% -*-Fundamental-*-
% feta-bolletjes.mf -- implement noteheads
%
% source file of LilyPond's pretty-but-neat music font
%
% (c) 1997--2009 Jan Nieuwenhuizen <janneke@gnu.org>
% & Han-Wen Nienhuys <hanwen@xs4all.nl>
% & Juergen Reuter <reuter@ipd.uka.de>
%
test_outlines := 0;
save remember_pic;
picture remember_pic;
% Most beautiful noteheads are pronounced, not circular,
% and not even symmetric.
% These examples are inspired by [Wanske]; see literature list.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% NOTE HEAD VARIABLES
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
save black_notehead_width, noteheight;
save half_notehead_width, whole_notehead_width, slash_thick;
save slash_slope, overdone_heads, solfa_noteheight;
numeric noteheight;
numeric slash_thick;
numeric black_notehead_width;
numeric whole_notehead_width;
numeric half_notehead_width;
fet_begingroup ("noteheads");
% Slope of slash. From scm/grob-description.scm. How to auto-copy?
slash_slope := 1.7;
% Thickness of slash lines. Quarter notes get 1.5slt width.
slash_thick# := 2/3 * 0.48 staff_space#;
%
% Hand-engraved music often has balls extending above and below
% the lines. If you like that, modify overdone heads (unit:
% stafflinethickness).
%
overdone_heads = 0.0;
noteheight# := staff_space# + (1 + overdone_heads) * stafflinethickness#;
%
% solfa heads should not overlap on chords.
%
solfa_noteheight# := staff_space# - stafflinethickness#;
define_pixels (slash_thick);
define_whole_vertical_pixels (noteheight);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% SLANT moves both extrema on the long axis (by SLANT * ELLIPTICITY,
% so SLANT = -1, puts the extreme on the long axis next to the short
% axis one).
%
def draw_outside_ellipse (expr ellipticity, tilt, superness, slant) =
save attachment_y;
save pat;
path pat;
pat := superellipse ((ellipticity, 0), (-slant * ellipticity, 1.0),
(-ellipticity, 0), (slant * ellipticity, -1.0),
superness);
pat := pat rotated tilt;
save top_point, right_point;
pair top_point, right_point;
top_point := directionpoint left of pat;
right_point := directionpoint up of pat;
save scaling, width;
scaling# = noteheight# / (2 ypart (top_point));
width# := 2 xpart (right_point) * scaling#;
define_pixels (scaling, width);
set_char_box (0, width#, noteheight# / 2, noteheight# / 2);
d := d - feta_space_shift;
% attachment Y
charwy := ypart (right_point) * scaling#;
charwx := width#;
pat := pat scaled scaling shifted (w / 2, .5 (h - d));
width := hround width;
if test_outlines = 1:
draw pat;
else:
fill pat;
fi;
enddef;
def undraw_inside_ellipse (expr ellipticity, tilt, superness, clearance) =
begingroup
save pat;
path pat;
pat := superellipse ((ellipticity, 0), (0, 1.0),
(-ellipticity, 0), (0, -1.0),
superness);
pat := pat rotated tilt;
save top_point, right_point;
pair top_point, right_point;
top_point := directionpoint left of pat;
right_point := directionpoint up of pat;
save height, scaling;
height# = staff_space# + stafflinethickness# - clearance;
scaling# = height# / (2 ypart (top_point));
define_pixels (scaling);
pat := pat scaled scaling shifted (w / 2, .5 (h - d));
if test_outlines = 1:
draw pat;
else:
unfill pat;
fi
endgroup;
enddef;
%
% dimensions aren't entirely right.
%
def draw_longa (expr up) =
save stemthick, fudge;
stemthick# = 2 stafflinethickness#;
define_whole_blacker_pixels (stemthick);
fudge = hround (blot_diameter / 2);
draw_outside_ellipse (1.80, 0, 0.707, 0);
undraw_inside_ellipse (1.30, 125, 0.68, 2 stafflinethickness#);
pickup pencircle scaled stemthick;
if up:
bot y1 = -d;
top y2 = h;
rt x1 - fudge = 0;
x1 = x2;
fudge + lft x3 = w;
x4 = x3;
top y4 = h + 3.0 staff_space;
y3 = y1;
else:
bot y1 = -d - 3.0 staff_space;
top y2 = h;
rt x1 - fudge = 0;
x1 = x2;
fudge + lft x3 = w;
x4 = x3;
y4 = y2;
bot y3 = -d;
fi;
draw_gridline (z1, z2, stemthick);
draw_gridline (z3, z4, stemthick);
labels (1, 2, 3, 4);
enddef;
fet_beginchar ("Longa notehead", "uM2");
draw_longa (true);
draw_staff (-2, 2, 0);
fet_endchar;
fet_beginchar ("Longa notehead", "dM2");
draw_longa (false);
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Longa notehead", "uM2");
draw_longa (true);
draw_staff (-2, 2, 0.5);
fet_endchar;
fet_beginchar ("Longa notehead", "dM2");
draw_longa (false);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
%
% dimensions aren't entirely right.
%
def draw_brevis =
save stemthick, fudge;
stemthick# = 2 stafflinethickness#;
define_whole_blacker_pixels (stemthick);
fudge = hround (blot_diameter / 2);
draw_outside_ellipse (1.80, 0, 0.707, 0);
undraw_inside_ellipse (1.30, 125, 0.68, 2 stafflinethickness#);
pickup pencircle scaled stemthick;
bot y1 = -d;
top y2 = h;
rt x1 - fudge = 0;
x1 = x2;
fudge + lft x3 = w;
x4 = x3;
y4 = y2;
y3 = y1;
draw_gridline (z1, z2, stemthick);
draw_gridline (z3, z4, stemthick);
enddef;
fet_beginchar ("Brevis notehead", "sM1");
draw_brevis;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Brevis notehead", "sM1");
draw_brevis;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Whole notehead", "s0");
draw_outside_ellipse (1.80 - puff_up_factor / 3.0, 0, 0.707, 0);
undraw_inside_ellipse (1.30, 125 - puff_up_factor * 10,
0.68, 2 stafflinethickness#);
whole_notehead_width# := charwd;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Whole notehead", "s0");
draw_outside_ellipse (1.80 - puff_up_factor / 3.0, 0,
0.707, 0);
undraw_inside_ellipse (1.30, 125 - puff_up_factor * 10,
0.68, 2 stafflinethickness#);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Half notehead", "s1");
draw_outside_ellipse (1.53 - puff_up_factor / 3.0, 34, 0.66, 0.17);
undraw_inside_ellipse (3.25, 33, 0.81, 2.5 stafflinethickness#);
half_notehead_width# := charwd;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Half notehead", "s1");
draw_outside_ellipse (1.53 - puff_up_factor / 3.0, 34,
0.66, 0.17);
undraw_inside_ellipse (3.25, 33, 0.81,
2.5 stafflinethickness#);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Quart notehead", "s2");
% used to have 32. With 31, they are slightly bolder.
draw_outside_ellipse (1.49 - puff_up_factor / 3.0, 31, 0.707, 0);
black_notehead_width# := charwd;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Quart notehead", "s2");
draw_outside_ellipse (1.49 - puff_up_factor / 3.0, 31,
0.707, 0);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
fet_beginchar ("Whole diamondhead", "s0diamond");
draw_outside_ellipse (1.80, 0, 0.495, 0);
undraw_inside_ellipse (1.30, 125, 0.6,
.4 staff_space# + stafflinethickness#);
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Whole diamondhead", "s0diamond");
draw_outside_ellipse (1.80, 0, 0.495, 0);
undraw_inside_ellipse (1.30, 125, 0.6,
.4 staff_space# + stafflinethickness#);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Half diamondhead", "s1diamond");
draw_outside_ellipse (1.50, 34, 0.49, 0.17);
undraw_inside_ellipse (3.5, 33, 0.80,
.3 staff_space# + 1.5 stafflinethickness#);
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Half diamondhead", "s1diamond");
draw_outside_ellipse (1.50, 34, 0.49, 0.17);
undraw_inside_ellipse (3.5, 33, 0.80,
.3 staff_space#
+ 1.5 stafflinethickness#);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Quart diamondhead", "s2diamond");
draw_outside_ellipse (1.80, 35, 0.495, -0.25);
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Quart diamondhead", "s2diamond");
draw_outside_ellipse (1.80, 35, 0.495, -0.25);
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
vardef penposx@# (expr d) =
begingroup;
save pat;
path pat;
pat = top z@#
.. lft z@#
.. bot z@#
.. rt z@#
.. cycle;
z@#l = pat intersectionpoint (z@# -- infinity * dir (d + 180));
z@#r = pat intersectionpoint (z@# -- infinity * dir (d));
endgroup
enddef;
%
% UGH: xs not declared as argument.
%
def define_triangle_shape (expr stemdir) =
save triangle_a, triangle_b, triangle_c;
save triangle_out_a, triangle_out_b, triangle_out_c;
save triangle_in, triangle_out;
save width, depth, height;
save origin, left_up_dir;
save exact_left_point, exact_right_point, exact_down_point;
path triangle_a, triangle_b, triangle_c;
path triangle_out_a, triangle_out_b, triangle_out_c;
path triangle_in, triangle_out;
pair origin, left_up_dir;
pair exact_down_point, exact_left_point, exact_right_point;
save pen_thick;
pen_thick# = stafflinethickness# + .1 staff_space#;
define_pixels (llap);
define_blacker_pixels (pen_thick);
left_up_dir = llap# * dir (90 + tilt);
xpart (left_up_dir) * xs - (pen_thick# * xs) / 2 + xpart origin = 0;
ypart origin = 0;
exact_left_point := origin + (left_up_dir xscaled xs);
exact_down_point := origin + (left_up_dir rotated 120 xscaled xs);
exact_right_point := origin + (left_up_dir rotated 240 xscaled xs);
height# = ypart (exact_left_point + origin) + pen_thick# / 2;
depth# = -ypart (exact_down_point + origin) + pen_thick# / 2;
width# = xpart (exact_right_point - exact_left_point)
+ pen_thick# * xs;
set_char_box (0, width#, depth#, height#);
% Formerly, the shape has simply been drawn with an elliptical pen
% (`scaled pen_thick xscaled xs'), but the envelope of such a curve
% is of 6th degree. For the sake of mf2pt1, we approximate it.
pickup pencircle scaled pen_thick xscaled xs;
z0 = (hround_pixels (xpart origin), 0);
z1 = z1' = z0 + llap * dir (90 + tilt) xscaled xs;
z2 = z2' = z0 + llap * dir (90 + tilt + 120) xscaled xs;
z3 = z3' = z0 + llap * dir (90 + tilt + 240) xscaled xs;
z12 = caveness [.5[z1, z2], z3];
z23 = caveness [.5[z2, z3], z1];
z31 = caveness [.5[z3, z1], z2];
triangle_a = z1 .. z12 .. z2;
triangle_b = z2 .. z23 .. z3;
triangle_c = z3 .. z31 .. z1;
penposx1 (angle (direction 0 of triangle_a) - 90);
penposx2 (angle (direction 0 of triangle_b) - 90);
penposx3 (angle (direction 0 of triangle_c) - 90);
penposx1' (angle (direction infinity of triangle_c) + 90);
penposx2' (angle (direction infinity of triangle_a) + 90);
penposx3' (angle (direction infinity of triangle_b) + 90);
penposx12 (angle (z12 - z0));
penposx23 (angle (z23 - z0));
penposx31 (angle (z31 - z0));
z10 = (z0 -- z1) intersectionpoint (z1l .. z12l .. z2'r);
z20 = (z0 -- z2) intersectionpoint (z2l .. z23l .. z3'r);
z30 = (z0 -- z3) intersectionpoint (z3l .. z31l .. z1'r);
triangle_in = z10
.. z12l
.. z20
& z20
.. z23l
.. z30
& z30
.. z31l
.. z10
& cycle;
triangle_out_a = z1r .. z12r .. z2'l;
triangle_out_b = z2r .. z23r .. z3'l;
triangle_out_c = z3r .. z31r .. z1'l;
triangle_out = top z1
.. lft z1
.. z1r{direction 0 of triangle_out_a}
& triangle_out_a
& {direction infinity of triangle_out_a}z2'l
.. lft z2
.. bot z2
.. z2r{direction 0 of triangle_out_b}
& triangle_out_b
& {direction infinity of triangle_out_b}z3'l
.. rt z3
.. top z3
.. z3r{direction 0 of triangle_out_c}
& triangle_out_c
& {direction infinity of triangle_out_c}z1'l
.. cycle;
labels (0, 10, 20, 30);
penlabels (1, 1', 2, 2', 3, 3', 12, 23, 31);
% attachment Y
if stemdir = 1:
charwy := ypart exact_right_point;
charwx := xpart exact_right_point + .5 pen_thick# * xs;
else:
charwy := -ypart exact_down_point;
charwx := width# - (xpart exact_down_point - .5 pen_thick# * xs);
fi
enddef;
def draw_whole_triangle_head =
save hei, xs;
save llap;
save tilt;
tilt = 40;
llap# = 3/4 noteheight#;
xs = 1.5;
caveness := 0.1;
define_triangle_shape (1);
fill triangle_out;
unfill triangle_in;
enddef;
fet_beginchar ("Whole trianglehead", "s0triangle");
draw_whole_triangle_head;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Whole trianglehead", "s0triangle");
draw_whole_triangle_head;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
def draw_small_triangle_head (expr dir) =
save hei, xs;
save llap;
save tilt;
tilt = 40;
llap# = 2/3 noteheight#;
xs = 1.2;
caveness := 0.1;
define_triangle_shape (dir);
pickup feta_fillpen;
filldraw triangle_out;
unfilldraw triangle_in;
enddef;
fet_beginchar ("Half trianglehead (downstem)", "d1triangle");
draw_small_triangle_head (-1);
draw_staff (-2, 2, 0);
fet_endchar;
fet_beginchar ("Half trianglehead (upstem)", "u1triangle");
draw_small_triangle_head (1);
draw_staff (-2, 2, 0.5);
fet_endchar;
def draw_closed_triangle_head (expr dir) =
save hei, xs;
save llap;
save tilt;
tilt = 40;
llap# = 2/3 noteheight#;
xs = 1.0;
caveness := 0.1;
define_triangle_shape (dir);
fill triangle_out;
enddef;
fet_beginchar ("Quart trianglehead (upstem)", "u2triangle");
draw_closed_triangle_head (1);
draw_staff (-2, 2, 0);
fet_endchar;
fet_beginchar ("Quart trianglehead (downstem)", "d2triangle");
draw_closed_triangle_head (-1);
draw_staff (-2, 2, 0.5);
fet_endchar;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Slash heads are for indicating improvisation. They are
% twice as high as normal heads.
%
def draw_slash (expr hwid_hash) =
save exact_height;
save ne, nw_dist;
pair ne, nw_dist;
exact_height = staff_space# + stafflinethickness# / 2;
set_char_box (0, 2 exact_height / slash_slope + hwid_hash,
exact_height, exact_height);
charwx := charwd;
charwy := charht;
clearxy;
d := d - feta_shift;
pickup pencircle scaled blot_diameter;
bot y1 = -d;
top y2 = h;
lft x1 = 0;
lft x2 = 2 h / slash_slope;
rt x3 = w;
y3 = y2;
y4 = y1;
x3 - x2 = x4 - x1;
ne = unitvector (z3 - z4);
nw_dist = (ne rotated 90) * 0.5 blot_diameter;
fill bot z1{left}
.. (z1 + nw_dist){ne}
-- (z2 + nw_dist){ne}
.. top z2{right}
-- top z3{right}
.. (z3 - nw_dist){-ne}
-- (z4 - nw_dist){-ne}
.. bot z4{left}
-- cycle;
if hwid_hash > 2 slash_thick#:
save th;
th = slash_thick - blot_diameter;
y6 = y7;
y5 = y8;
y3 - y7 = th;
y5 - y1 = th;
z6 - z5 = whatever * ne;
z8 - z7 = whatever * ne;
z5 = z1 + whatever * ne + th * (ne rotated -90);
z8 = z4 + whatever * ne + th * (ne rotated 90);
unfill z5
-- z6
-- z7
-- z8
-- cycle;
fi
labels (range 1 thru 10);
enddef;
fet_beginchar ("Whole slashhead", "s0slash");
draw_slash (4 slash_thick# + 0.5 staff_space#);
draw_staff (-2, 2, 0);
fet_endchar;
fet_beginchar ("Half slashhead", "s1slash");
draw_slash (3.0 slash_thick# + 0.15 staff_space#);
draw_staff (-2, 2, 0);
fet_endchar;
fet_beginchar ("Quart slashhead", "s2slash");
draw_slash (1.5 slash_thick#);
draw_staff (-2, 2, 0);
fet_endchar;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% `thick' is the distance between the NE/SW parallel lines in the cross
% (distance between centres of lines) in multiples of stafflinethickness
%
def draw_cross (expr thick) =
save ne, nw;
save ne_dist, nw_dist, rt_dist, up_dist;
save crz_in, crz_out;
save thickness;
pair ne, nw;
pair ne_dist, nw_dist, rt_dist, up_dist;
path crz_in, crz_out;
pen_thick# := 1.2 stafflinethickness#;
thickness# := thick * stafflinethickness#;
define_pixels (thickness);
define_blacker_pixels (pen_thick);
pickup pencircle scaled pen_thick;
h := h - feta_shift;
top y3 = h;
ne = unitvector ((1, (2 h - pen_thick) / (w - pen_thick)));
rt x4 = w / 2;
y5 = 0;
z4 - z5 = whatever * ne;
x6 = 0;
z6 - z3 = whatever * ne;
z3 - z4 = whatever * (ne yscaled -1);
z4 - z3 = whatever * (ne) + (ne rotated -90) * thickness;
x1 = charwd / 2 - .5 pen_thick#;
z1 = whatever * ne
+ thick / 2 * stafflinethickness# * (ne rotated -90);
% labels (1, 2, 3, 4, 5, 6);
nw = unitvector (z3 - z4);
up_dist = up * 0.5 pen_thick / cosd (angle (ne));
rt_dist = right * 0.5 pen_thick / sind (angle (ne));
nw_dist = (ne rotated 90) * 0.5 pen_thick;
ne_dist = (nw rotated -90) * 0.5 pen_thick;
x4' := x4;
x5' := x5;
y6' := y6;
x4 := hround (x4' + .5 pen_thick) - .5 pen_thick;
x5 := hfloor (x5' + xpart rt_dist) - xpart rt_dist;
y6 := vfloor (y6' + ypart up_dist) - ypart up_dist;
crz_out = (z6 + up_dist)
-- (z3 + nw_dist){ne}
.. (top z3)
.. (z3 + ne_dist){-nw}
-- (z4 + ne_dist){-nw}
.. (rt z4)
.. (z4 - nw_dist){-ne}
-- (z5 + rt_dist);
crz_out := crz_out shifted (0, feta_shift)
-- reverse crz_out yscaled -1 shifted (0, -feta_eps);
fill crz_out
-- reverse crz_out xscaled -1 shifted (-feta_eps, 0)
-- cycle;
if (thick > 1):
x4 := hround (x4' - xpart rt_dist) + xpart rt_dist;
x5 := hceiling (x5' - .5 pen_thick) + .5 pen_thick;
y6 := vfloor (y6' - .5 pen_thick) + .5 pen_thick;
crz_in = (bot z6){right}
.. (z6 - nw_dist){ne}
-- (z3 - up_dist)
-- (z4 - rt_dist)
-- (z5 + nw_dist){-ne}
.. {down}(lft z5);
crz_in := crz_in shifted (0, feta_shift)
-- reverse crz_in yscaled -1 shifted (0, -feta_eps);
unfill crz_in
-- reverse crz_in xscaled -1 shifted (-feta_eps, 0)
-- cycle;
fi
% ugh
currentpicture := currentpicture shifted (hround (w / 2), 0);
charwx := charwd;
charwy := y1 + feta_shift;
z12 = (charwx * hppp, y1 * vppp);
labels (12);
enddef;
fet_beginchar ("Whole Crossed notehead", "s0cross");
save wid, hei;
wid# := black_notehead_width# + 4 stafflinethickness#;
hei# := noteheight# + stafflinethickness#;
set_char_box (0, wid#, hei# / 2, hei# / 2);
draw_cross (3.75);
remember_pic := currentpicture;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Whole Crossed notehead", "s0cross");
save wid, hei;
wid# := black_notehead_width# + 4 stafflinethickness#;
hei# := noteheight# + stafflinethickness#;
set_char_box (0, wid#, hei# / 2, hei# / 2);
currentpicture := remember_pic;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Half Crossed notehead", "s1cross");
save wid, hei;
wid# := black_notehead_width# + 2 stafflinethickness#;
hei# := noteheight# + stafflinethickness# / 2;
set_char_box (0, wid#, hei# / 2, hei# / 2);
draw_cross (3.0);
remember_pic := currentpicture;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Half Crossed notehead", "s1cross");
save wid, hei;
wid# := black_notehead_width# + 2 stafflinethickness#;
hei# := noteheight# + stafflinethickness# / 2;
set_char_box (0, wid#, hei# / 2, hei# / 2);
currentpicture := remember_pic;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("Crossed notehead", "s2cross");
wid# := black_notehead_width#;
hei# := noteheight#;
set_char_box (0, wid#, hei# / 2, hei# / 2);
draw_cross (1.0);
remember_pic := currentpicture;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("Crossed notehead", "s2cross");
wid# := black_notehead_width#;
hei# := noteheight#;
set_char_box (0, wid#, hei# / 2, hei# / 2);
currentpicture := remember_pic;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
fet_beginchar ("X-Circled notehead", "s2xcircle");
save wid, hei;
save cthick, cxd, cyd, dy;
wid# := black_notehead_width# * sqrt (sqrt2);
hei# := noteheight# * sqrt (sqrt2);
set_char_box (0, wid#, hei# / 2, hei# / 2);
d := d - feta_space_shift;
cthick# := (1.2 + 1/4) * stafflinethickness#;
define_blacker_pixels (cthick);
cxd := w - cthick;
cyd := h + d - cthick / 2;
dy = .5 (h - d);
pickup pencircle scaled cthick;
fill fullcircle xscaled (cxd + cthick)
yscaled (cyd + cthick)
shifted (w / 2, dy);
unfill fullcircle xscaled (cxd - cthick)
yscaled (cyd - cthick)
shifted (w / 2, dy);
xpos := .5 cxd / sqrt2;
ypos := .5 cyd / sqrt2;
pickup penrazor scaled cthick rotated (angle (xpos, ypos) + 90);
draw (-xpos + w / 2, -ypos + dy) -- (xpos + w / 2, ypos + dy);
pickup penrazor scaled cthick rotated (angle (xpos, -ypos) + 90);
draw (-xpos + w / 2, ypos + dy) -- (xpos + w / 2, -ypos + dy);
charwx := charwd;
charwy := 0;
z12 = (charwx * hppp, charwy * vppp);
labels (12);
remember_pic := currentpicture;
draw_staff (-2, 2, 0);
fet_endchar;
if test > 0:
fet_beginchar ("X-Circled notehead", "s2xcircle");
save wid, hei;
save cthick, cxr, cyr;
wid# := black_notehead_width# * sqrt (sqrt2);
hei# := noteheight# * sqrt (sqrt2);
set_char_box (0, wid#, hei# / 2, hei# / 2);
currentpicture := remember_pic;
draw_staff (-2, 2, 0.5);
fet_endchar;
fi;
%%%%%%%%
%
% SOLFA SHAPED NOTES
%
save solfa_pen_thick;
solfa_pen_thick# = 1.75 stafflinethickness#;
define_blacker_pixels (solfa_pen_thick);
save solfa_base_notewidth;
solfa_base_notewidth# := black_notehead_width#;
solfa_whole_width := whole_notehead_width# / black_notehead_width#;
solfa_half_width := half_notehead_width# / black_notehead_width#;
solfa_quarter_width := 1.0;
def draw_do_head (expr width_factor, dir) =
save p_in, p_out;
save left_dist, right_dist;
path p_in, p_out;
pair left_dist, right_dist;
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
pickup pencircle scaled solfa_pen_thick;
bot y1 = -d;
y1 = y2;
lft x1 = 0;
rt x2 = w;
top y3 = h;
x3 =.5 [x1, x2];
left_dist = (unitvector (z3 - z1) rotated 90) * 0.5 solfa_pen_thick;
right_dist = (unitvector (z2 - z3) rotated 90) * 0.5 solfa_pen_thick;
p_in := (((z1 - left_dist) -- (z3 - left_dist)) intersectionpoint
(top z1 -- top z2))
-- ((top z1 -- top z2) intersectionpoint
((z2 - right_dist) -- (z3 - right_dist)))
-- (((z2 - right_dist) -- (z3 - right_dist)) intersectionpoint
((z1 - left_dist) -- (z3 - left_dist)))
-- cycle;
p_out := bot z1
-- bot z2{right}
.. rt z2{up}
.. (z2 + right_dist){z3 - z2}
-- (z3 + right_dist){z3 - z2}
.. top z3{left}
.. (z3 + left_dist){z1 - z3}
-- (z1 + left_dist){z1 - z3}
.. lft z1{down}
.. {right}cycle;
labels (1, 2, 3);
charwx := charwd;
charwy := -chardp + 0.5 stafflinethickness#;
if dir = -1:
charwy := -charwy;
fi;
enddef;
fet_beginchar ("Whole dohead", "s0do");
draw_do_head (solfa_whole_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half dohead", "d1do");
draw_do_head (solfa_half_width, -1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half dohead", "u1do");
draw_do_head (solfa_half_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Quart dohead", "d2do");
draw_do_head (solfa_quarter_width, -1);
fill p_out;
fet_endchar;
fet_beginchar ("Quart dohead", "u2do");
draw_do_head (solfa_quarter_width, 1);
fill p_out;
fet_endchar;
%
% re - flat top, curved bottom:
% (0,h/2) {dir -90} .. (w/2,-h/2) .. {dir 90} (w,h/2) -- cycle;
% (broader along the base and with more vertical sides for half and
% whole notes)
% stem attachment: h/2
%
def draw_re_head (expr width_factor, dir) =
save p_in, p_out;
path p_in, p_out;
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
pickup pencircle scaled solfa_pen_thick;
save curve_start;
curve_start = 0.7;
lft x1 = 0;
y1 = y5;
x1 = x2;
y2 = curve_start [y3, y1];
bot y3 = -d;
x3 = .5 [x2, x4];
rt x4 = w;
y4 = y2;
top y5 = h;
x5 = x4;
labels (range 1 thru 5);
p_in := (z1 + 0.5 solfa_pen_thick * (1, -1))
-- rt z2{down}
.. top z3
.. lft z4{up}
-- (z5 + 0.5 solfa_pen_thick * (-1, -1))
-- cycle;
p_out := lft z1
-- lft z2{down}
.. bot z3
.. rt z4{up}
-- rt z5{up}
.. top z5{left}
-- top z1{left}
.. {down}cycle;
charwx := charwd;
charwy := curve_start [-chardp, charht];
if dir = -1:
charwy := -charwy;
fi;
enddef;
fet_beginchar ("Whole rehead", "s0re");
draw_re_head (solfa_whole_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half up rehead", "u1re");
draw_re_head (solfa_half_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half down rehead", "d1re");
draw_re_head (solfa_half_width, -1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Quart rehead", "u2re");
draw_re_head (solfa_quarter_width, 1);
fill p_out;
fet_endchar;
fet_beginchar ("Quart rehead", "d2re");
draw_re_head (solfa_quarter_width, -1);
fill p_out;
fet_endchar;
def draw_mi_head (expr width_factor) =
save path_out, path_in;
save ne_dist, se_dist, ne, se;
path path_out, path_in;
pair ne_dist, se_dist, ne, se;
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
pickup pencircle scaled solfa_pen_thick;
lft x1 = 0;
y1 = 0;
bot y2 = -d;
x2 = .5 [x1, x3];
rt x3 = w;
x4 = x2;
y3 = y1;
top y4 = h;
z6 - z5 = whatever * (z2 - z1);
z8 - z7 = whatever * (z2 - z1);
z8 - z5 = whatever * (z4 - z1);
z6 - z7 = whatever * (z4 - z1);
ne = unitvector (z4 - z1);
se = unitvector (z1 - z2);
ne_dist = (ne rotated 90) * 0.5 solfa_pen_thick;
se_dist = (se rotated 90) * 0.5 solfa_pen_thick;
z5 = whatever [z1, z4] - ne_dist;
z5 = whatever [z1, z2] - 1.5 se_dist;
z5 - z1 = -(z7 - z3);
labels (range 1 thru 8);
path_in := z5
-- z6
-- z7
-- z8
-- cycle;
path_out := lft z1
.. (z1 + se_dist){-se}
-- (z2 + se_dist){-se}
.. bot z2
.. (z2 - ne_dist){ne}
-- (z3 - ne_dist){ne}
.. rt z3
.. (z3 - se_dist){se}
-- (z4 - se_dist){se}
.. top z4
.. (z4 + ne_dist){-ne}
-- (z1 + ne_dist){-ne}
.. cycle;
enddef;
fet_beginchar ("Whole mihead", "s0mi");
draw_mi_head (solfa_whole_width);
fill path_out;
unfill path_in;
fet_endchar;
fet_beginchar ("Half mihead", "s1mi");
draw_mi_head (solfa_quarter_width);
fill path_out;
unfill path_in;
fet_endchar;
fet_beginchar ("Quart mihead", "s2mi");
draw_mi_head (solfa_quarter_width);
fill path_out;
fet_endchar;
def draw_fa_head (expr width_factor) =
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
save p_down_in, p_down_out, p_up_in, p_up_out, nw_dist, nw;
path p_down_in, p_down_out, p_up_in, p_up_out;
pair nw_dist, nw;
pickup pencircle scaled solfa_pen_thick;
lft x1 = 0;
top y1 = h;
rt x2 = w;
y2 = y1;
bot y3 = -d;
x3 = x2;
y4 = y3;
x4 = x1;
labels (1, 2, 3, 4);
nw = unitvector (z1 - z3);
nw_dist = (nw rotated 90) * 0.5 solfa_pen_thick;
p_up_in := (((z1 - nw_dist) -- (z3 - nw_dist)) intersectionpoint
(bot z1 -- bot z2))
-- (((z1 - nw_dist) -- (z3 - nw_dist)) intersectionpoint
(lft z3 -- lft z2))
-- (z2 + 0.5 solfa_pen_thick * (-1, -1))
-- cycle;
p_up_out := lft z1{down}
.. (z1 + nw_dist){-nw}
-- (z3 + nw_dist){-nw}
.. bot z3{right}
.. rt z3{up}
-- rt z2{up}
.. top z2{left}
-- top z1{left}
.. {down}cycle;
p_down_in := p_up_in rotated 180 shifted (w, 0);
p_down_out := p_up_out rotated 180 shifted (w, 0);
charwy := 0.0;
charwx := charwd;
enddef;
fet_beginchar ("Whole fa up head", "u0fa");
draw_fa_head (solfa_whole_width);
fill p_up_out;
unfill p_up_in;
fet_endchar;
fet_beginchar ("Whole fa down head", "d0fa");
draw_fa_head (solfa_whole_width);
fill p_down_out;
unfill p_down_in;
fet_endchar;
fet_beginchar ("half fa up head", "u1fa");
draw_fa_head (solfa_half_width);
fill p_up_out;
unfill p_up_in;
fet_endchar;
fet_beginchar ("Half fa down head", "d1fa");
draw_fa_head (solfa_half_width);
fill p_down_out;
unfill p_down_in;
fet_endchar;
fet_beginchar ("Quarter fa up head", "u2fa");
draw_fa_head (solfa_quarter_width);
fill p_up_out;
fet_endchar;
fet_beginchar ("Quarter fa down head", "d2fa");
draw_fa_head (solfa_quarter_width);
fill p_down_out;
fet_endchar;
def draw_la_head (expr width_factor) =
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
save p_in, p_out;
path p_in, p_out;
pickup pencircle scaled solfa_pen_thick;
lft x1 = 0;
top y1 = h;
rt x2 = w;
y2 = y1;
bot y3 = -d;
x3 = x2;
y4 = y3;
x4 = x1;
labels (range 1 thru 4);
p_in := (z1 + 0.5 solfa_pen_thick * (1, -1))
-- (z2 + 0.5 solfa_pen_thick * (-1, -1))
-- (z3 + 0.5 solfa_pen_thick * (-1, 1))
-- (z4 + 0.5 solfa_pen_thick * (1, 1))
-- cycle;
p_out := top z1
-- top z2{right}
.. rt z2{down}
-- rt z3{down}
.. bot z3{left}
-- bot z4{left}
.. lft z4{up}
-- lft z1{up}
.. cycle;
enddef;
fet_beginchar ("Whole lahead", "s0la");
draw_la_head (solfa_whole_width);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half lahead", "s1la");
draw_la_head (solfa_half_width);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Quart lahead", "s2la");
draw_la_head (solfa_quarter_width);
fill p_out;
fet_endchar;
def draw_ti_head (expr width_factor, dir) =
set_char_box (0, width_factor * solfa_base_notewidth#,
0.5 solfa_noteheight#, 0.5 solfa_noteheight#);
save p_in, p_out, p_top;
save nw_dist, sw_dist, nw, sw;
path p_in, p_out, p_top;
pair nw_dist, sw_dist, nw, sw;
save cone_height;
cone_height = 0.64;
pickup pencircle scaled solfa_pen_thick;
x1 = .5 [x2, x4];
bot y1 = -d;
lft x2 = 0;
y2 = cone_height [y1, y3];
rt x4 = w;
y4 = y2;
x3 = x1;
top y3 = h;
labels (range 1 thru 4);
nw = unitvector (z2 - z1);
sw = unitvector (z1 - z4);
nw_dist = (nw rotated 90) * 0.5 solfa_pen_thick;
sw_dist = (sw rotated 90) * 0.5 solfa_pen_thick;
p_top := (z2 - sw_dist)
.. (top z3){right}
.. (z4 - nw_dist);
p_in := (((z1 - nw_dist) -- (z2 - nw_dist)) intersectionpoint
((z1 - sw_dist) -- (z4 - sw_dist)))
-- (((z1 - nw_dist) -- (z2 - nw_dist)) intersectionpoint
((z2 + sw_dist) .. {right}(bot z3)))
.. bot z3
.. (((bot z3){right} .. (z4 + nw_dist)) intersectionpoint
((z1 - sw_dist) -- (z4 - sw_dist)))
-- cycle;
p_out := bot z1
.. (z1 + nw_dist)
-- (z2 + nw_dist)
.. lft z2
.. (z2 - sw_dist){direction 0 of p_top}
& p_top
& {direction infinity of p_top}(z4 - nw_dist)
.. rt z4
.. (z4 + sw_dist)
-- (z1 + sw_dist)
.. cycle;
charwx := charwd;
charwy := cone_height [-chardp, charht];
if dir = -1:
charwy := -charwy;
fi;
enddef;
fet_beginchar ("Whole up tihead", "s0ti");
draw_ti_head (solfa_whole_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half up tihead", "u1ti");
draw_ti_head (solfa_half_width, 1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Half down tihead", "d1ti");
draw_ti_head (solfa_half_width, -1);
fill p_out;
unfill p_in;
fet_endchar;
fet_beginchar ("Quart up tihead", "u2ti");
draw_ti_head (solfa_quarter_width, 1);
fill p_out;
fet_endchar;
fet_beginchar ("Quart down tihead", "d2ti");
draw_ti_head (solfa_quarter_width, -1);
fill p_out;
fet_endchar;
fet_endgroup ("noteheads");
%
% we derive black_notehead_width# from the quarter head,
% so we have to define black_notehead_width (pixel qty)
% after the black_notehead_width# itself.
%
% Let's keep it outside the group as well.
%
define_pixels (black_notehead_width);