% Parameters for LCMSSB (or CMSSBQ)
% Sauter doesn't cover these LaTeX/SliTeX fonts, and CMSSBQ*.MF (which
% would have the same parameters) is not in the standard font set.
% Agrees at 8pt with LCMSSB8.MF. Formulae tentative at other pointsizes.
% Dimensions directly proportional to design_size, i.e. 0 at design_size 0.
% This is a common trick where data only known for one size, but dubious.
u#:=(22*(design_size/8))/36pt#; % unit width
width_adj#:=(3*(design_size/8))/36pt#; % width adjustment for certain characters
serif_fit#:=(-12*(design_size/8))/36pt#; % extra sidebar near lowercase serifs
cap_serif_fit#:=(-15*(design_size/8))/36pt#;% extra sidebar near uppercase serifs
letter_fit#:=0pt#; % extra space added to all sidebars
body_height#:=(220*(design_size/8))/36pt#; % height of tallest characters
asc_height#:=(200*(design_size/8))/36pt#; % height of lowercase ascenders
cap_height#:=(197*(design_size/8))/36pt#; % height of caps
fig_height#:=(200*(design_size/8))/36pt#; % height of numerals
x_height#:=(155*(design_size/8))/36pt#; % height of lowercase without ascenders
math_axis#:=(80*(design_size/8))/36pt#; % axis of symmetry for math symbols
bar_height#:=(90*(design_size/8))/36pt#; % height of crossbar in lowercase e
comma_depth#:=(35*(design_size/8))/36pt#; % depth of comma below baseline
desc_depth#:=(40*(design_size/8))/36pt#; % depth of lowercase descenders
crisp#:=(18*(design_size/8))/36pt#; % diameter of serif corners
tiny#:=(18*(design_size/8))/36pt#; % diameter of rounded corners
fine#:=(8*(design_size/8))/36pt#; % diameter of sharply rounded corners
thin_join#:=(8*(design_size/8))/36pt#; % width of extrafine details
hair#:=(42*(design_size/8))/36pt#; % lowercase hairline breadth
stem#:=(42*(design_size/8))/36pt#; % lowercase stem breadth
curve#:=(42*(design_size/8))/36pt#; % lowercase curve breadth
ess#:=(40*(design_size/8))/36pt#; % breadth in middle of lowercase s
flare#:=(36*(design_size/8))/36pt#; % diameter of bulbs or breadth of terminals
dot_size#:=(41*(design_size/8))/36pt#; % diameter of dots
cap_hair#:=(42*(design_size/8))/36pt#; % uppercase hairline breadth
cap_stem#:=(46*(design_size/8))/36pt#; % uppercase stem breadth
cap_curve#:=(46*(design_size/8))/36pt#; % uppercase curve breadth
cap_ess#:=(46*(design_size/8))/36pt#; % breadth in middle of uppercase s
rule_thickness#:=(26*(design_size/8))/36pt#;% thickness of lines in math symbols
dish#:=0pt#; % amount erased at top or bottom of serifs
bracket#:=0pt#; % vertical distance from serif base to tangent
jut#:=0pt#; % protrusion of lowercase serifs
cap_jut#:=0pt#; % protrusion of uppercase serifs
beak_jut#:=0pt#; % horizontal protrusion of beak serifs
beak#:=0pt#; % vertical protrusion of beak serifs
vair#:=(22*(design_size/8))/36pt#; % vertical diameter of hairlines
notch_cut#:=(48*(design_size/8))/36pt#; % maximum breadth above or below notches
bar#:=(22*(design_size/8))/36pt#; % lowercase bar thickness
slab#:=(24*(design_size/8))/36pt#; % serif and arm thickness
cap_bar#:=(23*(design_size/8))/36pt#; % uppercase bar thickness
cap_band#:=(30*(design_size/8))/36pt#; % uppercase thickness above/below lobes
cap_notch_cut#:=(42*(design_size/8))/36pt#; % max breadth above/below uppercase notches
serif_drop#:=0pt#; % vertical drop of sloped serifs
stem_corr#:=(.5*(design_size/8))/36pt#; % for small refinements of stem breadth
vair_corr#:=(1*(design_size/8))/36pt#; % for small refinements of hairline height
apex_corr#:=(15*(design_size/8))/36pt#; % extra width at diagonal junctions
o#:=(6*(design_size/8))/36pt#; % amount of overshoot for curves
apex_o#:=(2*(design_size/8))/36pt#; % amount of overshoot for diagonal junctions
slant:=0; % tilt ratio $(\Delta x/\Delta y)$
fudge:=.85; % factor applied to weights of heavy characters
math_spread:=0.5; % extra openness of math symbols
superness:=1/sqrt2; % parameter for superellipses
superpull:=1/9; % extra openness inside bowls
beak_darkness:=0; % fraction of triangle inside beak serifs
ligs:=2; % level of ligatures to be included
square_dots:=true; % should dots be square?
hefty:=true; % should we try hard not to be overweight?
serifs:=false; % should serifs and bulbs be attached?
monospace:=false; % should all characters have the same width?
variant_g:=true; % should an italic-style g be used?
low_asterisk:=false; % should the asterisk be centered at the axis?
math_fitting:=false; % should math-mode spacing be used?
endinput;
|