \VoiceContext
+ Slur \override #'beautiful = #5.0
+ Slur \override #'direction = #1
+ Stem \override #'direction = #-1
+ autoBeamSettings \override #'(end * * * *)
+ = #(make-moment 1 2)
+ }
+ \translator {
+ \PianoStaffContext
+ VerticalAlignment \override #'threshold = #'(5 . 5)
}
}
}
@end lilypond
@end quotation
-If the duration is omitted then it is set equal to the previous
-duration. If there is no previous duration, a quarter note is
-assumed. The duration can be followed by a dot (`@code{.}@indexcode{.}')
-to obtain dotted note lengths.
-
-@lilypond[fragment,verbatim,center]
- a'4. b'4.
-@end lilypond
-
-You can alter the length of duration by writing
-`@code{*}@var{fraction}' after it. This will not affect the
-appearance of note heads or rests.
-
-
-Rests are entered like notes, with note name `@code{r}@indexcode{r}',
-or `@code{R}@indexcode{R}'. There is also a note name
-`@code{s}@indexcode{s}', which produces a space of the specified
-duration. `@code{R}' is specifically meant for entering parts: the
-@code{R} rest can expand to fill a score with rests, or it can be
-printed as a single multimeasure rest.
-
-You can control the expansion by setting the property
-@code{Score.skipBars}. If this is set to true, Lily will not expand
-empty measures, and the multimeasure rests automatically adds the
-appropriate number.
-
-
-@cindex lyrics expressions
-
-Syllables are entered like notes, with pitches replaced by text. For
-example, `@code{Twin-4 kle4 twin-4 kle4}' enters four syllables, each
-with quarter note duration. Note that the hyphen has no special
-meaning for lyrics, and does not introduce special symbols. See
-section @ref{Lexical modes} for a description of what is interpreted as
-lyrics.
-
-Spaces can be introduced into a lyric either by using quotes
-(`@code{"}') or by using an underscore without quotes: `@code{He_could4
-not4}'. All unquoted underscores are converted to spaces. Printing
-lyrics is discussed in section @ref{lyricprint}.
-
-
-
-@cindex properties
-
-@example
- \property@keyindex{property}
- @var{contextname}.@var{propname} = @var{value}
-@end example
-
-Sets the @var{propname} property of the context @var{contextname} to
-the specified @var{value}. All three arguments are strings.
-Depending on the context, it may be necessary to quote the strings or
-to leave space on both sides of the dot.
-
+@cindex Adusting slurs
-@cindex translator switches
-@example
- \translator@keyindex{translator}
- @var{contexttype} = @var{name}
-@end example
-
-A music expression indicating that the context which is a direct
-child of the a context of type @var{contexttype} should be shifted to
-a context of type @var{contexttype} and the specified name.
-
-Usually this is used to switch staffs in Piano music, e.g.
-
-@example
- \translator Staff = top @var{Music}
-@end example
-
-
-@cindex output properties
-
-
-These allow you to tweak what is happening in the back-end
-directly. If you want to control every detail of the output
-formatting, this is the feature to use. The downside to this is that
-you need to know exactly how the backend works. Example:
+@c . {Phrasing slur}
+@node Phrasing slur
+@subsection Phrasing slur
+@cindex phrasing slur
+@cindex phrasing mark
+A phrasing slur (or phrasing mark) connects chords and is used to
+indicate a musical sentence. Phrasing slurs avoid crossing stems. A
+phrasing slur is started with @code{\(} and stopped with @code{\)}. The
+starting @code{\(} appears to the right of the first note in the
+phrasing slur. The terminal @code{\)} appears to the left of the last
+note in the phrasing slur.
-@lilypond[fragment,verbatim]
-\relative c'' { c4
- \context Staff \outputproperty
- #(make-type-checker 'Note_head)
- #'extra-offset = #'(5.0 . 7.5)
-<c8 e g> }
+@lilypond[fragment,verbatim,center,relative]
+ \time 6/4; c''\((d)e f(e)\)d
@end lilypond
-This selects all note heads occurring at current staff level, and sets
-the extra-offset of those heads to (5,7.5), shifting them up and
-right.
-
-Use of this feature is entirely on your own risk: if you use this, the
-result will depend very heavily on the implementation of the backend,
-which we change regularly and unscrupulously.
-
-
-@cindex commands
-
-Commands are music expressions that have no duration.
-
-
-@example
-
- @code{\key}@keyindex{key} @var{pitch} @var{type} @code{;}
-@end example
-
-Change the key signature. @var{type} should be
-@code{\major}@keyindex{major} or @code{\minor}@keyindex{minor} to get
-@var{pitch}-major or @var{pitch}-minor, respectively. The second
-argument is optional; the default is major keys. The @var{\context}
-argument can also be given as an integer, which tells the number of
-semitones that should be added to the pitch given in the subsequent
-@code{\key}@keyindex{key} commands to get the corresponding major key,
-e.g., @code{\minor}@keyindex{minor} is defined as 3. The standard
-mode names @code{\ionian}@keyindex{ionian},
-@code{\locrian}@keyindex{locrian}, @code{\aeolian}@keyindex{aeolian},
-@code{\mixolydian}@keyindex{mixolydian}, @code{\lydian}@keyindex{lydian},
-@code{\phrygian}@keyindex{phrygian}, and @code{\dorian}@keyindex{dorian}
-are also defined.
-
-@example
- @code{\keysignature}@keyindex{keysignature} @var{pitchseq} @code{;}
-@end example
-
-Specify an arbitrary key signature. The pitches from @var{pitch} will
-be printed in the key signature in the order that they appear on the
-list.
-
-@example
- \mark@keyindex{mark} @var{unsigned};
- \mark @var{string};
-@end example
-
-Prints a mark over or under the staff. You must add
-@code{Mark_engraver}@indexcode{Mark_engraver} to the Score context for
-this to work.
-
-@node barlines, , , Reference Manual
-
-@example
- \bar@keyindex{bar} @var{bartype};
-@end example
-
-This is a short-cut for doing
-@example
- \property Score.whichBar = @var{bartype}
-@end example
-
-You are encouraged to use @code{\repeat} for repetitions. See
-@ref{Repeats}, and the documentation of @code{whichBar}.
-
-
-@example
- \time@keyindex{time} @var{numerator}@code{/}@var{denominator} @code{;}
-@end example
-
-A short-cut for doing
-@example
- \property Score.timeSignatureFraction = #'(@var{numerator} . @var{denominator})
-@end example
-
-See the documentation of @code{timeSignatureFraction}
-
-@example
-
- \tempo@keyindex{tempo} @var{duration} = @var{perminute} @code{;}
-@end example
-
-Used to specify the tempo. For example, `@code{\tempo 4 = 76;}'
-requests output with 76 quarter notes per minute.
+[TODO: put together with breath mark.]
-@example
- \partial@keyindex{partial} @var{duration} @code{;}
-@end example
-
-Short cut for
-
-@example
- \property Score.measurePosition = @var{length of duration}
-@end example
-
-See the documentation of @code{measurePosition}.
-
-@cindex anacrusis
-
-@cindex upstep
-
-@example
-
- @code{|}@indexcode{|}
-@cindex bar check
-
-@end example
-
-@cindex shorten measures
-
-@cindex upstep
-
-`@code{|}' is a bar check. Whenever a bar check is encountered during
-interpretation, a warning message is issued if it doesn't fall at a
-measure boundary. This can help you finding errors in the input.
-Depending on the value of @code{barCheckNoSynchronize}
-@indexcode{barCheckNoSynchronize} The beginning of the measure will be
-relocated, so this can also be used to shorten measures.
+@c . {Tie}
+@menu
+* Tie::
+* Tuplets::
+* Text spanner::
+* Ottava::
+* Span requests::
+@end menu
-@example
+@node Tie
+@subsubsection Tie
- \penalty@keyindex{penalty} @var{int} @code{;}
-@end example
+@cindex Tie
+@cindex ties
+@cindex @code{~}
-Discourage or encourage line breaks. See identifiers
-@code{\break}@keyindex{break} and @code{\nobreak}@keyindex{nobreak} in
-section [on identifiers] [FIXME].
+A tie connects two adjacent note heads of the same pitch. When used
+with chords, it connects all of the note heads whose pitches match.
+Ties are indicated using the tilde symbol `@code{~}'.
+If you try to tie together chords which have no common pitches, a
+warning message will appear and no ties will be created.
-@example
- \clef@keyindex{clef} @var{clefname} @code{;}
-@end example
+@lilypond[fragment,verbatim,center]
+ e' ~ e' <c' e' g'> ~ <c' e' g'>
+@end lilypond
-Short-cut for
+[sparseTies]
-@example
- \property Clef.clefGlyph = @var{symbol associated with clefname}
- \property Clef.clefPosition = @var{clef Y-position for clefname}
- \property Clef.clefOctavation = @var{extra pitch of clefname}
-@end example
-Supported clef-names include
+@c . {Tuplets}
+@node Tuplets
+@subsubsection Tuplets
+@cindex Tuplets
+@cindex Times
-[todo]
+Tuplets are made out of a music expression by multiplying their duration
+with a fraction.
+@cindex @code{\times}
@example
-
- \skip@keyindex{skip} @var{duration} @code{;}
+ \times @var{fraction} @var{musicexpr}
@end example
-Skips the amount of time specified by @var{duration}. If no other
-music is played, a gap will be left for the skipped time with no
-notes printed. It works in Note Mode or Lyrics Mode. In Note mode,
-this has the same effect as the space rest `@code{s}'.
-
-
-@cindex beams
-
-@node Manual beams, , , Reference Manual
-
-A beam is specified by surrounding the beamed notes with brackets
-`@code{[}@indexcode{[}' and `@code{]}@indexcode{]}'.
+The duration of @var{musicexpr} will be multiplied by the fraction.
+In print, the fraction's denominator will be printed over the notes,
+optionally with a bracket. The most common tuplet is the triplet in
+which 3 notes have the length of 2, so the notes are 2/3 of
+their written length:
@lilypond[fragment,verbatim,center]
- [a'8 a'] [a'16 a' a' a']
+ g'4 \times 2/3 {c'4 c' c'} d'4 d'4
@end lilypond
-Some more elaborate constructions:
+[todo: document tupletSpannerDuration]
-@lilypond[fragment,verbatim,center]
- [a'16 <a' c''> c'' <a' c''>]
- \times 2/3 { [e'8 f' g'] }
-@end lilypond
-Beaming can be generated automatically; see section @ref{autobeam}.
-[OUTDATED, FIXME]
+@c . {Text spanner}
+@node Text spanner
+@subsubsection Text spanner
+@cindex Text spanner
-To place tremolo marks between notes, use @code{\repeat} with tremolo
-style.
-@cindex tremolo beams
-To create tremolo beams on a single note, simply attach
-`@code{:}@var{length}' to the note itself.
+@c . {Ottava}
+@node Ottava
+@subsubsection Ottava
+@cindex Ottava
+@unnumberedsubsubsec Ottava
-@lilypond[fragment,verbatim,center]
- \repeat "tremolo" 8 { c16 d16 }
- \repeat "tremolo" 4 { c16 d16 }
-@end lilypond
+[move to trick. Not a supported feature.]
-@lilypond[fragment,verbatim,center]
- c'4:32
+@lilypond[fragment,relative,verbatim]
+ a'''' b c a
+ \property Voice.TextSpanner \set #'type = #'dotted-line
+ \property Voice.TextSpanner \set #'edge-height = #'(0 . 1.5)
+ \property Voice.TextSpanner \set #'edge-text = #'("8va " . "")
+ \property Staff.centralCPosition = #-13
+ a\spanrequest \start "text" b c a \spanrequest \stop "text"
@end lilypond
-@cindex --@@@code{-}@code{-}
-
-@indexcode{__}
-@cindex extender
-
-@cindex hyphen
+@c . {Span requests}
+@node Span requests
+@subsubsection Span requests
+@cindex Span requests
-The syntax for an extender mark is `@code{__}'. This syntax can only
-be used within lyrics mode. The syntax for a spanning hyphen (i.e.,
-a hyphen that will be printed between two lyric syllables) is
-`@code{-}@code{-}'.
+@cindex @code{\spanrequest}
+@example
+ \spanrequest @var{startstop} @var{type}
+@end example
+@cindex @code{\start}
+@cindex @code{\stop}
-@cindex ties
+Define a spanning request. The @var{startstop} parameter is either -1
+(@code{\start}) or 1 (@code{\stop}) and @var{type} is a string that
+describes what should be started. Among the supported types are
+@code{crescendo}, @code{decrescendo}, @code{beam}, @code{slur}.This is
+an internal command. Users should use the shorthands which are defined
+in the initialization file @file{spanners.ly}.
-A tie connects two adjacent note heads of the same pitch. When used
-with chords, it connects all of the note heads whose pitches match.
-Ties are indicated using the tilde symbol `@code{~}@indexcode{~}'.
-If you try to tie together chords which have no common pitches, a
-warning message will appear and no ties will be created.
+You can attach a (general) span request to a note using the following
+syntax.
@lilypond[fragment,verbatim,center]
- e' ~ e' <c' e' g'> ~ <c' e' g'>
+ c'4-\spanrequest \start "slur"
+ c'4-\spanrequest \stop "slur"
@end lilypond
+The slur syntax with parentheses is a shorthand for this.
+@c . {Ornaments}
+@node Ornaments
+@subsection Ornaments
+@cindex Ornaments
+@menu
+* Articulation::
+* Text scripts::
+@end menu
-[TODO: explain Requests]
-
+@c . {Articulation}
+@node Articulation
+@subsubsection Articulation
+@cindex Articulation
@cindex articulations
-
@cindex scripts
-
@cindex ornaments
A variety of symbols can appear above and below notes to indicate
\score {
< \notes {
+ \property Score.LyricSyllable \override #'font-family =
+#'typewriter
+ \property Score.LyricSyllable \override #'font-shape = #'upright
c''-\accent c''-\marcato c''-\staccatissimo c''-\fermata
c''-\stopped c''-\staccato c''-\tenuto c''-\upbow
c''-\downbow c''^\lheel c''-\rheel c''^\ltoe
c''-\prallprall c''-\prallmordent c''-\upprall c''-\downprall
c''-\thumb c''-\segno c''-\coda
}
- \context Lyrics \lyrics {
+ \context Lyrics \lyrics {
accent__ marcato__ staccatissimo__ fermata
stopped__ staccato__ tenuto__ upbow
downbow__ lheel__ rheel__ ltoe
@end lilypond
-In addition, it is possible to place arbitrary strings of text or
-@TeX{} above or below notes by using a string instead of an
-identifier: `@code{c^"text"}'. Fingerings
-@cindex fingering
- can be
-placed by simply using digits. All of these note ornaments appear in
-the printed output but have no effect on the MIDI rendering of the
-music.
+@c . {Text scripts}
+@node Text scripts
+@subsubsection Text scripts
+@cindex Text scripts
+
+In addition, it is possible to place arbitrary strings of text or markup
+text (see @ref{Text markup}) above or below notes by using a string
+instead of an identifier: @code{c^"text"}. It is possible to use @TeX{}
+commands, but this should be avoided because this makes it impossible
+for LilyPond to compute the exact length of the string, which may lead
+to collisions. Also, @TeX{} commands won't work with direct postscript
+output. Fingerings can be placed by simply using digits. All of these
+note ornaments appear in the printed output but have no effect on the
+MIDI rendering of the music.
+
+@c . {Fingerings}
+@unnumberedsubsubsec Fingerings
+@cindex Fingerings
To save typing, fingering instructions (digits 0 to 9 are
supported) and single characters shorthands exist for a few
common symbols
@lilypond[]
-
\score {
- \notes {
- \property Voice.textStyle = typewriter
+ \notes \context Voice {
+ \property Voice.TextScript \set #'font-family = #'typewriter
+ \property Voice.TextScript \set #'font-shape = #'upright
c''4-._"c-." s4
c''4--_"c-{}-" s4
c''4-+_"c-+" s4
@end lilypond
-Dynamic marks are specified by using an identifier after a note:
-`@code{c4-\ff}' (the dash is optional for dynamics: `@code{c4 \ff})'.
-The available dynamic marks are:
-@code{\ppp}@keyindex{ppp},
-@code{\pp}@keyindex{pp}, @code{\p}@keyindex{p}, @code{\mp}@keyindex{mp},
-@code{\mf}@keyindex{mf}, @code{\f}@keyindex{f}, @code{\ff}@keyindex{ff},
-@code{\fff}@keyindex{fff}, @code{\fff}@keyindex{ffff},
-@code{\fp}@keyindex{fp}, @code{\sf}@keyindex{sf},
-@code{\sff}@keyindex{sff}, @code{\sp}@keyindex{sp},
-@code{\spp}@keyindex{spp}, @code{\sfz}@keyindex{sfz}, and
-@code{\rfz}@keyindex{rfz}.
+@cindex @code{\textscript}
@example
- \textscript@keyindex{textscript} @var{text} @var{style}
+ \textscript @var{text} @var{style}
@end example
Defines a text to be printed over or under a note. @var{style} is a
@end quotation
-This is equivalent to `@code{c4-6 c4-"foo"}'.
-
+This is equivalent to @code{c4-6 c4-"foo"}.
+@cindex @code{\script}
@cindex scripts
+@cindex superscript
+@cindex subscript
@example
-
- \script@keyindex{script} @var{alias}
+ \script @var{alias}
@end example
-Prints a symbol above or below a note. The argument is a string
-which points into the script-alias table defined in @file{script.scm}.
-The scheme definitions specify whether the symbol follows notes into
-the staff, dependence of symbol placement on staff direction, and a
-priority for placing several symbols over one note. Usually the
-@code{\script}@keyindex{script} keyword is not used directly. Various
+Prints a symbol above or below a note. The argument is a string which
+points into the script-alias table defined in @file{scm/script.scm}.
+Usually the @code{\script} keyword is not used directly. Various
helpful identifier definitions appear in @file{script.ly}.
+For information on how to add scripts, consult @file{scm/script.scm}.
-@cindex slur
-Slurs connects chords and try to avoid crossing stems. A slur is
-started with `@code{(}' and stopped with `@code{)}'. The
-starting `@code{(}' appears to the right of the first note in
-the slur. The terminal `@code{)}' appears to the left of the
-first note in the slur. This makes it possible to put a note in
-slurs from both sides:
-@lilypond[fragment,verbatim,center]
- f'()g'()a' [a'8 b'(] a'4 g'2 )f'4
-@end lilypond
+@c . {Grace notes}
+@node Grace notes
+@subsection Grace notes
-@cindex crescendo
-A crescendo mark is started with @code{\cr}@keyindex{cr} and terminated
-with @code{\rc}@keyindex{rc}. A decrescendo mark is started with
-@code{\decr}@keyindex{decr} and terminated with
-@code{\rced}@keyindex{rced}. There are also shorthands for these
-marks. A crescendo can be started with @code{\<}@keyindex{<} and a
-decrescendo can be started with @code{\>}@keyindex{>}. Either one can
-be terminated with @code{\!}@keyindex{"!}. Note that @code{\!}
-must go before the last note of the dynamic mark whereas @code{\rc}
-and @code{\rced} go after the last note. Because these marks are
-bound to notes, if you want to get several marks during one note, you
-must use spacer notes.
-@lilypond[fragment,verbatim,center]
- c'' \< \! c'' d'' \decr e'' \rced
- < f''1 { s4 \< \! s2 \> \! s4 } >
-@end lilypond
-@example
- \spanrequest@keyindex{spanrequest} @var{startstop} @var{type}
+
+@cindex Grace music
+@cindex @code{\grace}
+@cindex ornaments
+@cindex grace notes
+@cindex @code{graceAlignPosition}
+
+@example
+ \grace @var{musicexpr}
@end example
-Define a spanning request. The @var{startstop} parameter is either -1
-(@code{\start}@keyindex{start}) or 1 (@code{\stop}@keyindex{stop}) and
-@var{type} is a string that describes what should be started.
-Supported types are @code{crescendo}, @code{decrescendo},
-@code{beam}, @code{slur}. This is an internal command. Users should
-use the shorthands which are defined in the initialization file
-@file{spanners.ly}.
+A grace note expression has duration 0; the next real note is
+assumed to be the main note.
+
+You cannot have the grace note after the main note, in terms of
+duration, and main notes, but you can typeset the grace notes to the
+right of the main note using the property
+@code{graceAlignPosition}.
+@cindex @code{flagStyle}
-You can attach a (general) span request to a note using
+When grace music is interpreted, a score-within-a-score is set up:
+@var{musicexpr} has its own time bookkeeping, and you could (for
+example) have a separate time signature within grace notes. While in
+this score-within-a-score, you can create notes, beams, slurs, etc.
+Unbeamed eighth notes and shorter by default have a slash through the
+stem. This behavior can be controlled with the
+@code{flagStyle} property.
+
+@quotation
+@lilypond[fragment,verbatim]
+\relative c'' {
+ \grace c8 c4 \grace { [c16 c16] } c4
+ \grace { \property Grace.flagStyle = "" c16 } c4
+}
-@lilypond[fragment,verbatim,center]
- c'4-\spanrequest \start "slur"
- c'4-\spanrequest \stop "slur"
@end lilypond
+@end quotation
-The slur syntax with parentheses is a shorthand for this.
+At present, nesting @code{\grace} notes is not supported. The following
+may cause run-time errors:
+@example
+ @code{\grace @{ \grace c32 c16 @} c4}
+@end example
+Since the meaning of such a construct is unclear, we don't consider
+this a loss. Similarly, juxtaposing two @code{\grace} sections is
+syntactically valid, but makes no sense and may cause runtime errors.
+Ending a staff or score with grace notes may also generate a run-time
+error, since there will be no main note to attach the grace notes to.
-@cindex tremolo marks
+The present implementation is not robust and generally kludgy. We expect
+it to change after LilyPond 1.4. Syntax changes might also be
+implemented.
-@node stem tremolo, , , Reference Manual
-Tremolo marks can be printed on a single note by adding
-`@code{:}[@var{length}]' after the note. The length must be at
-least 8. A @var{length} value of 8 gives one line across
-the note stem. If the length is omitted, then the last value is
-used, or the value of the @code{tremoloFlags}@indexcode{tremoloFlags} property if there was
-no last value.
-@lilypond[verbatim,fragment,center]
- c'2:8 c':32
-@end lilypond
-@node Compound music expressions, , , Reference Manual
-@section Compound music expressions
-@cindex compound music expressions
-Music expressions are compound data structures. You can nest music
-expressions any way you like. This simple example shows how three
-chords can be expressed in two different ways:
+@menu
+* Glissando ::
+* Dynamics::
+* Crescendo and Decrescendo::
+* Bar lines::
+@end menu
-@lilypond[fragment,verbatim,center]
- \notes \context Staff {
- \cadenzaOn
- <a c'> <b d' > <c' e'>
- < { a b c' } { c' d' e' } >
- }
+
+
+@c . {Glissando}
+@node Glissando
+@subsubsection Glissando
+@cindex Glissando
+
+@cindex @code{\glissando}
+
+A glissando line can be requested by attaching a @code{\glissando} to a
+note:
+
+@quotation
+@lilypond[fragment,relative,verbatim]
+ c'' \glissando c'
@end lilypond
+@end quotation
-@cindex context selection
-@c @keyindex{context}
+Printing of an additional text (such as @emph{gliss.}) must be done
+manually.
-@example
- \context @var{contexttype} [= @var{contextname}] @var{musicexpr}
-@end example
-Interpret @var{musicexpr} within a context of type @var{contexttype}.
-If the context does not exist, it will be created. The new context
-can optionally be given a name.
-@cindex input modes
+@c . {Dynamics}
+@node Dynamics
+@subsubsection Dynamics
+@cindex Dynamics
-@cindex mode switch
-Mode switching keywords form compound music expressions: @code{\notes}
-@keyindex{notes} @var{musicexpr}, @code{\chords} @keyindex{chords}
-@var{musicexpr}, and @code{\lyrics} @keyindex{lyrics} @var{musicexpr}.
-These expressions do not add anything to the meaning of their
-arguments. They are just a way to indicate that the arguments should
-be parsed in indicated mode. See @ref{Lexical modes} for more
-information on modes.
-@cindex sequential music
+@cindex @code{\ppp}
+@cindex @code{\pp}
+@cindex @code{\p}
+@cindex @code{\mp}
+@cindex @code{\mf}
+@cindex @code{\f}
+@cindex @code{\ff}
+@cindex @code{\fff}
+@cindex @code{\ffff}
+@cindex @code{\fp}
+@cindex @code{\sf}
+@cindex @code{\sff}
+@cindex @code{\sp}
+@cindex @code{\spp}
+@cindex @code{\sfz}
+@cindex @code{\rfz}
-@example
- \sequential@keyindex{sequential}
- @code{@{} @var{musicexprlist} @code{@}}
-@end example
-This means that list should be played or written in sequence, i.e.,
-the second after the first, the third after the second. The duration
-of sequential music is the the sum of the durations of the elements.
-There is a shorthand, which leaves out the keyword:
-@example
+Dynamic marks are specified by using an identifier after a note:
+@code{c4-\ff}. The available dynamic marks are:
+@code{\ppp}, @code{\pp}, @code{\p}, @code{\mp}, @code{\mf}, @code{\f},
+@code{\ff}, @code{\fff}, @code{\fff}, @code{\fp}, @code{\sf},
+@code{\sff}, @code{\sp}, @code{\spp}, @code{\sfz}, and @code{\rfz}.
- @code{@{} @var{musicexprlist} @code{@}}
-@end example
+@c . {Crescendo and Decrescendo}
+@node Crescendo and Decrescendo
+@subsubsection Crescendo and Decrescendo
+
+@cindex Crescendo and Decrescendo
+@cindex crescendo
+@cindex @code{\cr}
+@cindex @code{\rc}
+@cindex @code{\decr}
+@cindex @code{\rced}
+@cindex @code{\<}
+@cindex @code{\>}
+@cindex @code{\"!}
+
+
+
+A crescendo mark is started with @code{\cr} and terminated with
+@code{\rc}, the textual reverse of @code{cr}. A decrescendo mark is
+started with @code{\decr} and terminated with @code{\rced}. There are
+also shorthands for these marks. A crescendo can be started with
+@code{\<} and a decrescendo can be started with @code{\>}. Either one
+can be terminated with @code{\!}. Note that @code{\!} must go before
+the last note of the dynamic mark whereas @code{\rc} and @code{\rced} go
+after the last note. Because these marks are bound to notes, if you
+want to get several marks during one note, you must use spacer notes.
+@lilypond[fragment,verbatim,center]
+ c'' \< \! c'' d'' \decr e'' \rced
+ < f''1 { s4 \< \! s2 \> \! s4 } >
+@end lilypond
+You can also use a text saying @emph{cresc.} instead of hairpins. Here
+is an example how to do it:
-@cindex simultaneous music
+@lilypond[fragment,relative,verbatim]
+ \context Voice {
+ \property Voice.crescendoText = "cresc."
+ \property Voice.crescendoSpanner = #'dashed-line
+ a''2\mf\< a a \!a
+ }
+@end lilypond
-@indexcode{<}
-@indexcode{>}
-@example
- \simultaneous@keyindex{simultaneous}
- @code{@{} @var{musicexprlist} @code{@}}
-@end example
+@c . {Bar lines}
+@node Bar lines
+@subsubsection Bar lines
+@cindex Bar lines
-It constructs a music expression where all of its arguments start at
-the same moment. The duration is the maximum of the durations of the
-elements. The following shorthand is a common idiom:
+@cindex @code{\bar}
+@cindex measure lines
+@cindex repeat bars
@example
+ \bar @var{bartype};
+@end example
- @code{<} @var{musicexprlist} @code{>}
+This is a short-cut for doing
+@example
+ \property Score.whichBar = @var{bartype}
@end example
-If you try to use a chord as the first thing in your score, you might
-get multiple staffs instead of a chord.
+You are encouraged to use @code{\repeat} for repetitions. See
+@ref{Repeats}, and the documentation of @code{whichBar} in
+@ref{(lilypond-internals)LilyPond context properties}.
-@lilypond[verbatim,center]
- \score {
- \notes <c''4 e''>
- \paper {
- linewidth = -1.;
- }
- }
-@end lilypond
-This happens because the chord is interpreted by a score context.
-Each time a note is encountered a default Voice context (along with a
-Staff context) is created. The solution is to explicitly instantiate
-a Voice context:
+[FIXME]
-@lilypond[verbatim,center]
- \score {
- \notes\context Voice <c''4 e''>
- \paper {
- linewidth = -1.;
- }
- }
-@end lilypond
+@c . {Bar check}
+@node Bar check
+@subsection Bar check
+@cindex Bar check
+@cindex bar check
+@cindex @code{barCheckNoSynchronize}
+@cindex @code{|}
-@cindex relative pitch specification
-@node relative, , , Reference Manual
+Whenever a bar check is encountered during interpretation, a warning
+message is issued if it doesn't fall at a measure boundary. This can
+help you find errors in the input. Depending on the value of
+@code{barCheckNoSynchronize}, the beginning of the measure will be
+relocated, so this can also be used to shorten measures.
-It is easy to get confused by octave changing marks and accidentally
-putting a pitch in the wrong octave. A much better way of entering a
-note's octave is `the relative octave' mode.
+A bar check is entered using the bar symbol, @code{|}
-@example
- \relative@keyindex{relative} @var{startpitch} @var{musicexpr}
-@end example
-The octave of notes that appear in @var{musicexpr} are calculated as
-follows: If no octave changing marks are used, the basic interval
-between this and the last note is always taken to be a fourth or
-less.@footnote{The interval is determined without regarding
-accidentals. A @code{fisis} following a @code{ceses} will be put above
-the @code{ceses}.} The octave changing marks `@code{'}' and `@code{,}'
-can then be added to raise or lower the pitch by an extra octave.
-Upon entering relative mode, an absolute starting pitch must be
-specified that will act as the predecessor of the first note of
-@var{musicexpr}.
-Entering scales is straightforward in relative mode.
-@lilypond[fragment,verbatim,center]
- \relative c' {
- c d e f g a b c c,
- }
-@end lilypond
+@c . {Repeats}
+@node Repeats
+@section Repeats
-And octave changing marks are used for intervals greater than a fourth.
-@lilypond[fragment,verbatim,center]
- \relative c'' {
- c g c f, c' a, e'' }
-@end lilypond
+@cindex repeats
+@cindex @code{\repeat}
-If the preceding item is a chord, the first note of the chord is used
-to determine the first note of the next chord. But other notes
-within the second chord are determined by looking at the immediately
-preceding note.
+In order to specify repeats, use the @code{\repeat}
+keyword. Since repeats look and sound differently when played or
+printed, there are a few different variants of repeats.
-@lilypond[fragment,verbatim,center]
- \relative c' {
- c <c e g>
- <c' e g>
- <c, e' g>
- }
-@end lilypond
+@table @asis
+@item unfolded
+Repeated music is fully written (played) out. Useful for MIDI
+output.
-The pitch after the @code{\relative} contains a notename. To parse
-the pitch as a notename, you have to be in note mode, so there must
-be a surrounding @code{\notes}@keyindex{notes} keyword (which is not
-shown here).
+@item volta
+This is the normal notation: Repeats are not written out, but
+alternative endings (voltas) are printed, left to right.
-The relative conversion will not affect @code{\transpose} or
-@code{\relative} sections in its argument. If you want to use
-relative within transposed music, you must place an additional
-@code{\relative} inside the @code{\transpose}.
+@item folded
+Alternative endings are written stacked. Which is unfortunately not
+practical for anything right now.
-It is strongly recommended to use relative pitch mode: less work,
-less error-prone, and more readable.
+@item tremolo
+Make tremolo beams.
+@end table
+@menu
+* Repeat syntax::
+* Manual repeat commands::
+* Tremolo repeats::
+* Tremolo subdivision::
+@end menu
+@node Repeat syntax
+@subsection Repeat syntax
-Chord names are a way to generate simultaneous music expressions that
-correspond with traditional chord names. It can only be used in
-Chord mode (see section @ref{Lexical modes}).
+The syntax for repeats is
@example
+ \repeat @var{variant} @var{repeatcount} @var{repeatbody}
+@end example
- @var{tonic}[@var{duration}][@code{-}@var{modifiers}][@code{^}@var{subtractions}][@code{/}@var{inversion}][@code{/+}@var{bass}].
+If you have alternative endings, you may add
+
+@cindex @code{\alternative}
+@example
+ \alternative @code{@{} @var{alternative1}
+ @var{alternative2}
+ @var{alternative3} @dots{} @code{@}}
@end example
-@var{tonic} should be the tonic note of the chord, and @var{duration}
-is the chord duration in the usual notation. There are two kinds of
-modifiers. One type is @emph{chord additions}, which are obtained by
-listing intervals separated by dots. An interval is written by its
-number with an optional `@code{+}' or `@code{-}' to indicate raising or
-lowering by half a step. Chord additions has two effects: It adds
-the specified interval and all lower odd numbered intervals to the
-chord, and it may lower or raise the specified interval. Intervals
-must be separated by a dot (`@code{.}').
+where each @var{alternative} is a Music expression.
+
+Normal notation repeats are used like this:
@quotation
@lilypond[fragment,verbatim]
-\transpose c'' {
- \chords {
- c1 c:3- c:7 c:8
- c:9 c:9-.5+.7+ c:3-.5- c:4.6.8
- }
-}
-
+ c'1
+ \repeat volta 2 { c'4 d' e' f' }
+ \repeat volta 2 { f' e' d' c' }
@end lilypond
@end quotation
-The second type of modifier that may appear after the `@code{:}' is a
-named modifier. Named modifiers are listed in the file
-@file{chord-modifiers.ly}. The available modifiers are `@code{m}' and
-`@code{min}' which lower the 3rd half a step, `@code{aug}@indexcode{aug}' which
-raises the 5th, `@code{dim}@indexcode{dim}' which lowers the 5th,
-`@code{maj}@indexcode{maj}' which adds a raised 7th, and `@code{sus}@indexcode{sus}'
-which replaces the 5th with a 4th.
+With alternative endings:
@quotation
@lilypond[fragment,verbatim]
-\transpose c'' {
- \chords {
- c1:m c:min7 c:maj c:aug c:dim c:sus
- }
-}
-
+ c'1
+ \repeat volta 2 {c'4 d' e' f'}
+ \alternative { {d'2 d'} {f' f} }
@end lilypond
@end quotation
-
-Chord subtractions are used to eliminate notes from a chord. The
-notes to be subtracted are listed after a `@code{^}' character,
-separated by dots.
+Folded repeats look like this:@footnote{Folded repeats offer little
+more over simultaneous music. However, it is to be expected that
+more functionality -- especially for the MIDI backend -- will be
+implemented at some point in the future.}
-@lilypond[fragment,verbatim,center]
- \transpose c'' {
- \chords {
- c1^3 c:7^5.3 c:8^7
- }
- }
-@end lilypond
+@quotation
-Chord inversions can be specified by appending `@code{/}@indexcode{/}' and
-the name of a single note to a chord. This has the effect of
-lowering the specified note by an octave so it becomes the lowest
-note in the chord. If the specified note is not in the chord, a
-warning will be printed.
+@lilypond[fragment,verbatim]
+ c'1
+ \repeat fold 2 {c'4 d' e' f'}
+ \alternative { {d'2 d'} {f' f} }
-@lilypond[fragment,verbatim,center]
- \transpose c''' {
- \chords {
- c1 c/e c/g c:7/e
- }
- }
+@end lilypond
+@end quotation
-@end lilypond
-Bass notes can be added by `@code{/+}@indexcode{/+}' and
-the name of a single note to a chord. This has the effect of
-adding the specified note to the chord, lowered by an octave,
-so it becomes the lowest note in the chord.
+If you don't give enough alternatives for all of the repeats, then
+the first alternative is assumed to be repeated often enough to equal
+the specified number of repeats.
-@lilypond[fragment,verbatim,center]
- \transpose c''' {
- \chords {
- c1 c/+c c/+g c:7/+b
- }
+@quotation
+@lilypond[fragment,verbatim]
+\context Staff {
+ \relative c' {
+ \partial 4;
+ \repeat volta 3 { e | c2 d2 | e2 f2 | }
+ \alternative { { g4 g g } { a | a a a a | b2. } }
}
+}
-@end lilypond
+@end lilypond
+@end quotation
-Throughout these examples, chords have been shifted around the staff
-using @code{\transpose}.
-You should not combine @code{\relative} with named chords.
+As you can see, LilyPond doesn't remember the timing information, nor
+are slurs or ties repeated, so you have to reset timing information
+after a repeat, eg using bar-checks, @code{Score.measurePosition} or
+@code{\partial}. We hope to fix this after 1.4.
+It is possible to nest @code{\repeat}, although it probably is only
+meaningful for unfolded repeats.
+@node Manual repeat commands
+@subsection Manual repeat commands
-@cindex tuplets
+@cindex @code{repeatCommands}
-Tuplets are made out of a music expression by multiplying their
-duration with a fraction.
+The property @code{repeatCommands} can be used to control the layout of
+repeats. Its value is a Scheme list of repeat commands, where each repeat
+command can be
-@example
+@table @code
+@item 'start-repeat
+ Print a |: bar line
+@item 'stop-repeat
+ Print a :| bar line
+@item (volta . @var{text})
+ Print a volta bracket saying @var{text}.
+@item (volta . #f)
+ Stop a running volta bracket
+@end table
- \times@keyindex{times} @var{fraction} @var{musicexpr}
-@end example
+@lilypond[verbatim, fragment]
+ c''4
+ \property Score.repeatCommands = #'((volta "93") end-repeat)
+ c4 c4
+ \property Score.repeatCommands = #'((volta #f))
+ c4 c4
+@end lilypond
-The duration of @var{musicexpr} will be multiplied by the fraction.
-In print, the fraction's denominator will be printed over the notes,
-optionally with a bracket. The most common tuplet is the triplet in
-which 3 notes have the length of 2, so the notes are 2/3 of
-their written length:
-@lilypond[fragment,verbatim,center]
- g'4 \times 2/3 {c'4 c' c'} d'4 d'4
+@node Tremolo repeats
+@subsection Tremolo repeats
+@cindex tremolo beams
+
+To place tremolo marks between notes, use @code{\repeat} with tremolo
+style.
+@lilypond[verbatim,center]
+\score {
+ \context Voice \notes\relative c' {
+ \repeat "tremolo" 8 { c16 d16 }
+ \repeat "tremolo" 4 { c16 d16 }
+ \repeat "tremolo" 2 { c16 d16 }
+ \repeat "tremolo" 4 c16
+ }
+ \paper {
+ linewidth = 40*\staffspace;
+ }
+}
@end lilypond
+@node Tremolo subdivision
+@subsection Tremolo subdivision
+@cindex tremolo marks
+@cindex @code{tremoloFlags}
+Tremolo marks can be printed on a single note by adding
+`@code{:}[@var{length}]' after the note. The length must be at least 8.
+A @var{length} value of 8 gives one line across the note stem. If the
+length is omitted, then the last value is used, or the value of the
+@code{tremoloFlags} property if there was no last value.
-@cindex grace notes
+@lilypond[verbatim,fragment,center]
+ c'2:8 c':32
+@end lilypond
-@example
+Tremolos in this style do not carry over into the MIDI output.
- \grace@keyindex{grace} @var{musicexpr}
-@end example
+Using this mechanism pays off when you entering many tremolos, since the
+default argument saves a lot of typing.
-A grace note expression has duration 0; the next real note is
-assumed to be the main note.
-You cannot have the grace note after the main note, in terms of
-duration, and main notes, but you can typeset the grace notes to the
-right of the main note using the property
-@code{graceAlignPosition}@indexcode{graceAlignPosition}.
-When grace music is interpreted, a score-within-a-score is set up:
-@var{musicexpr} has its own time bookkeeping, and you could (for
-example) have a separate time signature within grace notes. While in
-this score-within-a-score, you can create notes, beams, slurs, etc.
-Unbeamed eighth notes and shorter by default have a slash through the
-stem. This behavior can be controlled with the
-@code{flagStyle}@indexcode{flagStyle} property.
-@quotation
-@lilypond[fragment,verbatim]
-\relative c'' {
- \grace c8 c4 \grace { [c16 c16] } c4
- \grace { \property Grace.flagStyle = "" c16 } c4
-}
+@c . {Piano music}
+@node Piano music
+@section Piano music
+@menu
+* Automatic staff changes::
+* Manual staff switches::
+* Pedals::
+* Arpeggio::
+* Follow Thread::
+@end menu
-@end lilypond
-@end quotation
-At present, nesting @code{\grace}@keyindex{grace} notes, e.g.
+@c . {Automatic staff changes}
+@node Automatic staff changes
+@subsection Automatic staff changes
+@cindex Automatic staff changes
+Voices can be switched from top to bottom staff automatically. The
+syntax for this is
@example
-
- @code{\grace @{ \grace c32 c16 @} c4}
+ \autochange @var{contexttype} @var{musicexp}
@end example
+This will switch notation context of @var{musicexp} between a
+@var{contexttype} named @code{up} and @code{down}. Typically, you use
+@code{Staff} for @var{contexttype}. The autochanger switches on basis
+of pitch (central C is the turning point), and it looks ahead skipping
+over rests to switch rests in advance.
+
+@lilypond[verbatim,singleline]
+\score { \notes \context PianoStaff <
+ \context Staff = "up" {
+ \autochange Staff \context Voice = VA < \relative c' { g4 a b c d r4 a g } >
+ }
+ \context Staff = "down" {
+ \clef bass;
+ s1*2
+ } > }
+@end lilypond
-may result in run-time errors of LilyPond. Since the meaning of such
-a construct is unclear, we don't consider this a loss. Similarly,
-juxtaposing two @code{\grace} sections is syntactically valid, but
-makes no sense and may cause runtime errors.
-Ending a staff or score with grace notes may also generate a run-time
-error, since there will be no main note to attach the grace notes to.
+@node Manual staff switches
+@subsection Manual staff switches
-@cindex repeats
+@cindex manual staff switches
+@cindex staff switch, manual
-@node Repeats, , , Reference Manual
+@cindex @code{\translator}
+@example
+ \translator @var{contexttype} = @var{name}
+@end example
-In order to specify repeats, use the @code{\repeat}@keyindex{repeat}
-keyword. Since repeats look and sound differently when played or
-printed, there are a few different variants of repeats.
+A music expression indicating that the context which is a direct
+child of the a context of type @var{contexttype} should be shifted to
+a context of type @var{contexttype} and the specified name.
-@table @samp
- @item unfolded
- Repeated music is fully written (played) out. Useful for MIDI
- output.
+Usually this is used to switch staffs in Piano music, e.g.
- @item volta
- This is the normal notation: Repeats are not written out, but
- alternative endings (voltas) are printed, left to right.
+@example
+ \translator Staff = top @var{Music}
+@end example
- @item folded
- Alternative endings are written stacked, which is useful for
- lyrics.
-@end table
-The syntax for repeats is
+@c . {Pedals}
+@node Pedals
+@subsection Pedals
+@cindex Pedals
-@example
+Piano pedals can be entered using the following span requests of the
+types @code{Sustain}, @code{UnaChorda} and @code{Sostenuto}:
+@lilypond[fragment,verbatim]
+c''4 \spanrequest \start "Sustain" c4 c4 \spanrequest \stop "Sustain"
+@end lilypond
- \repeat @var{variant} @var{repeatcount} @var{repeatbody}
-@end example
+For these verbose expressions, standard shorthands have been defined:
+@table @code
+@item sustainDown
+@item sustainUp
+@item unaChorda
+@item treChorde
+@item sostenutoDown
+@item sostenutoUp
+@end table
-If you have alternative endings, you may add
+The symbols that are printed can be modified by setting pedalXStrings,
+where one of the pedal types. Refer to the generaetd documentation for
+more information.
-@example
+Currently, brackets are not supported, only text markings (ie. Ped*
+style).
- \alternative@keyindex{alternative}
- @code{@{} @var{alternative1}
- @var{alternative2}
- @var{alternative3} @dots{} @code{@}}
-@end example
-where each @var{alternative} is a Music expression.
+@c . {Arpeggio}
+@node Arpeggio
+@subsection Arpeggio
+@cindex Arpeggio
-Normal notation repeats are used like this:
+@cindex broken arpeggio
+@cindex @code{\arpeggio}
-@quotation
+You can specify an arpeggio sign on a chord by attaching an
+@code{\arpeggio} to a note of the chord.
-@lilypond[fragment,verbatim]
- c'1
- \repeat volta 2 { c'4 d' e' f' }
- \repeat volta 2 { f' e' d' c' }
+@quotation
+@lilypond[fragment,relative,verbatim]
+ \context Voice <c'\arpeggio e g c>
@end lilypond
@end quotation
-With alternative endings:
+When an arpeggio crosses staffs in piano music, you attach an arpeggio
+to the chords in both staffs, and set
+@code{PianoStaff.connectArpeggios}. LilyPond will connect the arpeggios
+in both staffs.
@quotation
-
-@lilypond[fragment,verbatim]
- c'1
- \repeat volta 2 {c'4 d' e' f'}
- \alternative { {d'2 d'} {f' f} }
-
+@lilypond[fragment,relative,verbatim]
+ \context PianoStaff <
+ \property PianoStaff.connectArpeggios = ##t
+ \context Voice = one { <c''\arpeggio e g c> }
+ \context Voice = other { \clef bass; <c,,\arpeggio e g>}
+ >
@end lilypond
@end quotation
-Folded repeats look like this:@footnote{Folded repeats offer little
-more over simultaneous music. However, it is to be expected that
-more functionality -- especially for the MIDI backend -- will be
-implemented.}
-@quotation
-@lilypond[fragment,verbatim]
- c'1
- \repeat fold 2 {c'4 d' e' f'}
- \alternative { {d'2 d'} {f' f} }
+@c . {Follow Thread}
+@node Follow Thread
+@subsection Follow Thread
+@cindex follow thread
+@cindex staff switching
+@cindex cross staff
-@end lilypond
-@end quotation
+[todo: different name, eg. voice line ? ]
-@quotation
+@cindex @code{followThread}
-@lilypond[fragment,verbatim]
-\context Staff {
- \relative c' {
- \partial 4;
- \repeat volta 2 { e | c2 d2 | e2 f2 | }
- \alternative { { g4 g g } { a | a a a a | b1 } }
- }
-}
+Whenever a voice switches to another staff a line connecting the notes
+can be printed automatically. This is enabled if the property
+@code{PianoStaff.followThread} is set to true:
+@quotation
+@lilypond[fragment,relative,verbatim]
+ \context PianoStaff <
+ \property PianoStaff.followThread = ##t
+ \context Staff \context Voice {
+ c'1
+ \translator Staff=two
+ b2 a
+ }
+ \context Staff=two {\clef bass; \skip 1*2;}
+ >
@end lilypond
@end quotation
-If you don't give enough alternatives for all of the repeats, then
-the first alternative is assumed to be repeated often enough to equal
-the specified number of repeats.
-@quotation
+@c . {Lyrics}
+@node Lyrics
+@section Lyrics
-@lilypond[fragment,verbatim]
-\context Staff {
- \relative c' {
- \repeat volta 3 { \partial 4; e | c2 d2 | e2 f2 | }
- \alternative { { g4 g g }
- {\partial 1; e4 e e }
- {\partial 1; a a a a | b1 } }
- }
+
+@menu
+* Lyrics mode::
+* Printing lyrics::
+* Automatic syllable durations::
+* More stanzas::
+@end menu
+
+@c . {Lyrics mode}
+@node Lyrics mode
+@subsection Lyrics mode
+@cindex Lyrics mode
+
+@cindex lyric mode
+@cindex @code{\lyrics}
+
+Lyrics mode is introduced by the keyword @code{\lyrics}. This mode has
+rules that make it easy to include punctuation and diacritical marks in
+words: The purpose of Lyrics mode is that you can enter lyrics in @TeX{}
+format or a standard encoding without needing quotes. The precise
+definition of this mode is ludicrous, and this will remain so until the
+authors of LilyPond acquire a deeper understanding of character
+encoding, or someone else steps up to fix this.
+
+A word in Lyrics mode begins with: an alphabetic character, @code{_},
+@code{?}, @code{!}, @code{:}, @code{'}, the control characters @code{^A}
+through @code{^F}, @code{^Q} through @code{^W}, @code{^Y}, @code{^^},
+any 8-bit character with ASCII code over 127, or a two-character
+combination of a backslash followed by one of @code{`}, @code{'},
+@code{"}, or @code{^}.
+
+Subsequent characters of a word can be any character that is not a digit
+and not white space. One important consequence of this is that a word
+can end with `@code{@}}', which may be confusing. However, LilyPond will
+issue a warning. Any @code{_} character which appears in an unquoted
+word is converted to a space. This provides a mechanism for introducing
+spaces into words without using quotes. Quoted words can also be used
+in Lyrics mode to specify words that cannot be written with the above
+rules. Here are some examples. Not all of these words are printable by
+@TeX{}.
+
+@example
+Ah! % a word
+2B_||_!2B % not a word because it starts with a digit
+``Hello'' % not a word because it starts with `
+_ _ _ _ % 4 words, each one a space
+@end example
+
+Since combinations of numbers and dots are used for indicating
+durations, you can not enter real numbers in this mode.
+
+@cindex lyrics expressions
+
+Syllables are entered like notes, with pitches replaced by text. For
+example, @code{Twin-4 kle4 twin-4 kle4} enters four syllables, each
+with quarter note duration. Note that the hyphen has no special
+meaning for lyrics, and does not introduce special symbols. See
+section @ref{Lexical modes} for a description of what is interpreted as
+lyrics.
+
+Spaces can be introduced into a lyric either by using quotes
+(@code{"}) or by using an underscore without quotes: @code{He_could4
+not4}. All unquoted underscores are converted to spaces. Printing
+lyrics is discussed in the next section.
+
+
+@c . {Printing lyrics}
+@node Printing lyrics
+@subsection Printing lyrics
+@cindex lyrics
+
+
+Lyric syllables must be interpreted within a @code{Lyrics} context for
+printing them. Here is a full example:
+
+@quotation
+@lilypond[verbatim]
+\score {
+ <
+ \notes \transpose c'' {
+ c d e c | c d e c |
+ e f g2 | e4 f g2 \bar "|.";
+ }
+ \context Lyrics \lyrics {
+ Va-4 der Ja- cob Va- der Ja- cob
+ Slaapt gij nog?2 Slaapt4 gij nog?2
+ }
+ >
}
@end lilypond
@end quotation
-It is possible to nest @code{\repeat}. This is not entirely
-supported: the notes will come be in the right places, but the repeat
-bars will not.
-@cindex transposition of pitches
+@cindex extender
+@cindex lyric extender
-@node transpose, , , Reference Manual
+You may want a continuous line after the syllables to show melismata.
+To achieve this effect, add a @code{__} lyric as a separate word
+after the lyric to be extended. 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{_}).
-A music expression can be transposed with
-@code{\transpose}@keyindex{transpose}. The syntax is
+@quotation
-@example
+@lilypond[verbatim]
+\score {
+ <
+ \notes \relative c'' {
+ a4 () b () c () d | c () d () b () a | c () d () b () a
+ }
+ \context Lyrics \lyrics {
+ foo1 __ | bar2. __ _4 | baz1 __
+ }
+ >
+}
- \transpose @var{pitch} @var{musicexpr}
-@end example
+@end lilypond
+@end quotation
-This means that middle C in @var{musicexpr} is transposed to
-@var{pitch}.
+@cindex Lyric hyphen
-@code{\transpose} distinguishes between enharmonic pitches: both
-@code{\transpose cis'} or @code{\transpose des'} will transpose up half
-a tone. The first version will print sharps and the second version
-will print flats.
+If you want to have hyphens centered between syllables (rather than
+attached to the end of the first syllable) you can use the special
+`@code{-}@code{-}' lyric as a separate word between syllables. This
+will result in a hyphen which length varies depending on the space
+between syllables, and which will be centered between the syllables.
+For example:
@quotation
-@lilypond[fragment,verbatim]
-\context Staff {
- \clef "F";
- { \key e \major; c d e f }
- \clef "G";
- \transpose des'' { \key e \major; c d e f }
- \transpose cis'' { \key e \major; c d e f }
+@lilypond[verbatim]
+\score {
+ <
+ \notes \transpose c'' {
+ c d e c | c d e c |
+ e f g2 | e4 f g2 \bar "|.";
+ }
+ \context Lyrics \lyrics {
+ Va4 -- der Ja -- cob | Va -- der Ja -- cob |
+ Slaapt gij nog?2 | Slaapt4 gij nog?2
+ }
+ >
}
@end lilypond
@end quotation
-If you want to use both @code{\transpose} and @code{\relative}, then
-you must use @code{\transpose} first. @code{\relative} will have no
-effect music that appears inside a @code{\transpose}.
+@c . {Automatic syllable durations}
+@node Automatic syllable durations
+@subsection Automatic syllable durations
+@cindex Automatic syllable durations
@cindex automatic lyric durations
+@cindex @code{\addlyrics}
-If you have lyrics that are set to a melody, you can import the
-rhythm of that melody into the lyrics using @code{\addlyrics}.
-@keyindex{addlyrics} The syntax for this is
-
+If you have lyrics that are set to a melody, you can import the rhythm
+of that melody into the lyrics using @code{\addlyrics}. The syntax for
+this is
@example
-
\addlyrics @var{musicexpr1 musicexpr2}
@end example
interpreted, but that every non-command atomic music expression
(``every syllable'') in @var{musicexpr2} is interpreted using timing
of @var{musicexpr1}.
+@cindex @code{automaticMelismata}
-If the property @code{automaticMelismata}@indexcode{automaticMelismata} is set in the
+If the property @code{automaticMelismata} is set in the
context of @var{musicexpr1}, no lyrics will be put on slurred or tied
notes.
@quotation
-
@lilypond[verbatim,fragment]
\addlyrics
\transpose c'' {
}
\context Lyrics \lyrics {
do4 re mi fa }
-
@end lilypond
@end quotation
undesired effects when using multiple stanzas:
@quotation
-
@lilypond[verbatim,fragment]
\addlyrics
\transpose c'' {
It is valid (but probably not very useful) to use notes instead of
lyrics for @var{musicexpr2}.
+@node More stanzas
+@subsection More stanzas
+@cindex phrasing
+If you have multiple stanzas printed underneath each other, the separate
+syllables should be aligned around punctuation. LilyPond can do this if
+you explain it which lyric lines belong to which melody.
-@node Ambiguities, , , Reference Manual
-@section Ambiguities
-
-@cindex ambiguities
+To this end, give the Voice context an identity, and set the LyricsVoice
+to name starting with that identity. In the following example, the Voice
+identity is @code{duet}, and the identities of the LyricsVoices are
+@code{duet-1} and @code{duet-2}.
-The grammar contains a number of ambiguities.@footnote{The authors
-hope to resolve them at a later time.}
-@itemize @bullet
- @item The assignment
+@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
- @example
-foo = bar
-@end example
+You can add stanza numbers by setting @code{LyricsVoice.Stanza} (for the
+first system) and @code{LyricsVoice.stz} for the following systems.
- can be interpreted as making a string identifier @code{\foo}
- containing @code{"bar"}, or a music identifier @code{\foo}
- containing the syllable `bar'.
+@cindex stanza numbering
- @item The assignment
- @example
-foo = -6
-@end example
+@c . {Chords}
+@node Chords
+@section Chords
+@cindex Chords
- can be interpreted as making an integer identifier
- containing -6, or a Request identifier containing the
- fingering `6' (with neutral direction).
+[chords vs. simultaneous music]
- @item If you do a nested repeat like
+@menu
+* Chords mode::
+* Entering named chords::
+* Printing named chords::
+@end menu
- @quotation
+@c . {Chords mode}
+@node Chords mode
+@subsection Chords mode
+@cindex Chords mode
-@example
-\repeat @dots{}
-\repeat @dots{}
-\alternative
-@end example
+Chord mode is introduced by the keyword
+@code{\chords}. It is similar to Note mode, but
+words are also looked up in a chord modifier table (containing
+@code{maj}, @code{dim}, etc).
- @end quotation
+Since combinations of numbers and dots are used for indicating
+durations, you can not enter real numbers in this mode. Dashes
+and carets are used to indicate chord additions and subtractions,
+so scripts can not be entered in Chord mode.
- then it is ambiguous to which @code{\repeat} the
- @code{\alternative} belongs. This is the classic if-then-else
- dilemma. It may be solved by using braces.
+@c . {Entering named chords}
+@node Entering named chords
+@subsection Entering named chords
+@cindex Chords names
- @item (an as yet unidentified ambiguity :-)
-@end itemize
+Chord names are a way to generate simultaneous music expressions that
+correspond with traditional chord names. It can only be used in
+Chord mode (see section @ref{Lexical modes}).
+@example
+ @var{tonic}[@var{duration}][@code{-}@var{modifiers}][@code{^}@var{subtractions}][@code{/}@var{inversion}][@code{/+}@var{bass}].
+@end example
-@node Notation conversion specifics, , , Reference Manual
-@section Notation conversion specifics
+@var{tonic} should be the tonic note of the chord, and @var{duration}
+is the chord duration in the usual notation. There are two kinds of
+modifiers. One type is @emph{chord additions}, which are obtained by
+listing intervals separated by dots. An interval is written by its
+number with an optional @code{+} or @code{-} to indicate raising or
+lowering by half a step. Chord additions has two effects: It adds
+the specified interval and all lower odd numbered intervals to the
+chord, and it may lower or raise the specified interval. Intervals
+must be separated by a dot (@code{.}).
+Throughout these examples, chords have been shifted around the staff
+using @code{\transpose}.
-@cindex automatic beam generation
-@node autobeam, , , Reference Manual
+@quotation
-By default, LilyPond will generate beams automatically. This feature
-can be disabled by setting the @code{Voice.noAutoBeaming}@indexcode{Voice.noAutoBeaming}
-property to 1. It can be overridden for specific cases by
-specifying explicit beams.
+@lilypond[fragment,verbatim]
+\transpose c'' {
+ \chords {
+ c1 c:3- c:7 c:8
+ c:9 c:9-.5+.7+ c:3-.5- c:4.6.8
+ }
+}
+@end lilypond
+@end quotation
-A large number of Voice properties are used to decide how to generate
-beams. Their default values appear in @file{auto-beam-settings.ly}.
-In general, beams can begin anywhere, but their ending location is
-significant. Beams can end on a beat, or at durations specified by
-the @code{Voice.beamAutoEnd}@indexcode{Voice.beamAutoEnd} property. To end beams every
-quarter note, for example, you could set
-@code{Voice.beamAutoEnd}@indexcode{Voice.beamAutoEnd} equal to `@code{"1/4"}'. To end beams
-at every three eighth notes you would set it to `@code{"3/8"}'. The
-same syntax can be used to specify beam starting points using
-@code{Voice.beamAutoBegin}@indexcode{Voice.beamAutoBegin}.
-
-To allow different settings for different time signatures, these
-property names can start with `@code{time}@var{N}@code{_}@var{M}' to
-restrict the definition to `@var{N}@code{/}@var{M}' time. For example,
-to specify beams ending only for 6/8 time you would use the
-property @code{Voice.time6_8beamAutoEnd}. To allow different endings
-for notes of different durations, the duration can be tacked onto the
-end of the property. To specify beam endings for beams that contain
-32nd notes, you would use @code{Voice.beamAutoEnd_32}.
+@cindex @code{aug}
+@cindex @code{dim}
+@cindex @code{maj}
+@cindex @code{sus}
+The second type of modifier that may appear after the @code{:} is a
+named modifier. Named modifiers are listed in the file
+@file{chord-modifiers.ly}. The available modifiers are @code{m} and
+@code{min} which lower the 3rd half a step, `@code{aug}' which
+raises the 5th, `@code{dim}' which lowers the 5th,
+`@code{maj}' which adds a raised 7th, and `@code{sus}'
+which replaces the 5th with a 4th.
+@quotation
-@cindex chord names
+@lilypond[fragment,verbatim]
+\transpose c'' {
+ \chords {
+ c1:m c:min7 c:maj c:aug c:dim c:sus
+ }
+}
-@cindex chords
+@end lilypond
+@end quotation
+
-@cindex printing!chord names
+Chord subtractions are used to eliminate notes from a chord. The
+notes to be subtracted are listed after a @code{^} character,
+separated by dots.
-For displaying printed chord names, use the @code{ChordNames}@indexcode{ChordNames}
-and @code{ChordNameVoice}@indexcode{ChordNameVoice} contexts. The chords may be entered
-either using the notation described above, or directly using
-simultaneous music.
+@lilypond[fragment,verbatim,center]
+ \transpose c'' {
+ \chords {
+ c1^3 c:7^5.3 c:8^7
+ }
+ }
+@end lilypond
+@cindex @code{/}
-@quotation
+Chord inversions can be specified by appending `@code{/}' and
+the name of a single note to a chord. This has the effect of
+lowering the specified note by an octave so it becomes the lowest
+note in the chord. If the specified note is not in the chord, a
+warning will be printed.
-@lilypond[fragment,verbatim]
-<
- \context ChordNames {
- \chords{a b c} \notes{<d f g> <e g b>}
+@lilypond[fragment,verbatim,center]
+ \transpose c''' {
+ \chords {
+ c1 c/e c/g c:7/e
+ }
}
- \context Staff \notes {
- a b c' d' e'
+
+@end lilypond
+@cindex @code{/+}
+
+Bass notes can be added by `@code{/+}' and
+the name of a single note to a chord. This has the effect of
+adding the specified note to the chord, lowered by an octave,
+so it becomes the lowest note in the chord.
+
+@lilypond[fragment,verbatim,center]
+ \transpose c''' {
+ \chords {
+ c1 c/+c c/+g c:7/+b
+ }
}
->
+@end lilypond
+
+The most interesting application is printing chord names, which is
+explained in the next subsection.
+
+You should not combine @code{\relative} with named chords. [FIXME]
+
+@c . {Printing named chords}
+@node Printing named chords
+@subsection Printing named chords
+
+
+
+
+
+@cindex printing chord names
+@cindex chord names
+@cindex chords
+@cindex @code{ChordNames}
+@cindex @code{ChordNameVoice}
+
+For displaying printed chord names, use the @code{ChordNames} and
+@code{ChordNameVoice} contexts. The chords may be entered either using
+the notation described above, or directly using simultaneous music.
+
+@quotation
+@lilypond[verbatim,singleline]
+scheme = \notes {
+ \chords {a1 b c} <d f g> <e g b>
+}
+\score {
+ \notes<
+ \context ChordNamesVoice \scheme
+ \context Staff \transpose c'' \scheme
+ >
+}
@end lilypond
@end quotation
+You can make the chord changes stand out more by setting property
+@code{ChordNames.chordChanges} to true. This will only display chord
+names when there's a change in the chords scheme, but always display the
+chord name after a line break:
+
+@c bug
+@quotation
+@lilypond[verbatim]
+scheme = \chords {
+ c1:m \break c:m c:m c:m d
+}
+
+\score {
+ \notes <
+ \context ChordNames \scheme
+ \context Staff \transpose c'' \scheme
+ >
+ \paper{
+ linewidth = 40 * \staffspace;
+ \translator {
+ \ChordNamesContext
+ chordChanges = ##t
+ }
+ }
+}
+@end lilypond
+@end quotation
+
+
+
LilyPond examines chords specified as lists of notes to determine a
-name to give the chord. By default, LilyPond will not try to
-identify chord inversions:
+name to give the chord. LilyPond will not try to
+identify chord inversions or added base, which may result in strange
+chord names when chords are entered as a list of pitches:
-@lilypond[fragment,verbatim,center]
+@quotation
+@lilypond[verbatim,center,singleline]
+scheme = \notes {
+ <c'1 e' g'>
+ <e' g' c''>
+ <e e' g' c''>
+}
+
+\score {
<
- \context ChordNameVoice \notes {
- <e'1 g' c''>
- }
- \context Thread \notes {
- <e'1 g' c''>
- }
+ \context ChordNamesVoice \scheme
+ \context Staff \scheme
>
+}
@end lilypond
+@end quotation
-If you want inversions to be recognized, you must set the property
-@code{ChordNames.chordInversion}@indexcode{ChordNames.chordInversion}:
+To specify chord inversions, append @code{/<notename>}. To specify an
+added bass note, append @code{/+<notename}:
-@lilypond[fragment,verbatim,center]
- <
- \property Score.chordInversion = ##t
- \context ChordNameVoice \notes {
- <e'1 g' c''>
- }
- \context Thread \notes {
- <e'1 g' c''>
+@quotation
+@lilypond[verbatim,center,singleline]
+scheme = \chords {
+ d1 d/a d/+gis
+}
+
+\score {
+ \notes <
+ \context ChordNames \scheme
+ \context Staff \transpose c'' \scheme
+ >
+}
+@end lilypond
+@end quotation
+
+The chord names that LilyPond should print are fully customizable. The
+code to print chord names is written in Scheme. It can be found in
+@file{scm/chord-name.scm}. Chord names are based on Banter style
+naming, which is unambiguous and has a logical structure. Typical
+American style chord names are implemented as a variation on Banter
+names, they can be selected by setting property @code{ChordName.style}
+to @code{american}:
+
+@quotation
+@lilypond[verbatim]
+\include "english.ly"
+
+scheme = \chords {
+ c % Major triad
+ cs:m % Minor triad
+ df:m5- % Diminished triad
+ c:5^3 % Root-fifth chord
+ c:4^3 % Suspended fourth triad
+ c:5+ % Augmented triad
+ c:2^3 % "2" chord
+ c:m5-.7- % Diminished seventh
+ c:7+ % Major seventh
+ c:7.4^3 % Dominant seventh suspended fourth
+ c:5+.7 % Augmented dominant seventh
+ c:m5-.7 % "Half" diminished seventh
+ c:5-.7 % Dominant seventh flat fifth
+ c:5-.7+ % Major seventh flat fifth
+ c:m7+ % Minor-major seventh
+ c:m7 % Minor seventh
+ c:7 % Dominant seventh
+ c:6 % Major sixth
+ c:m6 % Minor sixth
+ c:9^7 % Major triad w/added ninth
+ c:6.9^7 % Six/Nine chord
+ c:9 % Dominant ninth
+ c:7+.9 % Major ninth
+ c:m7.9 % Minor ninth
+}
+
+\score {
+ \notes <
+ \context ChordNames \scheme
+ \context Staff \transpose c'' \scheme
+ >
+ \paper {
+ \translator {
+ \ChordNamesContext
+ ChordName \override #'word-space = #1
+ ChordName \override #'style = #'american
}
+ }
+}
+@end lilypond
+@end quotation
+
+Similarly, Jazz style chord names are implemented as a variation on
+American style names:
+@quotation
+@lilypond[verbatim]
+scheme = \chords {
+ % major chords
+ c
+ c:6 % 6 = major triad with added sixth
+ c:maj % triangle = maj
+ c:6.9^7 % 6/9
+ c:9^7 % add9
+
+ % minor chords
+ c:m % m = minor triad
+ c:m.6 % m6 = minor triad with added sixth
+ c:m.7+ % m triangle = minor major seventh chord
+ c:3-.6.9^7 % m6/9
+ c:m.7 % m7
+ c:3-.9 % m9
+ c:3-.9^7 % madd9
+
+ % dominant chords
+ c:7 % 7 = dominant
+ c:7.5+ % +7 = augmented dominant
+ c:7.5- % 7b5 = hard diminished dominant
+ c:9 % 7(9)
+ c:9- % 7(b9)
+ c:9+ % 7(#9)
+ c:13^9.11 % 7(13)
+ c:13-^9.11 % 7(b13)
+ c:13^11 % 7(9,13)
+ c:13.9-^11 % 7(b9,13)
+ c:13.9+^11 % 7(#9,13)
+ c:13-^11 % 7(9,b13)
+ c:13-.9-^11 % 7(b9,b13)
+ c:13-.9+^11 % 7(#9,b13)
+
+ % half diminished chords
+ c:m5-.7 % slashed o = m7b5
+ c:9.3-.5- % o/7(pure 9)
+
+ % diminished chords
+ c:m5-.7- % o = diminished seventh chord
+}
+
+\score {
+ \notes <
+ \context ChordNames \scheme
+ \context Staff \transpose c'' \scheme
>
+ \paper {
+ \translator {
+ \ChordNamesContext
+ ChordName \override #'word-space = #1
+ ChordName \override #'style = #'jazz
+ }
+ }
+}
@end lilypond
+@end quotation
+@node Writing parts
+@section Writing parts
+@c . {Transpose}
+@menu
+* Rehearsal marks::
+* Instrument names::
+* Transpose::
+* Sound output for transposing instruments::
+* Multi measure rests::
+* Automatic part combining::
+@end menu
-@cindex lyrics
+@c . {Rehearsal marks}
+@node Rehearsal marks
+@subsection Rehearsal marks
+@cindex Rehearsal marks
+@cindex mark
+@cindex @code{\mark}
+@cindex @code{Mark_engraver}
+
+@example
+ \mark @var{unsigned};
+ \mark @var{string};
+ \mark ;
+@end example
+
+With this command, you can print a rehearsal mark above the system. You
+can provide a number, a string or a markup text as argument. If there is
+no argument, the property @code{rehearsalMark} is used and automatically
+incremented.
+
+@lilypond[fragment,verbatim]
+\relative c'' {
+ c1 \mark "A2";
+ c1 \mark ;
+ c1 \mark ;
+ c1 \mark "12";
+ c1 \mark #'(music "scripts-segno") ;
+ c1
+}
+@end lilypond
+
+@node Instrument names
+@subsection Instrument names
+
+You can specify an instrument name for a staff by setting
+@code{Staff.instrument} and @code{Staff.instr}. This will print a string
+before the start of the staff. For the first start, @code{instrument} is
+used, for the next ones @code{instr} is used.
+
+@lilypond[verbatim,singleline]
+\score { \notes {
+ \property Staff.instrument = "instr " { c''4 } }
+ \paper {
+ \translator { \StaffContext
+ \consists "Instrument_name_engraver"; } } }
+@end lilypond
+
+This requires that you add the @code{Instrument_name_engraver} to the
+staff context.
+
+
+@node Transpose
+@subsection Transpose
+@cindex Transpose
+@cindex transposition of pitches
+@cindex @code{\transpose}
+
+A music expression can be transposed with @code{\transpose}. The syntax
+is
+@example
+ \transpose @var{pitch} @var{musicexpr}
+@end example
+
+This means that middle C in @var{musicexpr} is transposed to
+@var{pitch}.
+
+@code{\transpose} distinguishes between enharmonic pitches: both
+@code{\transpose cis'} or @code{\transpose des'} will transpose up half
+a tone. The first version will print sharps and the second version
+will print flats.
+
+@quotation
+@lilypond[fragment,verbatim]
+\context Staff {
+ \clef "F";
+ { \key e \major; c d e f }
+ \clef "G";
+ \transpose des'' { \key e \major; c d e f }
+ \transpose cis'' { \key e \major; c d e f }
+}
+
+@end lilypond
+@end quotation
+
+If you want to use both @code{\transpose} and @code{\relative}, then
+you must use @code{\transpose} first. @code{\relative} will have no
+effect music that appears inside a @code{\transpose}.
+
+@node Sound output for transposing instruments
+@subsection Sound output transposing instruments
+
+When you want to play a score containing transposed and untransposed
+instruments, you have to instruct LilyPond the pitch offset (in
+semitones) for the transposed instruments. This is done using
+@code{transposing}.
+
+@cindex @code{transposing}
+
+@example
+ \property Staff.instrument = #"Cl. in B-flat"
+ \property Staff.transposing = #-2
+@end example
+
+
+@c . {Multi measure rests}
+@node Multi measure rests
+@subsection Multi measure rests
+@cindex Multi measure rests
+
+@cindex @code{R}
+
+Multi measure rests are entered using `@code{R}'. It is specifically
+meant for entering parts: the rest can expand to fill a score with
+rests, or it can be printed as a single multimeasure rest This expansion
+is controlled by the property @code{Score.skipBars}. If this is set to true,
+Lily will not expand empty measures, and the appropriate number is added
+automatically.
+
+@lilypond[fragment,verbatim]
+ \time 3/4; R2.*2 \property Score.skipBars = ##t R2.*17 R2.*4
+@end lilypond
+
+Currently, there is no way to condense multiple rests into a single
+multimeasure rest.
+
+@cindex condensing rests
+
+@node Automatic part combining
+@subsection Automatic part combining
+
+[TODO]
+
+
+@c . {Custodes}
+@node Custodes
+@section Custodes
+@cindex Custos
+@cindex Custodes
+
+A @emph{custos} (plural: @emph{custodes}; latin word for "guard") is a
+staff context symbol that appears at the end of a staff line. It
+anticipates the pitch of the first note(s) of the following line and
+thus helps the player or singer to manage line breaks during
+performance, thus enhancing readability of a score.
+
+@quotation
+@lilypond[verbatim]
+\score {
+ \notes { c'1 d' e' d' \break c' d' e' d' }
+ \paper {
+ \translator {
+ \StaffContext
+ \consists Custos_engraver;
+ Custos \override #'style = #'mensural;
+ }
+ }
+}
+@end lilypond
+@end quotation
+
+Custodes were frequently used in music notation until the 16th century.
+There were different appearences for different notation styles.
+Nowadays, they have survived only in special forms of musical notation
+such as via the editio vaticana dating back to the beginning of the 20th
+century.
+
+For typesetting custodes, just put a @code{Custos_engraver} into the
+@code{StaffContext} when declaring the @code{\paper} block. In this
+block, you can also globally control the appearance of the custos symbol
+by setting the custos @code{style} property. Currently supported styles
+are @code{vaticana}, @code{medicaea}, @code{hufnagel} and
+@code{mensural}.
+
+@quotation
+\paper @{
+ \translator @{
+ \StaffContext
+ \consists Custos_engraver;
+ Custos \override #'style = #'mensural;
+ @}
+@}
+@end quotation
+
+The property can also be set locally, for example in a @code{\notes}
+block:
+
+@quotation
+\notes @{
+ \property Staff.Custos \override #'style = #'vaticana
+ c'1 d' e' d' \break c' d' e' d'
+@}
+@end quotation
+
+@c . {Tuning output}
+@node Tuning output
+@section Tuning output
+
+LilyPond tries to take as much formatting as possible out of your
+hands. Nevertheless, there are situations where it needs some help, or
+where you want to override its decisions.
+
+Here we discuss how you can do that.
+
+Notational output is specified in so called grobs (graphic
+objects). Each grob carries with it a set of properties (grob
+properties) specific to that grob. For example, a stem grob has grob
+properties that specify its direction, length and thickness.
+
+The most common way of tuning the output is to alter the values of these
+properties. There are two ways of doing that: first, you can
+specifically select a set of grobs at one point, and set properties as
+you wish, or secondly, you can (temporarily) modify the definition of a
+grob, thereby affecting an entire group of grobs.
+
+@menu
+* Tuning groups of grobs ::
+* Tuning per grob ::
+* What to tune?::
+* Text markup::
+@end menu
+
+@node Tuning groups of grobs
+@subsection Tuning groups of grobs
+
+@cindex grob description
+
+A grob definition is an association list, that is stored in a context
+property. By assigning to that property (using plain @code{\property}),
+you can change the resulting grobs.
+@lilypond[verbatim, fragment]
+c'4 \property Voice.Stem = #'((meta . ((interfaces . ())))) c'4
+@end lilypond
+The @code{\property} statement effectively empties the definition of the
+Stem object. One of the effects is that property specifying how it
+should be printed is erased, with the effect of rendering it invisible.
+
+@cindex \override
+@cindex \revert
+@cindex \set
+
+
+This mechanism is fairly crude, since you can only set, but not modify,
+the definition of a grob. For this reason, there is a more advanced
+mechanism: you can add a property on top of an existing definition, or
+remove a property: @code{\override} adds a settings, @code{\revert}
+removes that setting.
+@lilypond[verbatim]
+c'4 \property Voice.Stem \override #'thickness = #4.0
+c'4 \property Voice.Stem \revert #'thickness
+c'4
+@end lilypond
-@cindex printing!lyrics
+For the digirati, the grob description is an Scheme association
+list. Since it is singly linked, we can treat it as a stack, and
+@code{\override} and @code{\revert} are just push and pop
+operations. This pushing and popping is also used in the
+@code{autoBeamSettings} property.
-@node lyricprint, , , Reference Manual
+If you revert a setting which was not set in the first place, then it
+has no effect. However, if the setting was set as a system default, it
+may remove the default value, and this may give surprising results,
+including crashes. In other words, if you use @code{\override} and
+@code{\revert}, be sure to balance the overrides and reverts.
+
+If balancing them is too much work, use the following shorthand:
+@code{\set} performs a revert followed by an override:
+@example
+\property Voice.Stem \set #'thickness = #2.0
+@end example
+
+Formally the syntax for these constructions is
+@example
+\property @var{context}.@var{grobname} \override @var{symbol} = @var{value}
+\property @var{context}.@var{grobname} \set @var{symbol} = @var{value}
+\property @var{context}.@var{grobname} \revert @var{symbol}
+@end example
+Here @var{symbol} is a Scheme expression of symbol type, @var{context}
+and @var{grobname} are strings and @var{value} is a Scheme expression.
+
+LilyPond will hang or crash if @var{value} contains cyclic references.
+
+
+
+@node Tuning per grob
+@subsection Tuning per grob
+
+@cindex \outputproperty
+
+A second way of tuning grobs is the more arcane @code{\outputproperty}
+feature.
+Syntax is as follows
+@example
+\outputproperty @var{predicate} @var{symbol} = @var{value}
+@end example
+Here @code{predicate} is a Scheme functoin taking a grob a argument
+argument, and returning a boolean. This statement is processed by the
+@code{Output_property_engraver}. It instructs the engraver to feed all
+grobs that it sees to @var{predicate}. Whenever the predicate returns
+true, the grob property @var{symbol} will be set to @var{value}.
+
+You will need to combine this statement with @code{\context} to select
+the appropriate context to apply this to.
+
+If possible, avoid this feature: the semantics are not very clean, and
+the syntax and semantics are up for rewrite.
+
+Here are some random examples:
+
+@lilypond[fragment,verbatim,singleline]
+\relative c'' { c4
+ \context Staff \outputproperty
+ #(make-type-checker 'note-head-interface)
+ #'extra-offset = #'(0.5 . 0.75)
+ <c8 e g> }
+@end lilypond
+
+@cindex @code{extra-offset}
+
+This selects all note heads occurring at current staff level, and sets
+the @code{extra-offset} of those heads to @code{(0.5,0.75)}, shifting
+them up and right.
+
+Move the text "m.d.", but not the fingering instruction "2".
+@lilypond[verbatim,singleline]
+#(define (make-text-checker text)
+ (lambda (grob) (equal? text (ly-get-elt-property grob 'text))))
+
+\score {
+ \notes\relative c''' {
+ \property Voice.Stem \set #'direction = #1
+ \outputproperty #(make-text-checker "m.d.")
+ #'extra-offset = #'(-3.5 . -4.5)
+ a^2^"m.d."
+ }
+}
+@end lilypond
+
+
+
+
+@node What to tune?
+@subsection What to tune?
+
+This all tells you how to tune grobs, but what variables are there? The
+question is not answered in this manual (although you may encounter
+some examples.).
+
+Grob properties are tied directly to the implementation of LilyPond, and
+they are thus a moving target. Refer to the automatically generated
+documentation of the internals (available from the website).
+
+You need the following information
+
+@itemize @bullet
+@item
+which grob to modify
+@item
+which property to modify
+@item
+which context the grob comes from.
+@end itemize
+
+Included with the automatically generated documentation is a master list
+of grobs. Each one can be clicked, taking you to a overview of the
+available properties.
+
+There is also a master list of contexts. Clicking each takes you to an
+overview of the context, listing which grob types are created there.
+
+
+
+@node Text markup
+@subsection Text markup
+@cindex text markup
+@cindex markup text
+
+LilyPond has an internal mechanism to typeset texts. You can
+form text markup expressions by composing scheme expressions
+in the following way.
+
+@lilypond[verbatim]
+\score { \notes \relative c' {
+ b-#"text"
+ c-#'(bold "text")
+ d-#'(lines "one" (bold "text"))
+ e-#'(music (named "noteheads-2" "flags-u3"))
+}
+\paper { linewidth = 10.\cm; } }
+@end lilypond
+
+Normally, the Scheme markup text is stored in the @code{text} property
+of a grob. Formally, it is defined as follows:
+
+@example
+text: string | (head? text+)
+head: markup | (markup+)
+markup-item: property | abbrev | @var{fontstyle}
+property: (@var{key} . @var{value})
+abbrev: @code{rows lines roman music bold italic named super sub text}
+@end example
+
+The markup is broken down and converted into a list of grob properties,
+which are prepended to the grop's property list. The
+@var{key}-@var{value} pair is a grob property.
+
+The following abbreviations are currently
+defined:
+
+@table @code
+@item rows
+horizontal mode: set all text on one line (default)
+@item lines
+ vertical mode: set every text on new line
+@item roman
+ select roman font
+@item music
+ select feta font
+@item bold
+ select bold series
+@item italic
+ select italic shape
+@item named
+ lookup by character name
+@item text
+ plain text lookup (by character value)
+@item super
+ superscript
+@item sub
+ subscript
+@end table
+
+@var{fontstyle} may be any of @code{finger volta timesig mmrest mark
+script large Large dynamic}
+
+
+@c . {Page layout}
+@node Page layout
+@section Page layout
+@cindex Page layout
+
+@menu
+* Paper block::
+* Paper variables::
+* Font Size::
+* Paper size::
+* Line break::
+* Page break::
+@end menu
+
+@c . {Paper block}
+@node Paper block
+@subsection Paper block
+@cindex Paper block
+
+The most important output definition is the @code{\paper} block, for
+music notation. The syntax is
+
+@example
+ @code{\paper @{} [@var{paperidentifier}] @var{items} @code{@}}
+@end example
+
+where each of the items is one of
+
+@itemize @bullet
+ @item An assignment. The assignment must be terminated by a
+ semicolon.
+
+ @item A context definition. See Section @ref{Notation contexts} for
+ more information on context definitions.
+
+ @item \stylesheet declaration. Its syntax is
+ @example
+ \stylesheet @var{alist}
+ @end example
+
+ See @file{font.scm} for details of @var{alist}.
+@end itemize
+
+@c . {Paper variables}
+@node Paper variables
+@subsection Paper variables
+@cindex Paper variables
+
+The paper block has some variables you may want to use or change:
+
+@table @code
+@cindex @code{indent}
+ @item @code{indent}
+ The indentation of the first line of music.
+@cindex @code{staffspace}
+
+ @item @code{staffspace}
+ The distance between two staff lines, calculated from the center
+ of the lines. You should use either this or @code{stafflinethickness}
+ as a unit for distances you modify.
+
+@cindex @code{linewidth}
+ @item @code{linewidth}
+ Sets the width of the lines.
+
+If set to a negative value, a single
+ unjustified line is produced.
+
+@cindex @code{textheight}
+
+ @item @code{textheight}
+ Sets the total height of the music on each page. Only used by
+ ly2dvi.
+@cindex @code{interscoreline}
+
+ @item @code{interscoreline}
+ Sets the spacing between the score lines. Defaults to 16 pt.
+@cindex @code{interscorelinefill}
+
+ @item @code{interscorelinefill}
+ If set to a positive number, the distance between the score
+ lines will stretch in order to fill the full page. In that
+ case @code{interscoreline} specifies the minimum spacing.
+ Defaults to 0.
+@cindex @code{stafflinethickness}
+
+ @item @code{stafflinethickness}
+ Determines the thickness of staff lines, and also acts as a scaling
+ parameter for other line thicknesses.
+@end table
+
+
+
+@c . {Font size}
+@node Font Size
+@subsection Font size
+@cindex font size
+
+The Feta font provides musical symbols at six different sizes. These
+fonts are 11 point, 13 point, 16 point, 20 point,
+23 point, and 26 point. The point size of a font is the
+height of the five lines in a staff when displayed in the font.
+
+Definitions for these sizes are the files @file{paperSZ.ly}, where
+@code{SZ} is one of 11, 13, 16, 20, 23 and 26. If you include any of
+these files, the identifiers @code{paperEleven}, @code{paperThirteen},
+@code{paperSixteen}, @code{paperTwenty}, @code{paperTwentythree}, and
+@code{paperTwentysix} are defined respectively. The default
+@code{\paper} block is also set.
+
+The font definitions are generated using a Scheme function. For more
+details, see the file @file{font.scm}.
+
+
+
+@c . {Paper size}
+@node Paper size
+@subsection Paper size
+@cindex Paper size
+
+@cindex paper size
+@cindex page size
+@cindex @code{papersize}
+
+To change the paper size, you must first set the
+@code{papersize} variable at top level. Set it to
+the strings @code{a4}, @code{letter}, or @code{legal}. After this
+specification, you must set the font as described above. If you want
+the default font, then use the 20 point font. The new paper size will
+not take effect if the font is not loaded and selected afterwards.
+
+@example
+ papersize = "a4"
+ \include "paper16.ly"
+
+ \score @{
+ ...
+ \paper @{ \paperSixteen @}
+ @}
+@end example
+
+The file "paper16.ly" will now include a file named @file{a4.ly}, which
+will set the paper variables @code{hsize} and @code{vsize} (used by
+@code{ly2dvi})
+
+
+
+
+
+
+
+@c . {Line break}
+@node Line break
+@subsection Line break
+
+@cindex line breaks
+@cindex breaking lines
+
+Line breaks are normally computed automatically. They are chosen such
+that the resulting spacing has low variation, and looks neither cramped
+nor loose.
+
+Occasionally you might want to override the automatic breaks; you can do
+this by specifying @code{\break}. This will force a line break at this
+point. Do remember that line breaks can only occur at places where there
+are barlines. If you want to have a line break where there is no
+barline, you can force a barline by entering @code{\bar "";}.
+
+Similarly, @code{\noBreak} forbids a line break at a certain point.
+
+@cindex @code{\penalty}
+
+The @code{\break} and @code{\noBreak} commands are defined in terms of
+the penalty command:
+@example
+ \penalty @var{int} @code{;}
+@end example
+
+This imposes encourages or discourages LilyPond to make a line break
+at this point.
+
+@strong{Warning} do not use @code{\penalty} directly. It is rather
+kludgy, and slated for rewriting.
+
+@c . {Page break}
+@node Page break
+@subsection Page break
+
+@cindex page breaks
+@cindex breaking pages
+
+
+Page breaks are normally computed by @TeX{}, so they are not under direct
+control. However, you can insert a commands into the @file{.tex} output to
+instruct @TeX{} where to break pages. For more details, see the
+example file @file{input/test/between-systems.ly}
+
+[or -> Tricks? ]
+
+
+
+
+
+
+@c . {Sound}
+@node Sound
+@section Sound
+@cindex Sound
+
+LilyPond allows MIDI output, with the purpose of proof-hearing the music
+you enter. The performance lacks lots of interesting effects, such as
+swing, articulation, slurring, tieing, etc.
+
+Also note that it is not possible to use the percussion channel
+(generally channel 10 of a MIDI file).
+
+@menu
+* MIDI block::
+* MIDI instrument names::
+* Tempo::
+@end menu
+
+@c . {MIDI block}
+@node MIDI block
+@subsection MIDI block
+@cindex MIDI block
+
+
+The MIDI block is analogous to the paper block, but it is somewhat
+simpler. The @code{\midi} block can contain:
+@cindex MIDI block
+
+@itemize @bullet
+ @item a @code{\tempo} definition
+ @item context definitions
+@end itemize
+
+Assignments in the @code{\midi} block are not allowed.
+
+
+
+@cindex context definition
+
+Context definitions follow precisely the same syntax as within the
+\paper block. Translation modules for sound are called performers.
+The contexts for MIDI output are defined in @file{ly/performer.ly}.
+
+
+@c . {MIDI instrument names}
+@node MIDI instrument names
+@subsection MIDI instrument names
+@cindex instrument names
+@cindex @code{Staff.midiInstrument}
+@cindex @code{Staff.instrument}
+
+The MIDI instrument name is set by the @code{Staff.midiInstrument}
+property or, if that property is not set, the @code{Staff.instrument}
+property. The instrument name should be chosen from the following list.
+If the selected string does not exactly match, then LilyPond uses the
+default piano.
+
+[FIXME: to appendix ]
+
+
+@example
+"acoustic grand" "contrabass" "lead 7 (fifths)"
+"bright acoustic" "tremolo strings" "lead 8 (bass+lead)"
+"electric grand" "pizzicato strings" "pad 1 (new age)"
+"honky-tonk" "orchestral strings" "pad 2 (warm)"
+"electric piano 1" "timpani" "pad 3 (polysynth)"
+"electric piano 2" "string ensemble 1" "pad 4 (choir)"
+"harpsichord" "string ensemble 2" "pad 5 (bowed)"
+"clav" "synthstrings 1" "pad 6 (metallic)"
+"celesta" "synthstrings 2" "pad 7 (halo)"
+"glockenspiel" "choir aahs" "pad 8 (sweep)"
+"music box" "voice oohs" "fx 1 (rain)"
+"vibraphone" "synth voice" "fx 2 (soundtrack)"
+"marimba" "orchestra hit" "fx 3 (crystal)"
+"xylophone" "trumpet" "fx 4 (atmosphere)"
+"tubular bells" "trombone" "fx 5 (brightness)"
+"dulcimer" "tuba" "fx 6 (goblins)"
+"drawbar organ" "muted trumpet" "fx 7 (echoes)"
+"percussive organ" "french horn" "fx 8 (sci-fi)"
+"rock organ" "brass section" "sitar"
+"church organ" "synthbrass 1" "banjo"
+"reed organ" "synthbrass 2" "shamisen"
+"accordion" "soprano sax" "koto"
+"harmonica" "alto sax" "kalimba"
+"concertina" "tenor sax" "bagpipe"
+"acoustic guitar (nylon)" "baritone sax" "fiddle"
+"acoustic guitar (steel)" "oboe" "shanai"
+"electric guitar (jazz)" "english horn" "tinkle bell"
+"electric guitar (clean)" "bassoon" "agogo"
+"electric guitar (muted)" "clarinet" "steel drums"
+"overdriven guitar" "piccolo" "woodblock"
+"distorted guitar" "flute" "taiko drum"
+"guitar harmonics" "recorder" "melodic tom"
+"acoustic bass" "pan flute" "synth drum"
+"electric bass (finger)" "blown bottle" "reverse cymbal"
+"electric bass (pick)" "skakuhachi" "guitar fret noise"
+"fretless bass" "whistle" "breath noise"
+"slap bass 1" "ocarina" "seashore"
+"slap bass 2" "lead 1 (square)" "bird tweet"
+"synth bass 1" "lead 2 (sawtooth)" "telephone ring"
+"synth bass 2" "lead 3 (calliope)" "helicopter"
+"violin" "lead 4 (chiff)" "applause"
+"viola" "lead 5 (charang)" "gunshot"
+"cello" "lead 6 (voice)"
+@end example
+
+
+
+
+
+@c . {Tempo}
+@node Tempo
+@subsection Tempo
+@cindex Tempo
+@cindex beats per minute
+@cindex metronome marking
+
+@cindex @code{\tempo}
+@example
+ \tempo @var{duration} = @var{perminute} @code{;}
+@end example
+
+Used to specify the tempo. For example, @code{\tempo 4 = 76;} requests
+output with 76 quarter notes per minute.
+
+
+
+
+
+@c . {Music entry}
+@node Music entry
+@section Music entry
+@cindex Music entry
+@menu
+* Relative::
+* Point and click::
+@end menu
+
+
+
+@c . {Relative}
+@node Relative
+@subsection Relative
+@cindex Relative
+@cindex relative octave specification
+
+Octaves are specified by adding @code{'} and @code{,} to pitch names.
+When you copy existing music, it is easy to accidentally put a pitch in
+the wrong octave and hard to find such an error. To prevent these
+errors, LilyPond features octave entry.
+
+@cindex @code{\relative}
+@example
+ \relative @var{startpitch} @var{musicexpr}
+@end example
-Lyric syllables must be interpreted within a @code{Lyrics} context
+The octave of notes that appear in @var{musicexpr} are calculated as
+follows: If no octave changing marks are used, the basic interval
+between this and the last note is always taken to be a fourth or less.
+ The octave changing marks @code{'} and @code{,} can then
+be added to raise or lower the pitch by an extra octave. Upon entering
+relative mode, an absolute starting pitch must be specified that will
+act as the predecessor of the first note of @var{musicexpr}.
-@cindex context!Lyrics
- for printing them.
+This distance is determined without regarding accidentals: a
+@code{fisis} following a @code{ceses} will be put above the
+@code{ceses}.
-Here is a full example:
+Entering scales is straightforward in relative mode.
-@quotation
+@lilypond[fragment,verbatim,center]
+ \relative c'' {
+ g a b c d e f g g, g
+ }
+@end lilypond
-@lilypond[verbatim]
-\score {
- <
- \notes \transpose c'' {
- c d e c | c d e c |
- e f g2 | e4 f g2 \bar "|.";
- }
- \context Lyrics \lyrics {
- Va-4 der Ja- cob Va- der Ja- cob
- Slaapt gij nog?2 Slaapt4 gij nog?2
- }
- >
-}
+And octave changing marks are used for intervals greater than a fourth.
+@lilypond[fragment,verbatim,center]
+ \relative c'' {
+ c g c f, c' a, e'' }
@end lilypond
-@end quotation
-You may want a continuous line after the syllables to show melismata.
-To achieve this effect, add a `@code{__}' lyric as a separate word
-after the lyric to be extended. 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{_}').
+If the preceding item is a chord, the first note of the chord is used
+to determine the first note of the next chord. But other notes
+within the second chord are determined by looking at the immediately
+preceding note.
-@quotation
+@lilypond[fragment,verbatim,center]
+ \relative c' {
+ c <c e g>
+ <c' e g>
+ <c, e' g>
+ }
+@end lilypond
+@cindex @code{\notes}
-@lilypond[verbatim]
-\score {
- <
- \notes \relative c'' {
- a4 () b () c () d | c () d () b () a | c () d () b () a
- }
- \context Lyrics \lyrics {
- foo1 __ | bar2. __ _4 | baz1 __
- }
- >
-}
+The pitch after the @code{\relative} contains a notename. To parse
+the pitch as a notename, you have to be in note mode, so there must
+be a surrounding @code{\notes} keyword (which is not
+shown here).
-@end lilypond
-@end quotation
+The relative conversion will not affect @code{\transpose} or
+@code{\relative} sections in its argument. If you want to use
+relative within transposed music, you must place an additional
+@code{\relative} inside the @code{\transpose}.
-
-If you want to have hyphens centered between syllables (rather than
-attached to the end of the first syllable) you can use the special
-`@code{-}@code{-}' lyric as a separate word between syllables. This
-will result in a hyphen which length varies depending on the space
-between syllables, and which will be centered between the syllables.
-For example:
-@quotation
+@c . {Point and click}
+@node Point and click
+@subsection Point and click
-@lilypond[verbatim]
-\score {
- <
- \notes \transpose c'' {
- c d e c | c d e c |
- e f g2 | e4 f g2 \bar "|.";
- }
- \context Lyrics \lyrics {
- Va4 -- der Ja -- cob | Va -- der Ja -- cob |
- Slaapt gij nog?2 | Slaapt4 gij nog?2
- }
- >
-}
+[todo]
-@end lilypond
-@end quotation
+@c . {Engravers}
+@node Engravers
+@section Engravers
+@cindex engravers
+@menu
+* Notation Contexts::
+* Creating contexts::
+* Default contexts::
+* Context properties::
+* Changing context definitions::
+* Defining new contexts::
+@end menu
+
+@c . {Music expressions}
-@node Notation Contexts, , , Reference Manual
-@section Notation Contexts
+@c . {Notation Contexts}
+@node Notation Contexts
+@subsection Notation Contexts
@cindex notation contexts
-Notation contexts are objects that only exist during a run of
-LilyPond. During the interpretation phase of LilyPond, the Music
-expression contained in a @code{\score} block is interpreted in time
-order. This is the order in which humans read, play, and write
-music.
+Notation contexts are objects that only exist during a run of LilyPond.
+During the interpretation phase of LilyPond (when lily prints
+"interpreting music"), music a @code{\score} block is interpreted in
+time order, i.e. in much the same order that humans read, play, and
+write music.
-A context is an object that holds the reading state of the
-expression; it contains information like
+During this reading, the notation context is holds the state
+for the current point within the music. It contains information like
@itemize @bullet
- @item What notes are playing at this point?
- @item What symbols will be printed at this point?
- @item In what style will they printed?
- @item What is the current key signature, time signature, point within
+ @item What notes are playing at this point?
+ @item What symbols will be printed at this point?
+ @item What is the current key signature, time signature, point within
the measure, etc.?
@end itemize
a @code{Score}, @code{StaffGroup}, or @code{ChoirStaff} context (because
these can all contain multiple staffs).
-Contexts associated with sheet music output are called @emph{notation
-contexts}, those for sound output are called playing contexts.
-
-Contexts are created either manually or automatically. Initially,
-the top level music expression is interpreted by the top level
-context (the @code{Score} context). When a atomic music expression
-(i.e. a note, a rest, @code{\bar}, or @code{\time} commands), a nested
-set of contexts is created that can process these atomic expressions,
-as in this example:
-
-@example
- @example
-\score @{ \notes < c4 > @}
-@end example
+Contexts associated with sheet music output are called @emph{notation
+contexts}, those for sound output are called performance contexts.
-@end example
-The sequential music, `@code{@{ c4 @}}' is interpreted by @code{Score}
-context. When the note `@code{c4}' itself is interpreted, a set of
-contexts is needed that will accept notes. The default for this is a
-@code{Voice} context, contained in a @code{Staff} context. Creation of
-these contexts results in the staff being printed.
+@node Creating contexts
+@subsection Creating contexts
+@cindex @code{\context}
+@cindex context selection
-@cindex context
+Contexts for a music expression can be selected manually, using the
+following music expression.
-You can also create contexts manually, and you probably have to do so
-if you want to typeset complicated multiple part material. If a
-`@code{\context} @var{name} @var{musicexpr}' expression is encountered
-during the interpretation phase, the @var{musicexpr} argument will be
-interpreted with a context of type @var{name}. If you specify a name,
-the specific context with that name is searched.
+@example
+ \context @var{contexttype} [= @var{contextname}] @var{musicexpr}
+@end example
-If a context of the specified type and name can not be found, a new
-one is created. For example,
+This instructs lilypond to interpret @var{musicexpr} within the context
+ of type @var{contexttype} and with name @var{contextname}. If this
+context does not exist, it will be created.
@quotation
-@lilypond[verbatim]
+@lilypond[verbatim,singleline]
\score {
\notes \relative c'' {
c4 <d4 \context Staff = "another" e4> f
In this example, the @code{c} and @code{d} are printed on the
default staff. For the @code{e}, a context Staff called
-`@code{another}' is specified; since that does not exist, a new
+@code{another} is specified; since that does not exist, a new
context is created. Within @code{another}, a (default) Voice context
is created for the @code{e4}. When all music referring to a
context is finished, the context is ended as well. So after the
third quarter, @code{another} is removed.
-Almost all music expressions inherit their interpretation context
-from their parent. In other words, suppose that the syntax for a
-music expression is
-@example
-
- \keyword @var{musicexpr1} @var{musicexpr2} @dots{}
-@end example
-When the interpretation of this music expression starts, the context
-for @var{musicexpr1}, @var{musicexpr2}, etc. is that of the total
-expression.
+@node Default contexts
+@subsection Default contexts
-Lastly, you may wonder, why this:
+Most music expressions don't need @code{\context}: they inherit the
+notation context from their parent. Each note is a music expression, and
+as you can see in the following example, only the sequential music
+enclosing the three notes has an explicit context.
-@quotation
+@lilypond[verbatim,singleline]
+\score { \notes \context Voice = goUp { c'4 d' e' } }
+@end lilypond
-@example
-\score @{
- \notes \relative c'' @{
- c4 d4 e4
- @}
-@}
-@end example
+There are some quirks that you must keep in mind when dealing with
+defaults:
-@end quotation
+Every top-level music is interpreted by the Score context, in other
+words, you may think of @code{\score} working like
+@example
+ \score @{
+ \context Score @var{music}
+ @}
+@end example
-doesn't result in this:
+Sequential music follows the contexts of its "children". Take this example
+@lilypond[verbatim, singleline]
+\score { \context Score \notes { c'4 ( d' )e' } }
+@end lilypond
-@lilypond[]
+The sequential music is interpreted by the Score context initially
+(notice that the @code{\context} specification is redundant), but when a
+note is encountered, contexts are setup to accept that note. In this
+case, a Thread, Voice and Staff are created. The rest of the sequential
+music is also interpreted with the same Thread, Voice and Staff context,
+putting the notes on the same staff, in the same voice.
- \score {
- \notes \relative c'' {
- <c4> <d4> <e4>
- }
- }
+This is a convenient mechanism, but do not expect opening chords to work
+without @code{\context}. For every note, a separate staff is
+instantiated.
+@lilypond[verbatim, singleline]
+\score { \notes <c'4 es'> }
@end lilypond
-For the @code{c4}, a default @code{Staff} (with a contained
-@code{Voice}) context is created. After the @code{c4} ends, no
-music refers to this default staff, so it would be ended, with the
-result shown. To prevent this inconvenient behavior, the context to
-which the sequential music refers is adjusted during the
-interpretation. So after the @code{c4} ends, the context of the
-sequential music is also the default @code{Voice} context.
-The @code{d4} gets interpreted in the same context
-as @code{c4}.
+Of course, if the chord is preceded by a normal note in sequential
+music, the chord will be interpreted by the Thread of the preceding
+note:
+@lilypond[verbatim,singleline]
+\score { \notes { c'4 <c'4 es'> } }
+@end lilypond
-These are the contexts supplied with the package. They are defined
-in the initialization file @file{ly/engraver.ly}.
+@node Context properties
+@subsection Context properties
-@table @samp
-@end table
+Notation contexts can be modified from within the @file{.ly} file. The
+following music expression does that job:
+@cindex @code{\property}
+@example
+ \property @var{contextname}.@var{propname} = @var{value}
+@end example
+Sets the @var{propname} property of the context @var{contextname} to the
+specified Scheme expression @var{value}. All @var{propname} and
+@var{contextname} are strings, which are typically unquoted.
Properties that are set in one context are inherited by all of the
contained contexts. This means that a property valid for the
@code{Voice} context can be set in the @code{Score} context (for
example) and thus take effect in all @code{Voice} contexts.
-Properties can be preset within the @code{\translator} block
-corresponding to the appropriate context. In this case, the syntax
-is
-
-@example
-
- @var{propname} @code{=} @var{value}
-@end example
-
-This assignment happens before interpretation starts, so a
-@code{\property} expression will override any predefined settings.
-
-The @code{\property} expression will create any property you specify.
-There is no guarantee that a property will be used. So if you spell
-a property name wrong, there will be no error message.
-
-The property settings are used during the interpretation phase. They
-are read by the LilyPond modules where interpretation contexts are
-built of. These modules are called @emph{translators}. Translators for
-notation are called @emph{engravers}, and translators for sound are
-called @emph{performers}.
-
-The precise result of a property is determined by the implementation
-of the translator that reads them. Therefore, the result of a
-property can vary, since it is implementation and configuration
-dependent.
-
-In order to fully find out what properties are used, you must
-currently search the source code for calls to @code{get_property}.
-The rest of the section is devoted to an (incomplete) overview of
-available properties.
-
-@mbinclude properties.itely
-@node Notation output definitions, , , Reference Manual
-@section Notation output definitions
-@cindex output
-@cindex notation output
+@c . {Context definitions}
+@node Changing context definitions
+@subsection Changing context definitions
-@cindex output definition
-
-@node paper, , , Reference Manual
-
-The most important output definition is the @code{\paper} block, for
-music notation. The syntax is
+@cindex context definition
+@cindex translator definition
+The most common way to define a context is by extending an existing
+context. You can change an existing context from the paper block, by
+first initializing a translator with an existing context identifier:
@example
-
- @code{\paper @{} [@var{paperidentifier}] @var{items} @code{@}}
+\paper @{
+ \translator @{
+ @var{context-identifier}
+ @} @}
+@end example
+Then you can add engravers, remove engravers and set context
+properties. The syntax for these operations are respectively
+@example
+ \remove @var{engravername}
+ \consists @var{engravername}
+ @var{propname} = @var{value}
@end example
-where each of the items is one of
-
-@itemize @bullet
- @item An assignment. The assignment must be terminated by a
- semicolon.
-
- @item A context definition. See section @ref{contextdefs} for
- more information on context definitions.
-
- @item
- FIXME now in SCM
-
- A margin shape declaration. The syntax is
-
- @example
-
- \shape @var{indent1}@code{,} @var{width1}@code{,}
- @var{indent2}@code{,} @var{width2} @dots{} @code{;}
- @end example
-
- @keyindex{shape}
-
- Each pair of @var{indent} and @var{width} values is a dimension
- specifying how far to indent and how wide to make the line.
- The indentation and width of successive lines are specified by
- the successive pairs of dimensions. The last pair of
- dimensions will define the characeristics of all lines beyond
- those explicitly specified.
-
- @item \stylesheet declaration. Its syntax is
-
- @example
- \stylesheet @var{scm}
- @end example
-
-
- See font.scm for details of @var{scm}
-@end itemize
-
-
-
-@cindex changing font size and paper size
-
-The Feta font provides musical symbols at six different sizes. These
-fonts are 11 point, 13 point, 16 point, 20 point,
-23 point, and 26 point. The point size of a font is the
-height of the five lines in a staff when displayed in the font.
-
-Definitions for these sizes are the files @file{paperSZ.ly}, where
-@code{SZ} is one of 11, 13, 16, 20, 23 and 26. If you include
-any of these files, the identifiers @code{paper_eleven},
-@code{paper_thirteen}, @code{paper_sixteen}, @code{paper_twenty},
-@code{paper_twentythree}, and @code{paper_twentysix} are defined
-respectively. The default @code{\paper} block is also set.
-
-To change the paper size, you must first set the
-@code{papersize}@indexcode{papersize} variable at top level. Set it to the strings
-@code{a4}, @code{letter}, or @code{legal}. After this specification,
-you must set the font as described above. If you want the default
-font, then use the 20 point font. The new paper size will not
-take effect if the font is not loaded and selected afterwards. Paper
-size selection works by loading a file named after the paper size you
-select.
+Here @var{engravername} is a string, the name of an engraver in the
+system. @var{propname} is a string and @var{value} is a Scheme
+expression.
+@lilypond[verbatim,singleline]
+\score { \notes {
+ c'4 c'4 }
+ \paper {
+ \translator { \StaffContext
+ \consists Instrument_name_engraver;
+ instrument = #"foo"
+ \remove Clef_engraver;
+ } } }
+@end lilypond
+@cindex engraver
-@cindex paper variables
+These type of property assignments happen before interpretation starts,
+so a @code{\property} expression will override any predefined settings.
-@node Paper variables, , , Reference Manual
+Engravers are the actual C++ modules that do the work in the
+interpretation phase.
-There is a large number of paper variables that are used to control
-details of the layout. These variables control the defaults for the
-entire score. Usually, they do not have to be changed; they are by
-default set to values that depend on the font size in use. The
-values are used by the graphic objects while formatting the score;
-they are therefore implementation dependent. Most variables are
-accompanied by documentation in the initalization file
-@file{params.ly} or @file{paperSZ.ly}, where @code{SZ} is the staff
-height in points.
-Nevertheless, here are some variables you may want to use or change:
+There are some pre-defined identifiers to simplify editing translators,
+they are defined in @file{ly/engraver.ly}. These pre-defined
+identifiers are:
-@table @samp
- @item @code{indent}@indexcode{indent}
- The indentation of the first line of music.
+@table @code
+@cindex @code{StaffContext}
+ @item @code{StaffContext}
+ Default Staff context.
+@cindex @code{RhythmicStaffContext}
- @item @code{staffspace}@indexcode{staffspace}
- The distance between two staff lines, calculated from the center
- of the lines. You should use either this or @code{rulethickness}
- as a unit for distances you modify.
-
- @item @code{linewidth}@indexcode{linewidth}
- Sets the width of the lines. If set to -1.0, a single
- unjustified line is produced.
+ @item @code{RhythmicStaffContext}
+ Default RhythmicStaff context.
+@cindex @code{VoiceContext}
- @item @code{textheight}@indexcode{textheight}
- Sets the total height of the music on each page. Only used by
- ly2dvi.
+ @item @code{VoiceContext}
+ Default Voice context.
+@cindex @code{ScoreContext}
- @item @code{interscoreline}@indexcode{interscoreline}
- Sets the spacing between the score lines. Defaults to 16 pt.
+ @item @code{ScoreContext}
+ Default Score context.
- @item @code{interscorelinefill}@indexcode{interscorelinefill}
- If set to a positive number, the distance between the score
- lines will stretch in order to fill the full page. In that
- case @code{interscoreline} specifies the minimum spacing.
- Defaults to 0.
+@cindex @code{HaraKiriStaffContext}
- @item @code{stafflinethickness}@indexcode{stafflinethickness}
- Determines the thickness of staff and bar lines.
+ @item @code{HaraKiriStaffContext}
+ Staff context that does not print if it only contains rests.
+ Useful for orchestral scores.@footnote{Harakiri, also called
+ Seppuku, is the ritual suicide of the Japanese Samourai warriors.}
@end table
+@node Defining new contexts
+@subsection Defining new contexts
-@node contextdefs, , , Reference Manual
-
-@cindex context definition
-
-A notation contexts is defined by the following information
-
-@enumerate i
- @item A name.
-
- @item The LilyPond modules that do the actual conversion of music to
- notation. Each module is a so-called
- @emph{engraver}
-@cindex engraver
-.
-
- @item How these modules should cooperate, i.e. which ``cooperation
- module'' should be used. This cooperation module is a special
- type of engraver.
+If you want to build a context from scratch, you must also supply the
+following extra information:
+@itemize @bullet
+ @item A name, specified by @code{\name @var{contextname};}.
- @item What other contexts the context can contain,
+ @item A cooperation engraver. This is specified by @code{\type
+@var{typename};}.
+@end itemize
- @item What properties are defined.
-@end enumerate
A context definition has this syntax:
@code{@}}
@end example
-@var{translatorinit} can be an identifier or of the form
-
+@var{translatorinit} can be an identifier or
@example
- \type @var{typename} @code{;}
@end example
+where @var{typename} is one of
-@var{typename} is one of
+The cooperation engraver groups other engravers, and specifies how they
+should cooperate. Choices are:
-@table @samp
- @item @code{Engraver_group_engraver}@indexcode{Engraver_group_engraver}
+@table @code
+@cindex @code{Engraver_group_engraver}
+ @item @code{Engraver_group_engraver}
The standard cooperation engraver.
- @item @code{Score_engraver}@indexcode{Score_engraver}
- This is cooperation module that should be in the top level context.
+@cindex @code{Score_engraver}
+
+ @item @code{Score_engraver}
+ This is cooperation module that should be in the top level context,
+and only the toplevel context.
+
+@cindex @code{Grace_engraver_group}
- @item @code{Grace_engraver_group}@indexcode{Grace_engraver_group}
+ @item @code{Grace_engraver_group}
This is a special cooperation module (resembling
@code{Score_engraver}) that is used to created an embedded
`miniscore'.
@item @code{\accepts} @var{contextname} @code{;}
Add @var{contextname} to the list of context this context can
- contain. The first listed context the context to create by
+ contain. The first listed context is the context to create by
default.
+
+ @item @code{\denies}. The opposite of @code{\accepts}. Added for
+completeness, but is never used in practice.
+
@item @code{\remove} @var{engravername} @code{;}
Remove a previously added (with @code{\consists}) engraver.
the name is not specified, the translator won't do anything.
@item @var{propname} @code{=} @var{value} @code{;}
- A property assignment. It is allowed to use reals for
- @var{value}.
+ A property assignment.
@end itemize
In the @code{\paper} block, it is also possible to define translator
@}
@end example
-@end quotation
+@end quotation
+
+
+@cindex paper types, engravers, and pre-defined translators
+
+
+
+
+ Properties can be preset within the @code{\translator} block
+corresponding to the appropriate context. In this case, the syntax
+is
+
+@example
+ @var{propname} @code{=} @var{value}
+@end example
+
+The property settings are used during the interpretation phase. They
+are read by the LilyPond modules where interpretation contexts are
+built of. These modules are called @emph{translators}. Translators for
+notation are called @emph{engravers}, and translators for sound are
+called @emph{performers}.
+
+
+
+
+@c . {Syntactic details}
+@node Syntactic details
+@section Syntactic details
+@cindex Syntactic details
+@menu
+* Top level::
+* Identifiers::
+* Music expressions::
+* Manipulating music expressions::
+* Assignments::
+* Lexical details::
+* Lexical modes::
+* Ambiguities::
+@end menu
+
+@c . {Top level}
+@node Top level
+@subsection Top level
+@cindex Top level
+
+This section describes what you may enter at top level.
+
+@c . {Score}
+@subsubsection Score
+@cindex Score
-@cindex paper types, engravers, and pre-defined translators
+@cindex score definition
-Some pre-defined identifiers can simplify modification of
-translators. The pre-defined identifiers are:
+The output is generated combining a music expression with an output
+definition. A score block has the following syntax:
-@table @samp
- @item @code{StaffContext}@indexcode{StaffContext}
- Default Staff context.
+@example
+ \score @{ @var{musicexpr} @var{outputdefs} @}
+@end example
- @item @code{RhythmicStaffContext}@indexcode{RhythmicStaffContext}
- Default RhythmicStaff context.
+@var{outputdefs} are zero or more output definitions. If no output
+definition is supplied, the default @code{\paper} block will be added.
- @item @code{VoiceContext}@indexcode{VoiceContext}
- Default Voice context.
- @item @code{ScoreContext}@indexcode{ScoreContext}
- Default Score context.
- @item @code{ScoreWithNumbers}@indexcode{ScoreWithNumbers}
- Score context with numbering at the Score level.
+@c . {Default output}
+@subsubsection Default output
- @item @code{BarNumberingStaffContext}@indexcode{BarNumberingStaffContext}
- Staff context with numbering at the Staff level.
+Default values for the @code{\paper} and @code{\midi} block are set by
+entering such a block at top-level.
- @item @code{HaraKiriStaffContext}@indexcode{HaraKiriStaffContext}
- Staff context that does not print if it only contains rests.
- Useful for orchestral scores.@footnote{Harakiri, also called
- Seppuku, is the ritual suicide of the Samourai.}
+@c . {Header}
+@subsubsection Header
+@cindex Header
+@cindex @code{\header}
- @item @code{OrchestralPartStaffContext}@indexcode{OrchestralPartStaffContext}
+The syntax is
- @item @code{OrchestralScoreContext}@indexcode{OrchestralScoreContext}
-@end table
+@example
+ \header @{ @var{key1} = @var{val1};
+@cindex @code{ly2dvi}
+ @var{key2} = @var{val2}; @dots{} @}
+@end example
-Using these pre-defined values, you can remove or add items to the
-translator:
-@quotation
+A header describes the file's contents. It can also appear in a
+@code{\score} block. Tools like @code{ly2dvi} can use this
+information for generating titles. Key values that are used by
+@code{ly2dvi} are: title, subtitle, composer, opus, poet, instrument,
+metre, arranger, piece and tagline.
-@example
-\paper @{
- \translator @{
- \StaffContext
- \remove Some_engraver;
- \consists Different_engraver;
- @}
-@}
-@end example
+It is customary to put the @code{\header} at the top of the file.
-@end quotation
+@subsubsection Default output
-
-@node Sound output, , , Reference Manual
-@section Sound output
+A @code{\midi} or @code{\paper} block at top-level sets the default
+paper block for all scores that lack an explicit paper block.
+@c . {Identifiers}
+@node Identifiers
+@subsection Identifiers
+@cindex Identifiers
-The MIDI block is analogous to the paper block, but it is simpler.
-The @code{\midi} block can contain:
-@cindex MIDI block
+All of the information in a LilyPond input file, is represented as a
+Scheme value. In addition to normal Scheme data types (such as pair,
+number, boolean, etc.), LilyPond has a number of specialized data types,
@itemize @bullet
- @item a @code{\tempo} definition
- @item context definitions
+@item Input
+@item c++-function
+@item Music
+@item Identifier
+@item Translator_def
+@item Duration
+@item Pitch
+@item Score
+@item Music_output_def
+@item Moment (rational number)
@end itemize
-Assignments in the @code{\midi} block are not allowed.
-
+LilyPond also includes some transient object types. Objects of these
+types are built during a LilyPond run, and do not `exist' per se within
+your input file. These objects are created as a result of your input
+file, so you can include commands in the input to manipulate them,
+during a lilypond run.
+@itemize @bullet
+@item Grob: short for Graphical object. See @ref{Grobs}.
+@item Molecule: device-independent page output object,
+including dimensions. Produced by some Grob functions
+See @ref{Molecules}
+@item Translator: object that produces audio objects or Grobs. This is
+not yet user accessible.
+@item Font_metric: object representing a font. (See @ref{Font metrics})
-@cindex context definition
+@end itemize
-Context definitions follow precisely the same syntax as within the
-\paper block. Translation modules for sound are called performers.
-The contexts for MIDI output are defined in @file{ly/performer.ly}.
+@node Music expressions
+@subsection Music expressions
+@cindex music expressions
-@cindex MIDI instrument names
+Music in LilyPond is entered as a music expression. Notes, rests, lyric
+syllables are music expressions, and you can combine music expressions
+to form new ones, for example by enclosing a list of expressions in
+@code{\sequential @{ @}} or @code{< >}. In this example, a compound
+expression is formed out of the quarter note @code{c} and a quarter note
+@code{d}:
-@node midilist, , , Reference Manual
+@example
+\sequential @{ c4 d4 @}
+@end example
-The MIDI instrument name is set by the
-@code{Staff.midiInstrument}@indexcode{Staff.midiInstrument} property or,
-if that property is not set, the
-@code{Staff.instrument}@indexcode{Staff.instrument} property. The
-instrument name should be chosen from the following list. If the
-selected string does not exactly match, then LilyPond uses the default
-piano.
+@cindex Sequential music
+@cindex @code{\sequential}
+@cindex sequential music
+@cindex @code{<}
+@cindex @code{>}
+@cindex Simultaneous music
+@cindex @code{\simultaneous}
-@c @quotation
+The two basic compound music expressions are simultaneous and
+sequential music.
-@example
-"acoustic grand" "contrabass" "lead 7 (fifths)"
-"bright acoustic" "tremolo strings" "lead 8 (bass+lead)"
-"electric grand" "pizzicato strings" "pad 1 (new age)"
-"honky-tonk" "orchestral strings" "pad 2 (warm)"
-"electric piano 1" "timpani" "pad 3 (polysynth)"
-"electric piano 2" "string ensemble 1" "pad 4 (choir)"
-"harpsichord" "string ensemble 2" "pad 5 (bowed)"
-"clav" "synthstrings 1" "pad 6 (metallic)"
-"celesta" "synthstrings 2" "pad 7 (halo)"
-"glockenspiel" "choir aahs" "pad 8 (sweep)"
-"music box" "voice oohs" "fx 1 (rain)"
-"vibraphone" "synth voice" "fx 2 (soundtrack)"
-"marimba" "orchestra hit" "fx 3 (crystal)"
-"xylophone" "trumpet" "fx 4 (atmosphere)"
-"tubular bells" "trombone" "fx 5 (brightness)"
-"dulcimer" "tuba" "fx 6 (goblins)"
-"drawbar organ" "muted trumpet" "fx 7 (echoes)"
-"percussive organ" "french horn" "fx 8 (sci-fi)"
-"rock organ" "brass section" "sitar"
-"church organ" "synthbrass 1" "banjo"
-"reed organ" "synthbrass 2" "shamisen"
-"accordion" "soprano sax" "koto"
-"harmonica" "alto sax" "kalimba"
-"concertina" "tenor sax" "bagpipe"
-"acoustic guitar (nylon)" "baritone sax" "fiddle"
-"acoustic guitar (steel)" "oboe" "shanai"
-"electric guitar (jazz)" "english horn" "tinkle bell"
-"electric guitar (clean)" "bassoon" "agogo"
-"electric guitar (muted)" "clarinet" "steel drums"
-"overdriven guitar" "piccolo" "woodblock"
-"distorted guitar" "flute" "taiko drum"
-"guitar harmonics" "recorder" "melodic tom"
-"acoustic bass" "pan flute" "synth drum"
-"electric bass (finger)" "blown bottle" "reverse cymbal"
-"electric bass (pick)" "skakuhachi" "guitar fret noise"
-"fretless bass" "whistle" "breath noise"
-"slap bass 1" "ocarina" "seashore"
-"slap bass 2" "lead 1 (square)" "bird tweet"
-"synth bass 1" "lead 2 (sawtooth)" "telephone ring"
-"synth bass 2" "lead 3 (calliope)" "helicopter"
-"violin" "lead 4 (chiff)" "applause"
-"viola" "lead 5 (charang)" "gunshot"
-"cello" "lead 6 (voice)"
-@end example
+@example
+ \sequential @code{@{} @var{musicexprlist} @code{@}}
+ \simultaneous @code{@{} @var{musicexprlist} @code{@}}
+@end example
+For both, there is a shorthand:
+@example
+ @code{@{} @var{musicexprlist} @code{@}}
+@end example
+for sequential and
+@example
+ @code{<} @var{musicexprlist} @code{>}
+@end example
+for simultaneous music.
+Other compound music expressions include
+@example
+ \repeat @var{expr}
+ \transpose @var{pitch} @var{expr}
+ \apply @var{func} @var{expr}
+ \context @var{type} = @var{id} @var{expr}
+ \times @var{fraction} @var{expr}
+@end example
-@c @end quotation
+In principle, the way in which you nest sequential and simultaneous to
+produce music is not relevant. In the following example, three chords
+are expressed in two different ways:
+@lilypond[fragment,verbatim,center]
+ \notes \context Voice {
+ <a c'> <b d' > <c' e'>
+ < { a b c' } { c' d' e' } >
+ }
+@end lilypond
+However, in some cases, LilyPond will also try to choose contexts, and
+use the structure of the music expression to do so. This can have
+undesired effects: for example, LilyPond will create a separate staff
+for each note if you start a @code{\score} with a chord:
+@lilypond[verbatim,center,singleline]
+ \score {
+ \notes <c''4 e''>
+ }
+@end lilypond
+ The solution is to explicitly instantiate the context you desire.
+In this case this is typically a Voice context
+@lilypond[verbatim,center,singleline]
+ \score {
+ \notes\context Voice <c''4 e''>
+ }
+@end lilypond
+If you use @code{\context Staff} you will get separate stems for each
+note head, leading to collisions, so don't use that.
-@node Pre-defined Identifiers, , , Reference Manual
-@section Pre-defined Identifiers
-@cindex pre-defined identifiers
+@c . {Manipulating music expressions}
+@node Manipulating music expressions
+@subsection Manipulating music expressions
+The @code{\apply} mechanism gives you access to the internal
+representation of music. You can write Scheme-functions that operate
+directly on it. The syntax is
+@example
+ \apply #@var{func} @var{music}
+@end example
+This means that @var{func} is applied to @var{music}. The function
+@var{func} should return a music expression.
-Various identifiers are defined in the initialization files to
-provide shorthands for some settings. Most of them are in
-@file{ly/declarations.ly}.
+This example replaces the text string of a script. It also shows a dump
+of the music it processes, which is useful if you want to know more
+about how music is stored.
+@lilypond[verbatim]
+#(define (testfunc x)
+ (if (equal? (ly-get-mus-property x 'text) "foo")
+ (ly-set-mus-property x 'text "bar"))
+ ;; recurse
+ (ly-set-mus-property x 'elements
+ (map testfunc (ly-get-mus-property x 'elements)))
+ (display x)
+ x
+)
+\score { \notes
+ \apply #testfunc { c4_"foo" }
+}
+@end lilypond
-@table @samp
- @item @code{\break}@keyindex{break}
- Force a line break in music by using a large argument for the
- keyword @code{\penalty}.
+For more information on what is possible, see the @ref{Tricks} and the
+automatically generated documentation.
- @item @code{\nobreak}@keyindex{nobreak}
- Prevent a line break in music by using a large negative argument
- for the keyword @code{\penalty}.
+As always: directly accessing internal representations is dangerous: the
+implementation is subject to changes, so you should not use this if
+possible.
- @item @code{\normalkey}@keyindex{normalkey}
- Select normal key signatures where each octave has the same key
- signature. This sets the @code{Staff.keyoctaviation} property.
- @item @code{\shiftoff}@keyindex{shiftOff}
- Disable horizontal shifting of note heads that collide.
+@c . {Assignments}
+@node Assignments
+@subsection Assignments
+@cindex Assignments
- @item @code{\shiftOn}@keyindex{shiftOn}
- Enable note heads that collide with other note heads to be
- shifted horiztonally.
+Identifiers allow objects to be assigned to names during the parse
+stage. To assign an identifier, you use @var{name}@code{=}@var{value}
+and to refer to an identifier, you preceed its name with a backslash:
+`@code{\}@var{name}'. @var{value} is any valid Scheme value or any of
+the input-types listed above. Identifier assignments can appear at top
+level in the LilyPond file, but also in @code{\paper} blocks.
+
+Semicolons are forbidden after top level assignments, but mandatory in
+other places. The rules about semicolons and assignments are very
+confusing, but when LilyPond input evolves more towards Scheme, we hope
+that this problem will grow smaller.
+
+An identifier can be created with any string for its name, but you will
+only be able to refer to identifiers whose names begin with a letter,
+being entirely alphabetical. It is impossible to refer to an identifier
+whose name is the same as the name of a keyword.
- @item @code{\slurBoth}@keyindex{slurBoth}
- Allow slurs to be above or below notes.
+The right hand side of an identifier assignment is parsed completely
+before the assignment is done, so it is allowed to redefine an
+identifier in terms of its old value, e.g.
- @item @code{\slurDown}@keyindex{slurDown}
- Force slurs to be below notes.
+@example
+foo = \foo * 2.0
+@end example
- @item @code{\slurUp}@keyindex{slurUp}
- Force slurs to be above notes.
+When an identifier is referenced, the information it points to is
+copied. For this reason, an identifier reference must always be the
+first item in a block.
+@example
+\paper @{
+ foo = 1.0
+ \paperIdent % wrong and invalid
+@}
- @item @code{\specialkey}@keyindex{specialkey}
- Allow key signatures do differ in different octaves. This sets
- the @code{Staff.keyoctaviation} property.
+\paper @{
+ \paperIdent % correct
+ foo = 1.0 @}
+@end example
- @item @code{\stemBoth}@keyindex{stemBoth}
- Allow stems, beams, and slurs to point either upwards or
- downwards, decided automatically by LilyPond.
+@c . {Lexical details}
+@node Lexical details
+@subsection Lexical details
+@cindex Lexical details
+@menu
+@end menu
- @item @code{\stemdown}@keyindex{stemdown}
- Force stems, beams, and slurs to point down.
+@c . {Comments}
+@subsubsection Comments
+@cindex Comments
- @item @code{\stemUp}@keyindex{stemUp}
- Force stems, beams and slurs to point up.
+@cindex @code{%}
-@end table
-@node Grobs, , , Reference Manual
-@section Grobs
+A one line comment is introduced by a @code{%} character.
+Block comments are started by @code{%@{} and ended by @code{%@}}.
+They cannot be nested.
-This section is about Grobs (short for Graphical Objects), which are
-formatting objects used to create the final output. This material is
-normally the domain of LilyPond gurus, but occasionally, a normal user
-also has to deal with grobs.
+@c . {Direct Scheme}
+@subsubsection Direct Scheme
+@cindex Scheme
+@cindex GUILE
+@cindex Scheme, in-line code
-The most simple interaction with Grobs are when you use
-@code{\override}:
+LilyPond contains a Scheme interpreter (the GUILE library) for
+internal use. In some places Scheme expressions also form valid syntax:
+whereever it is allowed,
+@example
+ #@var{scheme}
+@end example
+evaluates the specified Scheme code. If this is used at toplevel, then
+the result is discarded. Example:
@example
- \property Voice.Stem \override #'direction = #1
+ \property Staff.TestObject \override #'foobar = #(+ 1 2)
@end example
-This piece of lily input causes all stem objects to be stem-up
-henceforth. In effect, you are telling lilypond to extend the defintion
-of the "Stem" grob with the setting @code{direction := 1}. Of course
-there are many more ways of customizing Lily output, and since most of
-them involve Grobs in some form, this section explains some details of
-how grobs work.
+@code{\override} expects two Scheme expressions, so there are two Scheme
+expressions. The first one is a symbol (@code{foobar}), the second one
+an integer (namely, 3).
-@menu
-* What is a grob?::
-* Callbacks::
-* Setting grob properties::
-* Items and Spanners::
-* Pointer substitution::
-@end menu
+Scheme is a full-blown programming language, and a full discussion is
+outside the scope of this document. Interested readers are referred to
+the website @uref{http://www.schemers.org/} for more information on
+Scheme.
-@node What is a grob?, , , Grobs
-All grobs have an X and Y-position on the page. These X and Y positions
-are stored in a relative format, so they can easily be combined by
-stacking them, hanging one grob to the side of another, and coupling
-them into a grouping-grob.
+@c . {Keywords}
+@subsubsection Keywords
+@cindex Keywords
-Each grob has a reference point, or parent: the position of a grob is
-stored relative to that reference point. For example the X-reference
-point of a staccato dot usually is the note head that it applies
-to. Whenever the note head is moved, the staccato dot moves along
-automatically.
-If you keep following offset reference points, you will always end up at
-the root-object. This root object is called @code{Line_of_score}
-@ref{(lilypond-internals)Element Line_of_score}, and it represents a
-system (ie. a line of music).
-
-All grobs carry a set of grob-properties. In the Stem example above,
-the property @code{direction} is set to value @code{1}. The function
-that draws the symbol (@code{Stem::brew_molecule}) uses the value of
-@code{direction} to determine how to print the stem and the flag. The
-appearance of a grob is determined solely by the values of its
-properties.
-
-Often, a grob also is associated with a symbol. On the other hand, Some
-grobs do not print any symbols, but take care of grouping objects. For
-example, there is a separate grob that stacks staffs vertically, so they
-are not printed in overstrike. The NoteCollision @ref{(lilypond-internals)Element
-NoteCollision} is another example of an abstract grob. It only moves
-around chords, but doesn't print anything.
-
-A complete list of grob types is found in @ref{(lilypond-internals)Elements}
-
-Grobs are created in the "Interpreting music" phase, by things in
-LilyPond called engravers. In this phase of the translation, a load of
-grobs are created, and they are linked into a giant network of objects.
-This network of grobs forms the "specification" of the print
-problem. This problem is then solved: configurations, directions,
-dimensions, line breaks, etc. are calculated. Finally, the printing
-description in the form of Molecules (@ref{Molecule}) is extracted from
-the network. These are then dumped into the output file
-
-@node Callbacks, , , Grobs
-
-Offsets of grobs are relative to a parent reference point. Most
-positions are not known when an object is created, so these are
-calculated as needed. This is done by adding a callback for a specific
-direction.
-
-Suppose you have the following code in a .ly file.
+Keywords start with a backslash, followed by a number of lower case
+alphabetic characters. These are all the keywords.
+
@example
- #(define (my-callback gr axis)
- (* 2.0 (get-gr-property grob 'direction))
- )
+apply arpeggio autochange spanrequest commandspanrequest
+simultaneous sequential accepts alternative bar breathe
+char chordmodifiers chords clef cm consists consistsend
+context denies duration dynamicscript elementdescriptions
+font grace header in lyrics key mark pitch
+time times midi mm name pitchnames notes outputproperty
+override set revert partial paper penalty property pt
+relative remove repeat addlyrics partcombine score
+script stylesheet skip textscript tempo translator
+transpose type
+@end example
-....
+@c . {Integers}
+@subsubsection Integers
- \property Voice.Stem \override #'Y-offset-callbacks = #(list
- my-callback)
-@end example
+@cindex integers
+@cindex @code{+}
+@cindex @code{-}
+@cindex @code{*}
+@cindex @code{/}
+
+Formed from an optional minus sign followed by digits. Arithmetic
+operations cannot be done with integers, and integers cannot be mixed
+with reals.
-When the Y-offset of a Stem object is needed, LilyPond will
-automatically execute all callbacks for that object. In this case, it
-will find @code{my-callback}, and execute that. The result is that the
-stem is translated by two staff spaces in its direction.
+@c . {Reals}
+@subsubsection Reals
+@cindex real numbers
-(note: Y-offset-callbacks is also a property)
-Offset callbacks can be stacked, ie.
-@example
- \property .... \override #'Y-offset-callbacks = #(list
- callback1 callback2 callback3)
-@end example
+Formed from an optional minus sign and a sequence of digits followed
+by a @emph{required} decimal point and an optional exponent such as
+@code{-1.2e3}. Reals can be built up using the usual operations:
+`@code{+}', `@code{-}', `@code{*}', and
+`@code{/}', with parentheses for grouping.
+
+@cindex @code{\mm},
+@cindex @code{\in}
+@cindex @code{\cm}
+@cindex @code{\pt}
+@cindex dimensions
+
+A real constant can be followed by one of the dimension keywords:
+@code{\mm} @code{\pt}, @code{\in}, or @code{\cm}, for millimeters,
+points, inches and centimeters, respectively. This converts the number
+to a real that is the internal representation of dimensions.
+
+
+@c . {Strings}
+@subsubsection Strings
+@cindex string
+@cindex concatenate
-The callbacks will be executed in the order callback3 callback2
-callback1. This is used for quantized positioning: the staccato dot is
-above or below a note head, and it must not be on a staff-line.
+Begins and ends with the @code{"} character. To include a @code{"}
+character in a string write @code{\"}. Various other backslash
+sequences have special interpretations as in the C language. A string
+that contains no spaces can be written without the quotes. See
+@ref{Lexical modes} for details on unquoted strings; their
+interpretation varies depending on the situation. Strings can be
+concatenated with the @code{+} operator.
+
+The tokenizer accepts the following commands. They have no grammatical
+function, hence they can appear anywhere in the input.
-To achieve this, for the staccato there are two callbacks: one callback
-that positions the grob above or below the note head, and one callback
-that rounds the Y-position of the grob to the nearest open space.
-Similarly, the size of a grob are determined through callbacks, settable
-with grob properties @code{X-extent-callback} and @code{Y-extent-callback}.
-There can be only one extent-callback for each axis. No callback (value #f)
-means: "empty in this direction". If you fill in a pair, that pair
-hard-codes the extent in that coordinate.
+@c . {Main input}
+@subsubsection Main input
+@cindex Main input
+@cindex @code{\maininput}
-@node Setting grob properties, , , Grobs
+The @code{\maininput} command is used in init files to signal that the
+user file must be read. This command cannot be used in a user file.
-Grob properties are stored as GUILE association lists, with symbols as
-keys. From C++, element properties can be accessed using the functions
+@c . {File inclusion}
+@subsubsection Main input
+@cindex Main input
+@subsubsection File inclusion
+@cindex @code{\include}
@example
- SCM get_grob_property (SCM) const;
- void set_grob_property (const char * , SCM val);
- void set_immutable_grob_property (const char * , SCM val);
- void set_immutable_grob_property (SCM key, SCM val);
- void set_grob_property (SCM , SCM val);
- void set_grob_pointer (const char*, SCM val);
- SCM remove_grob_property (const char* nm);
+ \include @var{filename}
@end example
-In GUILE, LilyPond provides
+Include @var{filename}. The argument @var{filename} may be a quoted string (an
+unquoted string will not work here!) or a string identifier. The full
+filename including the @file{.ly} extension must be given,
+@subsubsection Version information
+@cindex @code{\version}
@example
- ly-get-grob-property GROB SYMBOL
- ly-set-grob-property GROB SYMBOL VALUE
+ \version @var{string} ;
@end example
-All lookup functions identify undefined properties with
-end-of-list (ie. @code{'()} in Scheme or @code{SCM_EOL} in C)
+Specify the version of LilyPond that a file was written for. The
+argument is a version string in quotes, for example @code{"1.2.0"}.
+This is used to detect invalid input, and to aid
+@code{convert-ly} a tool that automatically upgrades input files. See
+See @ref{convert-ly} for more information on @code{convert-ly}.
-Properties are stored in two ways:
-@itemize @bullet
-@item mutable properties:
-element properties that change from object to object. The storage of
-these are private to a grob. Typically this is used to store lists of
-pointers to other grobs
-
-@item immutable properties:
-element properties that are shared across different grobs of the same
-type. The storage is shared, and hence it is read-only. Typically, this
-is used to store function callbacks, and values for shared element
-properties are read from @file{scm/element-description.scm}.
-@end itemize
+@cindex convert-ly
-There are two ways to manually set grob properties.
-You can change immutable grob properties. This is done with the
-\override syntax:
+@c . {Pitch names}
+@subsubsection Defining pitch names
+@cindex Lexical modes
+@cindex definining pitch names
+@cindex pitch names, definining
+@cindex note names
+@cindex chord modifier names
-@example
- \property Voice.Stem \override #'direction = #1
-@end example
+A @code{\paper} block at top level sets the default paper block. A
+@code{\midi} block at top level works similarly.
-This will push the entry @code{'(direction . 1)} on the immutable
-property list for stems, in effect overriding the setting from
-@file{scm/element-description.scm}. This can be undone by
+@c . {Assignments}
+@subsubsection Assignments
+@cindex assignments
+@cindex @code{#}
-@example
- \property Voice.stem \revert #'direction
-@end example
+Identifier assignments may appear at top level. @ref{Assignments}
-If you use this a lot, this gets old quickly. So we also have a
-shorthand,
-@example
- \property Context.GrobType \set #'prop = #VAL
-@end example
-this does a @code{\revert} followed by a @code{\override}
+@c . {Direct scheme}
+@subsubsection Direct scheme
+@cindex Direct scheme
-The second way is \outputproperty. This construct looks like
+Scheme statements maybe issued to produce interesting side-effects.
-@example
- \context ContextName \outputproperty @var{pred} #@var{sym} = #@var{val}
-@end example
-In this case, in every grob that satisfies @var{pred}, the property
-assignment @var{sym} = @var{val} is done. For example
+@c . {Lexical modes}
+@node Lexical modes
+@subsection Lexical modes
+@cindex Lexical modes
+@cindex input mode
+@cindex mode, input
+@cindex @code{\notes}
+@cindex @code{\chords}
+@cindex @code{\lyrics}
+To simplify entering notes, lyrics, and chords, LilyPond has three
+special input modes on top of the default mode: note, lyrics and chords
+mode. These input modes change the way that normal, unquoted words are
+interpreted: for example, the word @code{cis} may be interpreted as a
+C-sharp, as a lyric syllable `cis' or as a C-sharp major triad
+respectively.
+
+A mode switch is entered as a compound music expressions
@example
- \outputproperty
- #(lambda (gr) (string? (ly-get-grob-property gr
- 'text)))
- #'extra-offset = #'(-1.0 . 0.0)
+@code{\notes} @var{musicexpr}
+@code{\chords} @var{musicexpr}
+@code{\lyrics} @var{musicexpr}.
@end example
-This shifts all elements that have a @code{text} property one staff
-space to the left.
+In each of these cases, these expressions do not add anything to the
+meaning of their arguments. They are just a way to indicate that the
+arguments should be parsed in indicated mode. The modes are treated in
+more detail in the sections @ref{Note entry}, @ref{Lyrics} and
+@ref{Chords}.
+
+You may nest different input modes.
+
+@c . {Ambiguities}
+@node Ambiguities
+@subsection Ambiguities
+@cindex ambiguities
+@cindex grammar
+
+
+The grammar contains a number of ambiguities. We hope to resolve them at
+some time.
+
+@itemize @bullet
+ @item The assignment
+
+ @example
+foo = bar
+@end example
+
+ can be interpreted as making a string identifier @code{\foo}
+ containing @code{"bar"}, or a music identifier @code{\foo}
+ containing the syllable `bar'.
+
+ @item The assignment
-@node Items and Spanners, , , Grobs
+ @example
+foo = -6
+@end example
-Grobs can also be distinguished in their role in the horizontal spacing.
-A lot of grobs define constraints on the spacing by their sizes. For
-example, note heads, clefs, stems, and all other symbols with a fixed
-shape. These grobs form a subtype called @code{Item}.
+ can be interpreted as making an integer identifier
+ containing -6, or a Request identifier containing the
+ fingering `6' (with neutral direction).
-Other grobs have a shape that depends on the horizontal spacing. For
-example, slur, beam, tie, etc. These grobs form a subtype called
-@code{Spanner}. All spanners have two span-points (these must be
-@code{Item}s), one on the left and one on the right. The left bound is
-also the X-reference point.
+ @item If you do a nested repeat like
-Some items need special treatment for line breaking. For example, a
-clef is normally only printed at the start of a line (ie. after a line
-break). To model this, `breakable' items (clef, key signature, bar lines,
-etc.) are copied twice. Then we have three versions of each breakable
-item: one version if there is no line break, one version that is printed
-before the line break (at the end of a system), one version that is
-printed after the line break.
+ @quotation
-Whether these versions are visible and take up space, is determined by
-the outcome of the visibility-lambda. This is a function taking a
-direction (-1, 0 or 1) and returns a cons of booleans, signifying wether
-this grob should be transparent and invisible.
+@example
+\repeat @dots{}
+\repeat @dots{}
+\alternative
+@end example
-@node Pointer substitution, , , Grobs
+ @end quotation
+ then it is ambiguous to which @code{\repeat} the
+ @code{\alternative} belongs. This is the classic if-then-else
+ dilemma. It may be solved by using braces.
-@node Molecule, , , Reference Manual
+ @item (an as yet unidentified ambiguity :-)
+@end itemize
-The objective of any typesetting system is to put ink on paper in the
-right places. For LilyPond, this final stage is left to the TeX and the
-printer subsystem. For lily, the last stage in processing a score is
-outputting a description of what to put where. This description roughly
-looks like
-@example
- PUT glyph AT (x,y)
- PUT glyph AT (x,y)
- PUT glyph AT (x,y)
-@end example
-you merely have to look at the tex output of lily to see this.
-Internally these instructions are encoded in Molecules:@footnote{At some
-point LilyPond also contained Atom-objects, but they have been replaced
-by Scheme expressions.}. A molecule is an object that combines
-dimension information (how large is this glyph ?) with
-what-to-print-where.
-Conceptually, Molecules can be constructed from Scheme code, by
-translating a Molecule and by combining two molecules. In BNF notation:
-@example
- Molecule = COMBINE Molecule Molecule
- | TRANSLATE Offset Molecule
- | GLYPH-DESCRIPTION
- ;
-@end example
+@c .{Local emacs vars}
+@c Local variables:
+@c mode: texinfo
+@c minor-mode: font-lock
+@c minor-mode: outline
+@c outline-layout: (-1 : 0)
+@c outline-use-mode-specific-leader: "@c \."
+@c outline-primary-bullet: "{"
+@c outline-stylish-prefixes: nil
+@c outline-override-protect: t
+@c End:
-(refer to the C++ code for more details). All visible,
-ie. non-transparent, grobs have a callback to create a Molecule. The
-name of the property is @code{molecule-callback}, and its value should
-be a Scheme function taking one argument (the grob) and returning a
-Molecule.