%
% source file of the Feta (not the Font-En-Tja) music font
%
-% (c) 1997--2004 Han-Wen Nienhuys <hanwen@cs.uu.nl>,
+% (c) 1997--2009 Han-Wen Nienhuys <hanwen@xs4all.nl>,
% Jan Nieuwenhuizen <janneke@gnu.org>,
% Juergen Reuter <reuter@ipd.uka.de>
fet_begingroup ("clefs");
-test_staff := 0;
-
-
+%
% [Wanske] says the bulbs should be positioned about 1/4 right of the
-% "arrow".
-
+% `arrow'.
%
-% TODO: the hair-curve at z6r looks a little awkward.
+% TODO: The hair-curve at z6r looks a little awkward.
%
def draw_c_clef (expr reduction) =
norm# := 2/3 reduced_ss#;
hair# := 0.06 reduced_ss# + 0.5 linethickness#;
right_edge# = 15/4 norm# + 2 hair#;
- define_pixels (hair, norm, reduced_ss, right_edge);
+ define_pixels (norm, reduced_ss, right_edge);
+ define_whole_vertical_blacker_pixels (hair);
+
+ set_char_box (0, right_edge#, 2 reduced_ss#, 2 reduced_ss#);
+
+ % make unreduced glyph fit exactly into five staff lines
+ if reduction = 1:
+ h := d := 2 staff_space_rounded;
+ fi;
+
+ % assure that the gap between the left and right stem
+ % has the same number of pixels as the thickness of the right
+ % stem
+ draw_block ((0, -d + feta_shift),
+ (3/4 norm + 1/2 hair, h));
+ draw_block ((3/4 norm + 1/2 hair + hround (3/2 hair), -d + feta_shift),
+ (3/4 norm + 1/2 hair + 2 hround (3/2 hair), h));
- set_char_box (0, right_edge# + 0,
- 2 reduced_ss#, 2 reduced_ss#);
+ % assure symmetry
+ h := h - feta_shift;
- draw_block ((0, -d), (3/4 norm + 1/2 hair, h));
- draw_block ((3/4 norm + 2 hair, -d), (3/4 norm + 7/2 hair, h));
+ pickup feta_fillpen;
- xoff = 3/4 norm + 7/2 hair;
+ xoff = 3/4 norm + 1/2 hair + 2 hround (3/2 hair);
z5l = (xoff - 3/4 hair, 0);
z5r = (x4, 0);
- penpos1 (hair, -90);
- z1l = (xoff + norm + hair, h);
+ penpos1 (hair - pen_top - pen_bot, -90);
+ top z1l = (xoff + norm + hair, h);
- penpos2 (norm - 3/2 hair, 180);
- z2l = (right_edge, h / 2);
+ penpos2 (hround (norm - 3/2 hair) - pen_lft - pen_rt, 180);
+ rt z2l = (w, h / 2);
- penpos3 (hair, 90);
- z3 = ((right_edge - xoff) / 2 + xoff, 2 hair);
+ penpos3 (hair - pen_top - pen_bot, 90);
+ bot z3l = ((right_edge - xoff) / 2 + xoff,
+ vround (.5 norm - 1.5 hair));
- penpos4 (hair, 0);
- z4 = (xoff + 1/2 norm + 1/2 hair,
- reduced_ss - linethickness - .2 hair);
+ penpos4 (hair - pen_lft - pen_rt, 0);
+ top z4 = (xoff + 1/2 norm + 1/2 hair,
+ vfloor (reduced_ss - linethickness - .2 hair));
- penpos6 (norm - hair, 90);
- z6 = (xoff + 3/4 norm, 0);
+ bot z6 = (xoff + 3/4 norm, vround (.5 norm - .5 hair));
save t;
t = 0.833;
- save p;
- path p;
-
- pickup pencircle scaled 1pt#;
-
- p = z5l{curl 1}
- .. z4l{up}
- .. z4r{down}
- .. z3r{right}
- ..tension t.. z2r{up}
- ..tension t.. flare_path (z1l, 180, 90, hair, norm - 1/2 hair, -1)
- ..tension t.. z2l{down}
- .. z3l{left}
- .. z6r
- .. z5r{down};
-
- % mf2pt1 replaces `filldraw' with `fill' -- since we use fontforge
- % for postprocessing and hinting, we don't have to care for a
- % minimum width of the contour.
- filldraw p
- & reverse p yscaled -1
- & cycle;
+ save pat;
+ path pat;
+
+ pat = z5l{curl 1}
+ .. z4l{up}
+ .. z4r{down}
+ .. z3r{right}
+ ..tension t.. z2r{up}
+ ..tension t.. flare_path (top z1l, 180, 90,
+ hair, hfloor (norm - 1/2 hair), -1)
+ ..tension t.. z2l{down}
+ .. z3l{left}
+ .. z6
+ .. z5r{down};
+
+ filldraw pat shifted (0, feta_shift)
+ -- reverse pat yscaled -1 shifted (0, -feta_eps)
+ -- cycle;
penlabels (1, 2, 3, 4, 5, 6);
% ugh, should be bulb, not flare?
-enddef;
+ draw_staff (-2, 2, 0);
+enddef;
-fet_beginchar ("C clef", "C")
- if test_staff = 1:
- draw_staff (-2,2, 0.0);
- fi;
+fet_beginchar ("C clef", "C");
draw_c_clef (1.0);
fet_endchar;
-fet_beginchar ("C clef", "C_change")
- if test_staff = 1:
- draw_staff (-2,2, 0.0);
- fi;
-
+fet_beginchar ("C clef", "C_change");
draw_c_clef (.8);
fet_endchar;
big_radius, bulb_radius, flare,
direction, turning_dir) =
begingroup;
- save p, before, after;
+ save pat, before, after;
save center;
save u, v;
- path p, before, after;
+ path pat, before, after;
pair center;
clearxy;
center = outer_tangent_point
- + big_radius * dir (0)
- + big_radius * dir (-turning_dir * 90)
- - bulb_radius * dir (-turning_dir * 90);
+ + big_radius * dir (0);
+% + (big_radius - bulb_radius) * dir (-turning_dir * 90)
z1' = center + bulb_radius * dir (turning_dir * 180);
z2' = outer_tangent_point + flare * dir (0);
z3' = center + bulb_radius * dir (0);
z4' = center + bulb_radius * dir (turning_dir * 90);
+ z5' = center - 0.5 [big_radius, bulb_radius] * dir (turning_dir * 90);
- labels (1', 2', 3', 4');
+ labels (1', 2', 3', 4', 5');
before := z3'{dir (turning_dir * 90)}
- .. z4'
- ..tension 1.1.. z1';
+ .. z4'{-dir (0)}
+ ..tension 1.1.. z1'{-dir (turning_dir* 90)};
after := z2'{dir (turning_dir * 90)}
.. end_point{dir (end_angle)};
(u, v) = before intersectiontimes after;
- p := start_point{dir (start_angle)}
- .. outer_tangent_point{dir (-turning_dir * 90)}
- ..tension 0.97.. subpath (0, u) of before
- .. subpath (v, infinity) of after;
+ pat := start_point{dir (start_angle)}
+ .. outer_tangent_point{dir (-turning_dir * 90)}
+ ..tension 1.02.. z5'{dir (0)}
+ .. subpath (0, u) of before
+ .. subpath (v, infinity) of after;
if direction = 0:
- p := reverse p'
+ pat := reverse pat;
fi
-p
+pat
endgroup
enddef;
-%
%
% There is some variation in the shape of bass clefs.
%
def draw_bass_clef (expr exact_center, reduction) =
save reduced_ss, swoosh_width;
- save right_thickness, tip_protude;
- save dot_diam, bulb_y_offset, overshoot_top;
- pair tip_protude;
+ save right_thickness, right_offset, tip_protrude;
+ save dot_diam, bulb_y_offset, bulb_flare;
+ pair tip_protrude;
reduced_ss# = staff_space# * reduction;
-
- 2.2 dot_diam = round reduction * (staff_space - stafflinethickness);
- right_thickness = 0.37 staff_space + 1.2 linethickness;
+ 2.2 dot_diam# = reduction * (staff_space# - stafflinethickness#);
+ right_thickness# = 0.37 staff_space# + 1.2 linethickness#;
swoosh_width# = 2.1 reduced_ss#;
-% tip_protude := (-linethickness, -.2 staff_space);
- tip_protude := (0, 0);
- bulb_y_offset := 0.15 staff_space;
- overshoot_top := 0.0;
-
define_pixels (swoosh_width);
define_whole_pixels (reduced_ss);
+ define_whole_blacker_pixels (dot_diam, right_thickness);
+
+ right_offset = 0.05 staff_space;
+ bulb_y_offset := 0.075 staff_space;
+ bulb_flare := 2.5 linethickness;
+% tip_protrude := (-linethickness, -.2 staff_space);
+ tip_protrude := (0, 0);
set_char_box (-xpart exact_center,
xpart exact_center + swoosh_width# + 7/12 reduced_ss#,
x2 = .5 [x1, x3];
x2l = x2r = x2;
- y2l := vround_pixels (reduced_ss# + 0.5 linethickness#);
- y2l - y2r = (1.0 + overshoot_top) * linethickness;
+ y2l := vround_pixels (reduced_ss# + 0.5 linethickness#);
+ y2l - y2r = linethickness;
x3l - x1 = swoosh_width;
x3l - x3r = right_thickness;
% optical correction: the top dot seems farther away if y3l = 0.
- y3l = 0.05 staff_space;
+ y3l = right_offset;
- z4 = -(0, 2.0 reduced_ss) + tip_protude;
- z5 = (x3l + 1/3 reduced_ss, .5 reduced_ss);
+ z4 = -(0, 2.0 reduced_ss) + tip_protrude;
penpos3 (whatever, 185);
penpos4 (linethickness, 135);
fill new_bulb (z2l, 180, z1, z2r, 0,
0.45 reduced_ss, 0.4 reduced_ss,
- 2.5 linethickness, 1, 1)
+ bulb_flare, 1, 1)
.. z3r{down}
.. {curl 0}simple_serif (z4r, z4l, 90){curl 0}
.. z3l{up}
..tension 0.9.. cycle;
- penlabels (1, 2, 3, 4, 5);
-
pickup pencircle scaled dot_diam;
+ lft x5 = hround (x3l + 1/3 reduced_ss - dot_diam / 2);
+ bot y5 = vfloor (.5 reduced_ss - dot_diam / 2);
+ z6 = z5 yscaled -1;
+
+ % for symmetry
+ y5 := y5 + feta_shift;
+
drawdot z5;
- drawdot z5 yscaled -1;
-enddef;
+ drawdot z6;
+ penlabels (1, 2, 3, 4, 5, 6);
-fet_beginchar ("F clef ", "F")
- if test_staff = 1:
- draw_staff (-3,1, 0.0);
- fi;
+ draw_staff (-3, 1, 0);
+enddef;
+
+fet_beginchar ("F clef ", "F");
draw_bass_clef ((0, 0), 1.0);
fet_endchar;
-fet_beginchar ("F clef (reduced)", "F_change")
+fet_beginchar ("F clef (reduced)", "F_change");
draw_bass_clef ((0, 0), 0.8);
fet_endchar;
%
% Inspired by Baerenreiter
%
-
+%
% Beste lezers, kijk,
%
% Een bolletje hebben we bij toeval allemaal wel eens getekend, maar begint u
save breapth_factor, inner_thick_end, thinness, thickness, thinnib;
save start_angle, inner_start_angle, thinness;
save upward_swoosh_angle, bot_angle;
- save p;
- path p;
+ save pat;
+ path pat;
pair downstroke_dir, center;
reduced_ss# = staff_space# * reduction;
define_pixels (reduced_ss);
- thinness = 0.08 staff_space + 0.7 linethickness;
+ thinness = 0.095 staff_space + 0.75 linethickness;
downstroke_dir = unitvector (14, -75);
downstroke_angle = angle downstroke_dir;
bot_angle = -180; % downstroke_angle - 87
upward_swoosh_angle = 132;
- start_angle = -95;
+ start_angle = -97;
- breapth_factor = 21.0 /14;
+ breapth_factor = 21/14;
inner_thick_end = 45;
inner_start_angle = downstroke_angle - 43;
thickness = .32 reduced_ss + 1.1 linethickness;
x1 = xpart center - .28 reduced_ss;
penpos1 (thinnib, inner_start_angle);
- z2r = center + (0, reduced_ss + stafflinethickness / 2);
+ x2r = xpart center;
+ y2r = vround_pixels (reduced_ss# + .5 stafflinethickness#);
penpos2 (thickness, 90);
z3 = (z4 - center) rotated inner_thick_end + center;
penpos3 (thinnib, -90 + inner_thick_end);
x4 = xpart center - .1 reduced_ss;
- y4r = -(reduced_ss + .5 stafflinethickness);
+ y4r = -y2r + feta_shift;
penpos4 (thinnib, -90);
x5r = -breapth_factor * reduced_ss + xpart center;
% z10 = center + whatever * dir (downstroke_angle - 1.5);
x10 = x6 - 2 thinnib;
y10 = ypart center + 3.5 reduced_ss;
- y10l - y10r = 1.2 thickness;
+ y10l - y10r = 1.0 thickness;
z10r - z10l = .7 thinnib * dir (downstroke_angle + 90)
+ whatever * downstroke_dir;
z10 = .5 [z10l, z10r];
- z11 = center + whatever * downstroke_dir + (0 reduced_ss, 0);
+ z11 = center + whatever * downstroke_dir + (-0.05 reduced_ss, 0);
penpos11 (thinnib, start_angle + 90);
- penpos12 (thinnib, bot_angle + 90);
+ penpos12 (thinnib, bot_angle + 90);
penpos13 (thinnib + 0.14 staff_space, 180);
% this auxiliary point ensures good contour overlapping
z8 = .5 [z9l, z9r] + .25 ((z9r - z9l) rotated -90);
+ z20 = z9l - (0, .25 blot_diameter);
+ penpos20 (blot_diameter, 0);
+
+ pat := z10{down}
+ .. z6
+ ..tension 1.1.. z11{dir (start_angle)};
+
+ penpos6 (thinnib, angle (direction 1 of pat) + 90);
+
+ % two auxiliary points to simulate `draw' with `penstroke'
+ z10' = point 0.3 of pat;
+ penpos10' (1.3 thinnib, angle (direction 0.3 of pat) + 50);
+
+ z11' = point 1.5 of pat;
+ penpos11' (thinnib, angle (direction 1.5 of pat) + 90);
+
+ z21l = z20l;
+ z21r = z9r;
+
+ pat := z21l
+ .. z10l{down}
+ .. z10'l;
+
fill z2l{right}
.. z3l
.. z4l{left}
- .. z5l{up}
+ ..tension 1.07.. z5l{up} % inside curve
.. z7l{up}
- ..tension 1.2.. z9l
+ ..tension 1.2.. z20r{curl 1}
+ .. {direction 0 of pat}z20l
-- z8
-- z9r % {dir (downstroke_angle + 0)}
..tension 0.8.. z7r{down}
-- z1l
..tension 0.85.. cycle;
- p := z10{down}
- .. z6
- .. z11{dir (start_angle)};
-
- penpos6 (thinnib, angle (direction 1 of p) + 90);
-
- % two auxiliary points to simulate `draw' with `penstroke'
- z10' = point 0.5 of p;
- penpos10' (thinnib, angle (direction 0.5 of p) + 90);
- z11' = point 1.5 of p;
- penpos11' (thinnib, angle (direction 1.5 of p) + 90);
-
- penstroke z9e
+ penstroke z21e
.. z10e{down}
.. z10'e
.. z6e
fill new_bulb (z12r, bot_angle, z13r, z12l, bot_angle + 180,
0.45 reduced_ss, 0.38 reduced_ss,
- thinnib + .15 staff_space, 1, -1)
+ thinnib + .05 staff_space, 1, -1)
-- cycle;
- penlabels (range 1 thru 16);
+ penlabels (range 1 thru 21);
penlabels (10', 11');
-enddef;
+ draw_staff (-1, 3, 0);
+enddef;
-fet_beginchar ("G clef", "G")
- if test_staff = 1:
- draw_staff (-1,3, 0.0);
- fi;
+fet_beginchar ("G clef", "G");
draw_gclef (1.0);
fet_endchar;
-fet_beginchar ("G clef", "G_change")
+fet_beginchar ("G clef", "G_change");
draw_gclef (0.8);
fet_endchar;
set_char_box (-.67 reduced_ss#, 2.0 reduced_ss#,
reduced_ss#, reduced_ss#);
- razt := 0.45 reduced_ss;
+ razt := hround (0.45 reduced_ss);
+
+ d := d - feta_shift;
draw_block ((-b, -d), (-b + razt, h));
draw_block ((w - razt, -d), (w, h));
+
+ draw_staff (-3, 1, 1);
enddef;
-fet_beginchar ("percussion clef", "percussion")
+fet_beginchar ("percussion clef", "percussion");
draw_percussion_clef (1.0);
fet_endchar;
-fet_beginchar ("percussion clef (reduced)", "percussion_change")
+fet_beginchar ("percussion clef (reduced)", "percussion_change");
draw_percussion_clef (.8);
fet_endchar;
def draw_tab_T (expr pos, siz, slant) =
begingroup;
- pair vx,vy;
+ save vx, vy;
+ pair vx, vy;
clearxy;
penpos1 (.75 penh, 100);
z1 = z2 + (1/6 * vx - .15 * vy);
- penpos2 (.9 penw, 0);
- z2l = pos + .75 vy;
+ penpos2 (hround (.9 penw), 0);
+ x2l = hround xpart (pos + .75 vy);
+ y2l = ypart (pos + .75 vy);
penpos3 (penh, -100);
z3l = pos + .4 vx + vy;
penpos4 (penh, -90);
y5l = ypart (pos + siz);
penpos10 (penw, 170);
- z10 = pos + .55 vx + .85 vy;
+ z10 = pos + .55 vx + .9 vy;
penpos11 (.75 [penh, penw], 170);
z11 = z10 - .5 vy + .025 vx;
penpos12 (penh, 100);
..z5e)
slanted slant shifted (slant * -ypart pos, 0);
- soft_penstroke (z10e
- ..tension 1.5.. z11e
- .. z12e
- ..tension 1.1.. z13e{(z13r - z13l) rotated 90})
+ soft_end_penstroke (z10e
+ ..tension 1.5.. z11e
+ .. z12e
+ ..tension 1.1.. z13e{(z13r - z13l) rotated 90})
slanted slant shifted (slant * -ypart pos, 0);
endgroup;
enddef;
def draw_tab_A (expr pos, siz, slant) =
begingroup;
- pair vx,vy;
+ save vx, vy, pat;
+ pair vx, vy;
+ path pat;
clearxy;
penpos8 (.75 penh, -70);
z8r = (xpart (pos + siz), y7r + .075 ypart (siz));
- penpos10 (penh, -105);
- z10 = .2 [z3, z4];
+ pat := z2
+ .. z3
+ .. z4;
+
+ penpos10 (penh, angle (direction 1.2 of pat) - 180);
+ z10 = point 1.2 of pat;
penpos11 (.9 penh, -90);
z11 = .4 [z10, z6] - 0.05 vy;
penpos12 (.75 penh, -75);
.. z4e)
slanted slant shifted (slant * -ypart pos, 0);
- soft_penstroke (z5e
- .. z6e
- .. z7e
- .. z8e{(z8r - z8l) rotated 90})
+ soft_end_penstroke (z5e
+ .. z6e
+ .. z7e
+ .. z8e{(z8r - z8l) rotated 90})
slanted slant shifted (slant * -ypart pos, 0);
- soft_penstroke (z10e
- .. z11e
- .. z12e)
+ soft_end_penstroke (z10e
+ .. z11e
+ .. z12e)
slanted slant shifted (slant * -ypart pos, 0);
endgroup;
enddef;
def draw_tab_B (expr pos, siz, slant) =
begingroup;
- pair vx,vy;
+ save vx, vy;
+ pair vx, vy;
clearxy;
penpos1 (.75 penh, 100);
z1 = z2 + (.15 * vx - .1 * vy);
- penpos2 (.9 penw, 0);
- z2l = pos+.75 vy;
+ penpos2 (hround (.9 penw), 0);
+ x2l = hround xpart (pos + .75 vy);
+ y2l = ypart (pos + .75 vy);
penpos3 (penh, -100);
z3l = pos + .4 vx + 1.05 vy;
penpos4 (.8 [penh, penw], -180);
z8 = .5 [z12l, z11l] + .15 vx - .05 vy;
penpos10 (.75 [penh, penw], 170);
- z10 = pos + .375 vx + .95 vy;
- penpos 11 (.8 [penh, penw], 150);
+ z10 = pos + .375 vx + vy;
+ penpos11 (.8 [penh, penw], 150);
z11 = z10 - .5 vy + .04 vx;
penpos12 (penh, 100);
z12l = (xpart .5 [z13, z11], ypart pos);
..z5e {left})
slanted slant shifted (slant * -ypart pos, 0);
- soft_penstroke (z6e{right}
- .. z7e
- .. z8e{(z8r - z8l) rotated 90})
+ soft_end_penstroke (z6e{right}
+ .. z7e
+ .. z8e{(z8r - z8l) rotated 90})
slanted slant shifted (slant * -ypart pos, 0);
- soft_penstroke (z10e
- ..tension 1.5.. z11e
- .. z12e
- ..tension 1.1.. z13e{(z13r - z13l) rotated 90})
+ soft_end_penstroke (z10e
+ ..tension 1.5.. z11e
+ .. z12e
+ ..tension 1.1.. z13e{(z13r - z13l) rotated 90})
slanted slant shifted (slant * -ypart pos, 0);
endgroup;
enddef;
set_char_box (-.2 reduced_ss#, 2.8 reduced_ss#,
1.6 letterheight#, 1.6 letterheight#);
- % draw_staff (-3,2, 0.5);
-
penw = .45 reduced_ss;
penh = .2 reduced_ss;
(2.2 reduced_ss, letterheight), 0.4);
draw_tab_B ((-b + .025 reduced_ss, -d),
(2.1 reduced_ss, letterheight), 0.25);
+
+ draw_staff (-3, 2, 0.5);
enddef;
-fet_beginchar ("tab clef", "tab")
+fet_beginchar ("tab clef", "tab");
draw_tab_clef (1.0);
fet_endchar;
-fet_beginchar ("tab clef (reduced)", "tab_change")
+fet_beginchar ("tab clef (reduced)", "tab_change");
draw_tab_clef (.8);
fet_endchar;