//**********************************************************************
// NOTE:
//
// This is a sample Mup input file. This file is intended to demonstrate
// lots of the features of Mup, including advanced features.
// In most cases, you'll probably only need to use a few basic features,
// so your input file will usually be a lot simpler.
//
//**********************************************************************
// header to go on first page
header
title (18) "Sample Song to Show What Mup Can Do"
title palatino ital (12) "This is a subtitle"
title "Text: Ann Onymous" "Tune: Arthur Unknown"
title "" "(1995)"
// header for subsequent pages
header2
title "Sample Songs" "This is the title" "page \% of \#"
// footer for first page
footer
// use a printing command other than "title" to show how others work
center nl "This is a sample of a Mup footer"
// leave a blank line
title (12) " "
title (11) "Published by Arkkra Enterprises" \
"http://www.arkkra.com"
// footer for subsequent pages
footer2
print nl "This is a sample remark at the bottom of the page"
// top/top2/bottom/bottom2 are like header/header2/footer/footer2 except
// they can be changed later; for example, you could use header/header2 for
// the whole song, but have a new top/top2 for each section of the song.
// to be printed right below the header on this page (the first page)
top
title (13) "First Movement"
// to be printed right below the header2 on later pages
top2
title "First movement"
// set some score-wide parameters
score
staffs = 9
key = c minor
time = 9/8
// beam things a dotted quarter at a time, and beam across rests
// have the main beams group together notes a dotted quarter at a
// time, but have subgroupings an 8th note at a time; also, beam
// across rests
beamstyle = (8,8,8), (8,8,8), (8,8,8) r
// put bracket to left of top 2 staffs, and bottom 2, with labels
bracket = 1-2 ("Choir", "Ch"), 7-8 ("Guitar", "Gtr")
// put brace on keyboard's staffs
brace = 5-6 ("keyboard", "Kbd")
// bar the staffs 5 and 6 together, and 7 and 8 together
barstyle = 5-6, 7-8
// put rehearsal marks in circles, instead of the default rectangles
rehstyle = circled
// make a little smaller than normal
scale = 0.77
// pack notes together
packexp = 0.7
packfact = 0.75
// set the margins, allowing choice depending on whether -DBIGMARGINS
// is used on the command line or not
ifdef BIGMARGINS
topmargin = 1.0
bottommargin = 1.1
leftmargin = 1
rightmargin = 1
else
topmargin = 0.8
bottommargin = 0.8
leftmargin = 0.7
rightmargin = 0.6
endif
// make sure chord marks are a ways away from staffs
chorddist = 4
// make sure other things are a ways away too
dist = 3
// spread scores and staffs apart more than normal
scoresep = 14, 24
scorepad = 5
staffsep = 14
staffpad = 2
// label endings above staffs that are grouped by brace or bracket
endingstyle = grouped
// use palatino fonts by default, in 14 point
fontfamily = palatino
font = rom
size = 14
// put lyrics in helvetica italics, 11 point
lyricsfontfamily = helvetica
lyricsfont = ital
lyricssize = 11
// for words printed by the "with" option, use these settings
withfontfamily = bookman
withfont = bold
withsize = 13
// print measure numbers at the beginning of each score
// in Helvetica italics
measnumfontfamily = helvetica
measnumfont = ital
measnumsize = 9
measnum = y
// When there are chords, print guitar grids with them. To put them
// at the end of the song we would use gridsatend. If we wanted
// to make them bigger or smaller, we could set "gridscale".
gridswhereused = y
// If the lowest fret used is 3 or more, use "N fr" notation instead
// of showing the whole guitar neck up to that point in the grid.
// The default value of this is 4, and it can be turned off.
gridfret = 3
//set some things for particular staffs
staff 2
clef = bass
staff 3
label = "foghorn\nin G\(smflat)"
staffscale = 0.8 // make this staff a little smaller
clef = baritone
transpose = down dim 5
// make staff 3 visible only when there is something on it
visible = whereused
// set different default octave
defoct = 4
staff 4
// make staff 4 a 1-line staff, with a "drum clef"
stafflines = 1 drum
staff 5
// Use three voices on staff 5. Allow the stems of the top and bottom
// voices (1 and 2) to float to whichever way is appropriate. (We
// could use 2o to force their stems to be in opposite directions.)
// Voice 3 is an extra voice, typically in the middle, whose stems can
// go either way.
vscheme = 3f
staff 6
clef = bass
// use dotted quarter for default time unit instead of
// the normal time signature denominator
timeunit = 4.
staff 7
vscheme = 2f
staff 8
// Make staff 8 a tablature staff for standard guitar. This
// automatically makes the preceding staff (7) a "tabnote" staff,
// meaning its notes will be derived from staff 8 automatically,
// unless overriden.
stafflines = tab
// make fret numbers more readable by putting a white background there
tabwhitebox = y
vscheme = 2f // allow two voices on this tab staff
staff 9
// On staff 9, use "shaped notes". Each scale degree uses a different
// shape of note head.
label = "Soprano"
noteheads = "isostri semicirc diam righttri norm rect pie"
// define a macro to allow saying "DRUM" instead of "4:" for the 4th staff
define DRUM 4: @
grids
// define grids to be printed with guitar chords
"Cm" "- (3 5 5 4 3)"
"G:9 7" "3 x o o o 5"
"Go7" "o 1 2 o 2 o"
"G" "3 x o o o 3"
// now do musical data
music
// put a tempo mark above staffs 1 and 6, and set MIDI tempo to 92
// quarter notes per minute
rom above 1,6 : 1 "Andante";
midi all: 0 "tempo = 92";
// set the instruments to use for MIDI
midi 1-2: 0 "channel=5"; 0 "program=52"; 0 "onvelocity=92";
midi 3: 0 "channel=6"; 0 "program=109"; 0 "onvelocity=61";
midi 4: 0 "channel=10"; // percussion channel
// set onvelocity to accent the top note
midi 5-6: 0 "channel=11"; 0 "program=1"; 0 "onvelocity=104,88";
midi 5 2: 0 "channel=11";
midi 7: 0 "channel=14"; 0 "program=25"; 0 "onvelocity=83";
// Note that lines of input within a given measure can be entered in any order.
// It is usually a good idea to enter music data a staff at a time from top
// to bottom, just to make it easy to keep track of, although Mup makes no
// such requirement. You may choose to intersperse other things like lyrics
// and phrase marks, or do them all at once before or after the music data,
// or in whatever order you choose.
// Also note that you can indent things any way you want in your Mup
// input file, and can put extra blank spaces almost anywhere
// except in the middle of a word.
// For MIDI purposes, the first two measures get played an extra time
// before the Coda, so put them inside a macro.
define FIRST2MEASURES
// staff 1, three dotted quarter notes, second chord same as the first
1 1: 4.ceg;;dfb;
// staff 2, dotted quarter, two eighths with a rest between, dotted quarter
// and start a phrase mark at the first chord
2: 4.c ph; 8c;r;e;4.f;
// two verses of lyrics between top two staffs
// use "|" to align the first syllables 8 points left of the notes' centers
lyrics between 1&2: 4.;;; "-8|These are the"; "-8|This is verse";
// a grace note and an accent on staff 3
3: [grace; slash 1]c#; [with >] 2.f#;4.r;
// measure rest for staff 4
DRUM mr;
// staff 5, voice 1, begins with duplet, also has a tied note
5 1: {4c+;g;}2,4.; 4.c+;4f+~;16;;
// second voice for staff 5
5 2: 2.c;4.d;
// third voice for staff 5 starts with a "space", nothing printed; force
// horizontal offsets (ho) on two of the notes to fine tune their spacing
5 3: 4.s; [ho 3.5]8e;f;g; [ho 3]an; 4;
// staff 6, some notes an octave or two away from the default octave
6: 4.c-c--;;d-d--;
// put piano pedal mark at the bottom
pedal below 6: 1;6;
// show the fret numbers on guitar strings on the tablature staff
8: 4. a3d1g0; 8 a3; e'3; a3; 4. d0g2b3e1;
// Print music theory analysis symbols at counts 1 and 7. The ":" makes the
// following space-separated items be stacked on top of each other.
rom analysis above 5: 1 "i"; 7 "VII:6 #5";
// print figured bass numbers below count 7; the slash goes through the "5"
rom figbass below 6: 7 "6 5/";
9: 4.c+; 8e+; c+; e+; 4.f+;
lyrics 9: 2.+4.; "ah_";
// ordinary bar line, with a reherasal letter
bar reh let
// next measure
1: 2.c+gc;4.r;
// end the phrase mark at the first chord
2: 2.ce eph;4.r;
// lyrics with an underscore
// This time, since the time values of the lyrics match those
// of the music, we'll let Mup derive the time values,
// rather than specifying them. Notice that we are chanting multiple
// syllables on the last word, so we show that they are to be treated
// as one syllable by separating them by a special \(space) character
// instead of simple space.
lyrics between 1&2: [1] "words!_"; [2] "two\(space)oh\(space)yes.";
// Include a note with a double flat. Also print a word "with" the rest,
// though it may be preferable to use a statement like this:
// bookman bold(13) above 3: 7 "inhale";
// to make it be a distance from the staff determined by the "dist" parameter.
3: 2.f&&; [with "inhale"]4.r;
// you can specify a pitch for a 1-line staff, even though all notes will be
// placed on the line. The pitch will be used for MIDI output, if you use
// the -m option to Mup to get a MIDI file instead of printed output.
DRUM 4.f&;2.r;
// because of the beamstyle setting, the 16th notes here are joined in pairs
// by both beams, but only one beam joins all six
5 1: 2.c++;4.r;
5 2: 8e;g;e; 16g;e;g;e;g;e; 4.r;
6: 2.c- alt 2;c;4.r;
pedal below 6: 1;6*;
// print 3 tremelo slashes on this chord
8: [slash 3] 2. d1g0b1e3; 4.r;
9: 2.e+; 4.r;
// at count 9.9 (almost the dblbar), back up 19 stepsizes and print this coda
// indication, including the actual coda symbol; do this in italics of font
// size 13 (but turn off the italics for the symbol), and above all the staffs
ital(13) all: 9.9[-19] "To coda \f(TR)\(coda)";
// double bar
dblbar
@ // end the macro definition of the first measures
// Now call the macro for the first measures
FIRST2MEASURES
// start a new score. Normally, Mup will place things
// as best it can, but you can force things if you like.
newscore
// now more music data
music
// set location tags on the two notes, then draw a wavy line between
// them saying that it is a glissando
1: 2.c =h; 4.g =k;
wavy line (h.e+3, h.y) to (k.w-3, k.y) with ital (11) "gliss."
2: 4.e; 8..; 32f;8g;4.c;
// The underscore after the lyric syllable causes Mup to draw a line an
// appropriate distance. The second time value is marked as a space ("s")
// because no syllable is given for it.
lyrics between 1&2: 2.; 4.s; "zoom_";
// a crescendo mark
< below 2: 3 til 7.5;
// trill the foghorn from count 1 to 7; put a "turn" symbol above the note
// at count 8. For MIDI, specify exactly how to play it.
ifndef MIDI
3: 2..d&; 4d;
mussym 3: 1 "tr" til 7; 8 "turn";
else
3: 16d&;e;d;e;d;e;d;e;d;e;d;e;d;e; {d;e;d;c;d;}5;
endif
4: [slash 2] 2.c; [with .]4.c-;
5: 4.ceg;;;
// a dynamic mark
times boldital between 5&6: 7 "ff";
// roll up on first chord, down on second, default (up) on third
roll up 5: 1;
roll down 5: 4;
roll 5: 7;
// the <> indicates a slur
6: 2.c e?;8e<>;4c;
// For the second note, "bend" the previous note up 1/2 step by stretching
// the E string. Then bend to a full step, and release back to normal.
8 1: 4.e5; e "1/2"; 8e "full"; 4e "";
// Put some notes in the second tab voice. These will be translated to the
// the second voice of the tabnote staff above.
8 2: 4.g0; 4; 8; 4.;
9: 8c+; b; an; g; c; d; 4.e;
// chord symbols will be transposed if the music is transposed.
// In this particular example, transposition is not in effect
bold chord above all: 1 "Cm";
bar ending "1."
// two measures of rest
multirest 2
repeatend ending "2."
// Define a smiley face symbol for later use.
symbol "Smiley"
bbox=-700, -700, 700, 700
postscript="gsave
100 setlinewidth
% the face
0 0 600 0 360 arc stroke
% the mouth
0 0 300 -160 -20 arc stroke
% the eyes
-200 200 100 0 360 arc fill
200 200 100 0 360 arc fill
grestore"
ystemoffset = 0, 0
staff 4
// From now on, staff 4 (the one-line staff) will have two voices with stems
// that are always opposing. Set it so that the notes will not be on the line
// but rather above and below it.
vscheme = 2o
ontheline = n
music
midi 4 2: 0 "channel=10";
// Define a macro with parameters for printing a chord name at a given count.
// Note that the chord name is passed in and then the ` ` cause it to be
// put in quotes.
define K(COUNT, NAME) bold chord all: COUNT `NAME`; @
// Define a "map" for chord-at-a-time input. (By "chord" here we mean a group
// of notes, not the symbolic chord name as above.) Since all the voices in
// the choir have the same rhythm from now on, it's convenient to use this
// method of input instead of the usual voice-at-a-time method. Set it up
// to enter bass and tenor on staff 2, then alto and soprano on staff 1.
define M [ 2; 2; 1; 1 ] @
K(1,Cm) // print a C minor chord at count 1
// assign all the notes for staffs 1 and 2, using the map. Each goes to its
// proper octave according to defoct.
M: 4.cgce; ceeg; cgce;
// Put phrase marks on each staff, from count 1 until count 7 of the next
// measure. We didn't specify "above" or "below", so Mup chooses the side.
phrase 1,2: 1 til 1m+7;
// Increase the size of the lyrics by 3 points. This will carry forward to
// the end of the song unless changed again. Also, use the non-ASCII
// character n-tilde, indicated by \(n~). If you can type non-ASCII characters
// directly on your keyboard, you can do that instead of using this notation.
lyrics between 1&2: "\s(+3)Ma-\(n~)a-na";
// put the last note's accidental in parentheses, since it is just a
// reminder to the player that this accidental is still in force
3: 4.an; b; a(n);
// Use X-shaped notes on the top voice. Use the "..." to show that this
// applies for the rest of this measure, not just the first chord.
4 1: [xnote]... 4.; ; 8;;;
4 2: 4.; ; ;
// Beam notes together across both staffs. Set a location tag (=h) on the
// first note, for later use.
5: 4.s bm with staff below; ; 8c; e; g ebm;
6: 8c- =h bm with staff above; e-; g-; c; e; g; 4.s ebm;
8: 2. a3 d5 g5 b4 e3; 4. tie;
// For the last two notes, override the head shape to be a slash, to
// indicate repeating the first part of the measure.
9: 8g; e; ; [hs "slash"]... 4.b; ;
bar endending
ital all: 1 "\[A special note, on\ntwo lines, in a box.\]";
1: 4.ce; eg; ;
lyrics between 1&2: "am gr\(o:)\(ss)t-en,"; // non-ACSII chars
2: 4.cg; ce; ;
// draw a measure repeat sign
3: mrpt;
// put a text string in an ellipse
ital 4: 1 "\{mute\}";
4 1: [xnote]... 4.; ; 8;;;
4 2: 2.; 4.;
6: 8 with e+c++ above; c+ with g+ above; g with e+ above; ec+; g; e; \
4.c =k; // set loc tag "k"
// draw a smiley face above staff 7 at count 7
rom above 7: 7 "\s(+5)\(Smiley)";
8: 4. a3 d5 g5 b4 e3; 2.;
9: mrpt;
bar
// Draw a curve, with endpoints based on the "=h" and "=k" location tags with
// vertical offsets of 11 and 8 stepsizes upwards. The curve bulges upwards
// 20 and 23 stepsizes 1/3 and 2/3 of the way through it.
medium curve (h.x, h.y + 11) to (k.x, k.y + 8) bulge 20, 23;
// print the chord G97, with the 9 above the 7
K(1,G:9 7)
ital(15) all: 9.9[-20] "D.C. al Coda";
// use a C double sharp (cx) and B natural
1: 4.cxbn; 2.;
lyrics between 1&2: "tr\(e`)s bien!"; // another non-ASCII character
2: 4.g-f; 2.;
4 1: 4.r; c; ; // the pitch is arbitrary except for MIDI on one-line
4 2: 4.; r; ;
5: 4.dfgbn; ; dfan;
// force first note stem to point upwards, which would by default have
// pointed down; change clef in the middle of the measure
6: [up] 4.d; c; <<staff clef = treble>> d+;
// The first note is a "prebend" (stretch the string before plucking). On the
// last note, do a slide upwards after it that doesn't end at any specific note.
8: 4. a10 "full" b8 "full"; 4. a10 "" b8 ""; [grace] 16 e0; 4.e1 <n/>;
9: 2.+4.g;
lyrics 9: "oo_";
dblbar
// For MIDI, insert the D.C. al Coda fragment
ifdef MIDI
FIRST2MEASURES
endif
// leave a gap and start all the staffs anew, showing clefs and key signatures
restart
staff 6
clef = bass // change the clef back to bass
// From here on, let's write the lyrics in Russian. Define and use a keymap,
// so that we can type single Roman letters in the lyrics instead of the
// character names. Actually we would do this for the whole alphabet,
// capital and small, but here we are defining only the letters that we
// will actually use.
keymap "cyrillic"
"e" "\(afii10070)"
"i" "\(afii10074)"
"k" "\(afii10076)"
"n" "\(afii10079)"
"o" "\(afii10080)"
"p" "\(afii10081)"
"s" "\(afii10083)"
"c" "\(afii10088)"
score
lyricskeymap = "cyrillic"
music
// override the "dist" parameter, and specify a minimum distance of 5 stepsizes
// from the staff for this coda sign
mussym(13) all dist 5: 0.5 "coda";
ital(15) all: 1 "Coda";
// at count 1 print G diminished 7 (the "o" is translated to a diminished
// symbol), and at count 7 print G
K(1,Go7)
K(7,G)
// Another duplet. If we put "n" after the first number it would prevent the
// bracket from being printed.
1: 2.d&g; { 4gbn; ; }2,4.;
lyrics between 1&2: "ko-nec pes-";
// Draw parentheses around the one D natural. Force this duplet's bracket to
// be below; this one would have defaulted to above.
2: 2.b&f&; { 4d-n(dn)g; dbn; } below 2,4.;
// Print both keyboard hands on its top staff, using two voices. Since the
// top notes are so high, set their stems to extend only 5 stepsizes instead
// of the usual 7 (octave). Slur and tie the notes, using dashed or dotted
// rather than solid curves.
5 1: [len 5]... 2.g++b++d&+++f&+++ dashed slur; 4.g++bn++d+++g+++;
5 2: 2.gg+ dotted tie; 4.;
// leave staff 6 unspecified, so that it will default to a space
8: [slash 1] 2. e'0 a1 d2 g0 b2 e0; 4. e'3 d0 g0 b0 e3;
9: 2.g; 4.bn;
lyrics 9: "At the";
bar
score
// set a time signature that combines two simple time signatures
time = 2/4 + 3/8
music
// use shorthand to enter the same data for two staffs at once
1,2: 2egc+ tie; 4.;
lyrics between 1&2: "ni";
4 1,2: mr; // measure rest on both voices of staff 4
5-6: 2c tie; 4.;
// mark notes an octave lower than normal
octave below 6: 1 "8va" til 7.5;
// put a fermata above staffs 1, 2, and 4 to 6
mussym above 1,2,4-6: 5 "ferm";
// for MIDI, slow the tempo, to produce the fermata
midi all: 3 "tempo=50";
8: 2 e20~; 4.;
9: 2+4.c+;
lyrics 9: "end.";
K(1,Cm)
endbar