@c -*- coding: latin-1; mode: texinfo; -*- @c This file is part of lilypond.tely @c A menu is needed before every deeper *section nesting of @node's; run @c M-x texinfo-all-menus-update @c to automatically fill in these menus before saving changes @node Global issues @chapter Global issues This is a placeholder until I can write a nice intro for this chapter. @menu * Global layout:: * File structure:: * Sound:: @end menu @node Global layout @section Global layout The global layout is determined by three factors: the page layout, the line breaks, and the spacing. These all influence each other. The choice of spacing determines how densely each system of music is set. This influences where line breaks are chosen, and thus ultimately, how many pages a piece of music takes. Globally spoken, this procedure happens in three steps: first, flexible distances (``springs'') are chosen, based on durations. All possible line breaking combinations are tried, and the one with the best results -- a layout that has uniform density and requires as little stretching or cramping as possible -- is chosen. After spacing and linebreaking, the systems are distributed across pages, taking into account the size of the page, and the size of the titles. @menu * Setting global staff size:: * Paper size:: * Page layout:: * Vertical spacing:: * Vertical spacing of piano staves:: * Horizontal spacing:: * Line length:: * Line breaking:: * Page breaking:: * Multiple movements:: * Creating titles:: @end menu @node Setting global staff size @subsection Setting global staff size @cindex font size, setting @cindex staff size, setting @cindex @code{layout} file To set the global staff size, use @code{set-global-staff-size}. @example #(set-global-staff-size 14) @end example @noindent This sets the global default size to 14pt staff height and scales all fonts accordingly. The Feta font provides musical symbols at eight different sizes. Each font is tuned for a different staff size: at a smaller size the font becomes heavier, to match the relatively heavier staff lines. The recommended font sizes are listed in the following table: @quotation @multitable @columnfractions .15 .2 .22 .2 @item @b{font name} @tab @b{staff height (pt)} @tab @b{staff height (mm)} @tab @b{use} @item feta11 @tab 11.22 @tab 3.9 @tab pocket scores @item feta13 @tab 12.60 @tab 4.4 @tab @item feta14 @tab 14.14 @tab 5.0 @tab @item feta16 @tab 15.87 @tab 5.6 @tab @item feta18 @tab 17.82 @tab 6.3 @tab song books @item feta20 @tab 20 @tab 7.0 @tab standard parts @item feta23 @tab 22.45 @tab 7.9 @tab @item feta26 @tab 25.2 @tab 8.9 @tab @c modern rental material? @end multitable @end quotation These fonts are available in any sizes. The context property @code{fontSize} and the layout property @code{staff-space} (in @internalsref{StaffSymbol}) can be used to tune the size for individual staves. The sizes of individual staves are relative to the global size. @example @end example @seealso This manual: @ref{Selecting font sizes}. @node Paper size @subsection Paper size @cindex paper size @cindex page size @cindex @code{papersize} To change the paper size, there are two commands, @example #(set-default-paper-size "a4") \paper @{ #(set-paper-size "a4") @} @end example The first command sets the size of all pages. The second command sets the size of the pages that the @code{\paper} block applies to -- if the @code{\paper} block is at the top of the file, then it will apply to all pages. If the @code{\paper} block is inside a @code{\score}, then the paper size will only apply to that score. The following paper sizes are supported: @code{a6}, @code{a5}, @code{a4}, @code{a3}, @code{legal}, @code{letter}, @code{tabloid}. @cindex orientation @cindex landscape If the symbol @code{landscape} is supplied as an argument to @code{set-default-paper-size}, the pages will be rotated by 90 degrees, and wider line widths will be set correspondingly. @example #(set-default-paper-size "a6" 'landscape) @end example @node Page layout @subsection Page layout @cindex page layout @cindex margins @cindex header, page @cindex footer, page LilyPond will do page layout, set margins, and add headers and footers to each page. The default layout responds to the following settings in the @code{\paper} block. @cindex \paper @quotation @table @code @item firstpagenumber The value of the page number of the first page. Default is@tie{}1. @item printfirstpagenumber If set to true, will print the page number in the first page. Default is false. @item hsize The width of the page. @item vsize The height of the page. @item topmargin Margin between header and top of the page. @item bottommargin Margin between footer and bottom of the page. @item leftmargin Margin between the left side of the page and the beginning of the music. @item linewidth The length of the systems. @item headsep Distance between the top-most music system and the page header. @item footsep Distance between the bottom-most music system and the page footer. @item raggedbottom If set to true, systems will not be spread across the page. This should be set false for pieces that have only two or three systems per page, for example orchestral scores. @item raggedlastbottom If set to false, systems will be spread to fill the last page. Pieces that amply fill two pages or more should have this set to true. @item betweensystemspace This dimensions determines the distance between systems. It is the ideal distance between the center of the bottom staff of one system and the center of the top staff of the next system. Increasing this will provide a more even appearance of the page at the cost of using more vertical space. @item betweensystempadding This dimension is the minimum amount of white space that will always be present between the bottom-most symbol of one system, and the top-most of the next system. Increasing this will put systems whose bounding boxes almost touch farther apart. @item aftertitlespace Amount of space between the title and the first system. @item beforetitlespace Amount of space between the last system of the previous piece and the title of the next. @item betweentitlespace Amount of space between consecutive titles (e.g., the title of the book and the title of a piece). @item systemSeparatorMarkup This contains a markup object, which will be inserted between systems. This is often used for orchestral scores. The markup command @code{\slashSeparator} is provided as a sensible default, for example @lilypond[raggedright] \paper { systemSeparatorMarkup = \slashSeparator } \relative { c1 \break c1 } @end lilypond @end table @end quotation Example: @example \paper@{ hsize = 2\cm topmargin = 3\cm bottommargin = 3\cm raggedlastbottom = ##t @} @end example You can also define these values in Scheme. In that case @code{mm}, @code{in}, @code{pt}, and @code{cm} are variables defined in @file{paper-defaults.ly} with values in millimeters. That's why the value has to be multiplied in the example @example \paper @{ #(define bottommargin (* 2 cm)) @} @end example @cindex copyright @cindex tagline The default footer is empty, except for the first page, where the @code{copyright} field from @code{\header} is inserted, and the last page, where @code{tagline} from @code{\header} is added. The default tagline is ``Music engraving by LilyPond (@var{version})''.@footnote{Nicely printed parts are good PR for us, so please leave the tagline if you can.} The header and footer are created by the functions @code{make-footer} and @code{make-header}, defined in @code{\paper}. The default implementations are in @file{scm/@/page@/-layout@/.scm}. The page layout itself is done by two functions in the @code{\paper} block, @code{page-music-height} and @code{page-make-stencil}. The former tells the line-breaking algorithm how much space can be spent on a page, the latter creates the actual page given the system to put on it. @refbugs The option rightmargin is defined but doesn't set the right margin yet. The value for the right margin has to be defined adjusting the values of the leftmargin and linewidth. The default page header puts the page number and the @code{instrument} field from the @code{\header} block on a line. @node Vertical spacing @subsection Vertical spacing @cindex vertical spacing @cindex distance between staves @cindex staff distance @cindex between staves, distance @cindex staves per page @cindex space between staves The height of each system is determined automatically. To prevent systems from bumping into each other, some minimum distances are set. By changing these, you can put staves closer together, and thus put more systems onto one page. Normally staves are stacked vertically. To make staves maintain a distance, their vertical size is padded. This is done with the property @code{minimumVerticalExtent}. It takes a pair of numbers, so if you want to make it smaller than its default @code{#'(-4 . 4)}, then you could set @example \set Staff.minimumVerticalExtent = #'(-3 . 3) @end example @noindent This sets the vertical size of the current staff to 3 staff spaces on either side of the center staff line. The argument of @code{minimumVerticalExtent} is interpreted as an interval, where the center line is the 0, so the first number is generally negative. The staff can be made larger at the bottom by setting it to @code{(-6 . 4)}. To change the amount of space between systems, use @code{betweensystemspace}. A score with only one staff is still considered to have systems, so setting @code{betweensystemspace} will be much more useful than changing @code{minimumVerticalExtent}. @example \layout @{ betweensystemspace = 10\mm @} @end example @seealso Internals: Vertical alignment of staves is handled by the @internalsref{VerticalAlignment} object. @refbugs @code{minimumVerticalExtent} is syntactic sugar for setting @code{minimum-Y-extent} of the @internalsref{VerticalAxisGroup} of the current context. It can only be changed score wide. @node Vertical spacing of piano staves @subsection Vertical spacing of piano staves The distance between staves of a @internalsref{PianoStaff} cannot be computed during formatting. Rather, to make cross-staff beaming work correctly, that distance has to be fixed beforehand. The distance of staves in a @code{PianoStaff} is set with the @code{forced-distance} property of the @internalsref{VerticalAlignment} object, created in @internalsref{PianoStaff}. It can be adjusted as follows @example \new PianoStaff \with @{ \override VerticalAlignment #'forced-distance = #7 @} @{ ... @} @end example @noindent This would bring the staves together at a distance of 7 staff spaces, measured from the center line of each staff. The difference is demonstrated in the following example, @lilypond[quote,verbatim] \relative << \new PianoStaff \with { \override VerticalAlignment #'forced-distance = #7 } << \new Staff { c1 } \new Staff { c } >> \new PianoStaff << \new Staff { c } \new Staff { c } >> >> @end lilypond @refbugs @code{forced-distance} cannot be changed per system. @node Horizontal spacing @subsection Horizontal Spacing The spacing engine translates differences in durations into stretchable distances (``springs'') of differring lengths. Longer durations get more space, shorter durations get less. The shortest durations get a fixed amount of space (which is controlled by @code{shortest-duration-space} in the @internalsref{SpacingSpanner} object). The longer the duration, the more space it gets: doubling a duration adds a fixed amount (this amount is controlled by @code{spacing-increment}) of space to the note. For example, the following piece contains lots of half, quarter, and 8th notes; the eighth note is followed by 1 note head width (NHW). The quarter note is followed by 2 NHW, the half by 3 NHW, etc. @lilypond[quote,fragment,verbatim,relative=1] c2 c4. c8 c4. c8 c4. c8 c8 c8 c4 c4 c4 @end lilypond Normally, @code{spacing-increment} is set to 1.2 staff space, which is approximately the width of a note head, and @code{shortest-duration-space} is set to 2.0, meaning that the shortest note gets 2.4 staff space (2.0 times the @code{spacing-increment}) of horizontal space. This space is counted from the left edge of the symbol, so the shortest notes are generally followed by one NHW of space. If one would follow the above procedure exactly, then adding a single 32nd note to a score that uses 8th and 16th notes, would widen up the entire score a lot. The shortest note is no longer a 16th, but a 32nd, thus adding 1 NHW to every note. To prevent this, the shortest duration for spacing is not the shortest note in the score, but rather the one which occurs most frequently. The most common shortest duration is determined as follows: in every measure, the shortest duration is determined. The most common shortest duration is taken as the basis for the spacing, with the stipulation that this shortest duration should always be equal to or shorter than an 8th note. The shortest duration is printed when you run @code{lilypond} with the @code{--verbose} option. These durations may also be customized. If you set the @code{common-shortest-duration} in @internalsref{SpacingSpanner}, then this sets the base duration for spacing. The maximum duration for this base (normally an 8th), is set through @code{base-shortest-duration}. @cindex @code{common-shortest-duration} @cindex @code{base-shortest-duration} @cindex @code{stem-spacing-correction} @cindex @code{spacing} Notes that are even shorter than the common shortest note are followed by a space that is proportional to their duration relative to the common shortest note. So if we were to add only a few 16th notes to the example above, they would be followed by half a NHW: @lilypond[quote,fragment,verbatim,relative=2] c2 c4. c8 c4. c16[ c] c4. c8 c8 c8 c4 c4 c4 @end lilypond In the introduction (see @ref{Engraving}), it was explained that stem directions influence spacing. This is controlled with the @code{stem-spacing-correction} property in the @internalsref{NoteSpacing}, object. These are generated for every @internalsref{Voice} context. The @code{StaffSpacing} object (generated in @internalsref{Staff} context) contains the same property for controlling the stem/bar line spacing. The following example shows these corrections, once with default settings, and once with exaggerated corrections: @lilypond[quote,raggedright] { c'4 e''4 e'4 b'4 | b'4 e''4 b'4 e''4| \override Staff.NoteSpacing #'stem-spacing-correction = #1.5 \override Staff.StaffSpacing #'stem-spacing-correction = #1.5 c'4 e''4 e'4 b'4 | b'4 e''4 b'4 e''4| } @end lilypond @seealso Internals: @internalsref{SpacingSpanner}, @internalsref{NoteSpacing}, @internalsref{StaffSpacing}, @internalsref{SeparationItem}, and @internalsref{SeparatingGroupSpanner}. @refbugs Spacing is determined on a score wide basis. If you have a score that changes its character (measured in durations) halfway during the score, the part containing the longer durations will be spaced too widely. There is no convenient mechanism to manually override spacing. The following work-around may be used to insert extra space into a score. @example \once \override Score.SeparationItem #'padding = #1 @end example No work-around exists for decreasing the amount of space. @node Line length @subsection Line length @cindex page breaks @cindex breaking pages @cindex @code{indent} @cindex @code{linewidth} @c Although linewidth can be set in \layout, it should be set in paper @c block, to get page layout right. @c Setting indent in \paper block makes not much sense, but it works. @c Bit verbose and vague, use examples? The most basic settings influencing the spacing are @code{indent} and @code{linewidth}. They are set in the @code{\layout} block. They control the indentation of the first line of music, and the lengths of the lines. If @code{raggedright} is set to true in the @code{\layout} block, then the lines are justified at their natural length. This is useful for short fragments, and for checking how tight the natural spacing is. @cindex page layout @cindex vertical spacing The option @code{raggedlast} is similar to @code{raggedright}, but only affects the last line of the piece. No restrictions are put on that line. The result is similar to formatting text paragraphs. In a paragraph, the last line simply takes its natural length. @c Note that for text there are several options for the last line. @c While Knuth TeX uses natural length, lead typesetters use the same @c stretch as the previous line. eTeX uses \lastlinefit to @c interpolate between both these solutions. @node Line breaking @subsection Line breaking @cindex line breaks @cindex breaking lines Line breaks are normally computed automatically. They are chosen so that lines look neither cramped nor loose, and that consecutive lines have similar density. 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. Line breaks can only occur at places where there are bar lines. If you want to have a line break where there is no bar line, you can force an invisible bar line by entering @code{\bar ""}. Similarly, @code{\noBreak} forbids a line break at a point. @cindex regular line breaks @cindex four bar music. For line breaks at regular intervals use @code{\break} separated by skips and repeated with @code{\repeat}: @example << \repeat unfold 7 @{ s1 \noBreak s1 \noBreak s1 \noBreak s1 \break @} @emph{the real music} >> @end example @noindent This makes the following 28 measures (assuming 4/4 time) be broken every 4 measures, and only there. @refcommands @code{\break}, and @code{\noBreak}. @cindex @code{\break} @cindex @code{\noBreak} @seealso Internals: @internalsref{BreakEvent}. @node Page breaking @subsection Page breaking The default page breaking may be overriden by inserting @code{\pageBreak} or @code{\noPageBreak} commands. These commands are analogous to @code{\break} and @code{\noBreak}. They should be inserted at a bar line. These commands force and forbid a page-break from happening. Of course, the @code{\pageBreak} command also forces a line break. Page breaks are computed by the @code{page-breaking} function in the @code{\paper} block. To force a new page for a new piece (in a collection of pieces or a piece in several movements), use @code{breakbefore} in the header. @example \header@{ breakbefore = ##t @} @end example @refcommands @cindex @code{\pageBreak} @code{\pageBreak} @cindex @code{\noPageBreak} @code{\noPageBreak} @node Multiple movements @subsection Multiple movements @cindex bibliographic information @cindex titles @cindex composer @cindex Music engraiving by LilyPond A document may contain multiple pieces of music and texts. Examples of these are an etude book, or an orchestral part with multiple movements. Each movement is entered with a @code{\score} block, @example \score @{ @var{..music..} @} @end example and texts are entered with a @code{\markup} block, @example \markup @{ @var{..text..} @} @end example The movements and texts are combined together in a @code{\book} block, like @example \book @{ \score @{ @var{..} @} \markup @{ @var{..} @} \score @{ @var{..} @} @} @end example The header for each piece of music can be put inside the @code{\score} block. The @code{piece} name from the header will be printed before each movement. The title for the entire book can be put inside the @code{\book}, but if it is not present, the @code{\header} which is at the top of the file is inserted. @cindex Engraved by LilyPond @cindex signature line @example \book @{ \header @{ title = "Eight miniatures" composer = "Igor Stravinsky" @} \score @{ @dots{} \header @{ piece = "Romanze" @} @} \markup @{ ..text of second verse.. @} \markup @{ ..text of third verse.. @} \score @{ @dots{} \header @{ piece = "Menuetto" @} @} @} @end example @node Creating titles @subsection Creating titles Titles are created for each @code{\score} block, and over a @code{\book}. The contents of the titles are taken from the @code{\header} blocks. The header block for a book supports the following @table @code @item title The title of the music. Centered on top of the first page. @item subtitle Subtitle, centered below the title. @item subsubtitle Subsubtitle, centered below the subtitle. @item poet Name of the poet, flush-left below the subtitle. @item composer Name of the composer, flush-right below the subtitle. @item meter Meter string, flush-left below the poet. @item opus Name of the opus, flush-right below the composer. @item arranger Name of the arranger, flush-right below the opus. @item instrument Name of the instrument, centered below the arranger. @item dedication To whom the piece is dedicated. @item piece Name of the piece, flush-left below the instrument. @cindex page breaks, forcing @item breakbefore This forces the title to start on a new page (set to ##t or ##f). @end table Here is a demonstration of the fields available, @lilypond[quote,verbatim,linewidth=11.0\cm] \paper { linewidth = 9.0\cm vsize = 10.0\cm } \book { \header { title = "Title," subtitle = "the subtitle," subsubtitle = "and the sub sub title" poet = "Poet" composer = "Composer" texttranslator = "Text Translator" meter = "Meter" arranger = "Arranger" instrument = "Instrument" piece = "Piece" } \score { \header { piece = "piece1" opus = "opus1" } { c'1 } } \markup { and now... } \score { \header { piece = "piece2" opus = "opus2" } { c'1 } } } @end lilypond Different fonts may be selected for each element by using @code{\markup}, e.g., @example \header @{ title = \markup @{ \italic @{ The italic title @} @} @} @end example A more advanced option is to change the definitions of the following variables in the @code{\paper} block. The init file @file{ly/titling-init.ly} lists the default layout. @table @code @item bookTitleMarkup This is the title put over an entire @code{\book} block. Typically, it has the composer and the title of the piece @item scoreTitleMarkup This is the title put over a @code{\score} block within a @code{\book}. Typically, it has the name of the movement (@code{piece} field). @item oddHeaderMarkup This is the page header for odd-numbered pages. @item evenHeaderMarkup This is the page header for even-numbered pages. If unspecified, the odd header is used instead. By default, headers are defined such that the page number is on the outside edge, and the instrument is centered. @item oddFooterMarkup This is the page footer for odd-numbered pages. @item evenFooterMarkup This is the page footer for even-numbered pages. If unspecified, the odd header is used instead. By default, the footer has the copyright notice on the first, and the tagline on the last page. @end table @cindex \paper @cindex header @cindex footer @cindex page layout @cindex titles The following definition will put the title flush left, and the composer flush right on a single line. @verbatim \paper { bookTitleMarkup = \markup { \fill-line @{ \fromproperty #'header:title \fromproperty #'header:composer @} } } @end verbatim @node File structure @section File structure The major part of this manual is concerned with entering various forms of music in LilyPond. However, many music expressions are not valid input on their own, for example, a @code{.ly} file containing only a note @example c'4 @end example @noindent will result in a parsing error. Instead, music should be inside other expressions, which may be put in a file by themselves. Such expressions are called toplevel expressions. This section enumerates them all. A @code{.ly} file contains any number of toplevel expressions, where a toplevel expression is one of the following @itemize @bullet @item An output definition, such as @code{\paper}, @code{\midi}, and @code{\layout}. Such a definition at the toplevel changes the default settings for the block entered. @item A @code{\header} block. This sets the global header block. This is the block containing the definitions for book-wide settings, like composer, title, etc. @item An @code{\addquote} statement. See @ref{Quoting other voices} for more information. @item A @code{\score} block. This score will be collected with other toplevel scores, and combined as a single @code{\book}. This behavior can be changed by setting the variable @code{toplevel-score-handler} at toplevel. The default handler is defined in the init file @file{scm/@/lily@/.scm}. @item A @code{\book} block logically combines multiple movements (i.e., multiple @code{\score} blocks) in one document. A number of @code{\scores} creates a single output file, where all movement are concatenated. This behavior can be changed by setting the variable @code{toplevel-book-handler} at toplevel. The default handler is defined in the init file @file{scm/@/lily@/.scm}. @item A compound music expression, such as @example @{ c'4 d' e'2 @} @end example This will add the piece in a @code{\score} and format it in a single book together with all other toplevel @code{\score}s and music expressions. This behavior can be changed by setting the variable @code{toplevel-music-handler} at toplevel. The default handler is defined in the init file @file{scm/@/lily@/.scm}. @item A markup text, a verse for example @example \markup @{ 2. The first line verse two. @} @end example Markup texts are rendered above, between or below the scores or music expressions, wherever they appear. @item An indentifier, such as @example foo = @{ c4 d e d @} @end example This can be used later on in the file by entering @code{\foo}. The name of an identifier should have alphabetic characters only; no numbers, underscores or dashes. @end itemize The following example shows three things that may be entered at toplevel @example \layout @{ % movements are non-justified by default raggedright = ##t @} \header @{ title = "Do-re-mi" @} @{ c'4 d' e2 @} @end example At any point in a file, any of the following lexical instructions can be entered: @itemize @bullet @item @code{\version} @item @code{\include} @item @code{\renameinput} @end itemize @node Sound @section Sound @cindex Sound @cindex MIDI MIDI (Musical Instrument Digital Interface) is a standard for connecting and controlling digital instruments. A MIDI file is a series of notes in a number of tracks. It is not an actual sound file; you need special software to translate between the series of notes and actual sounds. Pieces of music can be converted to MIDI files, so you can listen to what was entered. This is convenient for checking the music; octaves that are off or accidentals that were mistyped stand out very much when listening to the MIDI output. @refbugs Many musically interesting effects, such as swing, articulation, slurring, etc., are not translated to midi. The midi output allocates a channel for each staff, and one for global settings. Therefore the midi file should not have more than 15 staves (or 14 if you do not use drums). Other staves will remain silent. Not all midi players correctly handle tempo changes in the midi output. Players that are known to work include @uref{http://@/timidity@/.sourceforge@/.net/,timidity}. @menu * Creating MIDI files:: * MIDI block:: * MIDI instrument names:: @end menu @node Creating MIDI files @subsection Creating MIDI files To create a MIDI from a music piece of music, add a @code{\midi} block to a score, for example, @example \score @{ @var{...music...} \midi @{ \tempo 4=72 @} @} @end example The tempo is specified using the @code{\tempo} command. In this example the tempo of quarter notes is set to 72 beats per minute. If there is a @code{\midi} command in a @code{\score}, only MIDI will be produced. When notation is needed too, a @code{\layout} block must be added @example \score @{ @var{...music...} \midi @{ \tempo 4=72 @} \layout @{ @} @} @end example @cindex layout block Ties, dynamics, and tempo changes are interpreted. Dynamic marks, crescendi and decrescendi translate into MIDI volume levels. Dynamic marks translate to a fixed fraction of the available MIDI volume range, crescendi and decrescendi make the volume vary linearly between their two extremes. The fractions can be adjusted by @code{dynamicAbsoluteVolumeFunction} in @internalsref{Voice} context. For each type of MIDI instrument, a volume range can be defined. This gives a basic equalizer control, which can enhance the quality of the MIDI output remarkably. The equalizer can be controlled by setting @code{instrumentEqualizer}. @node MIDI block @subsection MIDI block @cindex MIDI block The MIDI block is analogous to the layout block, but it is somewhat simpler. The @code{\midi} block can contain @cindex MIDI block @itemize @bullet @item a @code{\tempo} definition, and @item context definitions. @end itemize A number followed by a period is interpreted as a real number, so for setting the tempo for dotted notes, an extra space should be inserted, for example @example \midi @{ \tempo 4 . = 120 @} @end example @cindex context definition Context definitions follow precisely the same syntax as within the \layout block. Translation modules for sound are called performers. The contexts for MIDI output are defined in @file{ly/@/performer@/-init@/.ly}. @node MIDI instrument names @subsection MIDI instrument names @cindex instrument names @cindex @code{Staff.midiInstrument} The MIDI instrument name is set by the @code{Staff.midiInstrument} property. The instrument name should be chosen from the list in @ref{MIDI instruments}. @example \set Staff.midiInstrument = "glockenspiel" @var{...notes...} @end example If the selected instrument does not exactly match an instrument from the list of MIDI instruments, the Grand Piano (@code{"acoustic grand"}) instrument is used.