%% This is file LMSMB8 copied and modified from MSAM10 by American Mathematical %% Society, so as to change all the parameters and see what happens with the slides-font %% parameters; hopefully a new font is obtained that better matches the slides fonts % with their characteristic large x-height and small ascender height; with math symbols % this should not be so important, but ... %% %% Claudio Beccari 2007 % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% if unknown cmbase: input cmbase fi font_identifier:="LMSBM"; font_size 8pt#; u#:=20/36pt#; % unit width width_adj#:=0/36pt#; % width adjustment for certain characters serif_fit#:=-10/36pt#; % extra sidebar near lowercase serifs cap_serif_fit#:=-14/36pt#; % extra sidebar near uppercase serifs letter_fit#:=0pt#; % extra space added to all sidebars body_height#:=220/36pt#; % height of tallest characters asc_height#:=200/36pt#; % height of lowercase ascenders cap_height#:=197/36pt#; % height of caps fig_height#:=190/36pt#; % height of numerals x_height#:=150/36pt#; % height of lowercase without ascenders math_axis#:=80/36pt#; % axis of symmetry for math symbols bar_height#:=80/36pt#; % height of crossbar in lowercase e comma_depth#:=40/36pt#; % depth of comma below baseline desc_depth#:=40/36pt#; % depth of lowercase descenders crisp#:=18/36pt#; % diameter of serif corners tiny#:=18/36pt#; % diameter of rounded corners fine#:=8/36pt#; % diameter of sharply rounded corners thin_join#:=8/36pt#; % width of extrafine details hair#:=23/36pt#; % lowercase hairline breadth stem#:=23/36pt#; % lowercase stem breadth curve#:=23/36pt#; % lowercase curve breadth ess#:=23/36pt#; % breadth in middle of lowercase s flare#:=21/36pt#; % diameter of bulbs or breadth of terminals dot_size#:=28/36pt#; % diameter of dots cap_hair#:=23/36pt#; % uppercase hairline breadth cap_stem#:=27/36pt#; % uppercase stem breadth cap_curve#:=27/36pt#; % uppercase curve breadth cap_ess#:=27/36pt#; % breadth in middle of uppercase s rule_thickness#:=20/36pt#; % thickness of lines in math symbols dish#:=0/36pt#; % amount erased at top or bottom of serifs bracket#:=00/36pt#; % vertical distance from serif base to tangent jut#:=0/36pt#; % protrusion of lowercase serifs cap_jut#:=0/36pt#; % protrusion of uppercase serifs beak_jut#:=0/36pt#; % horizontal protrusion of beak serifs beak#:=00/36pt#; % vertical protrusion of beak serifs vair#:=18/36pt#; % vertical diameter of hairlines notch_cut#:=23/36pt#; % maximum breadth above or below notches bar#:=18/36pt#; % lowercase bar thickness slab#:=19/36pt#; % serif and arm thickness cap_bar#:=19/36pt#; % uppercase bar thickness cap_band#:=19/36pt#; % uppercase thickness above/below lobes cap_notch_cut#:=23/36pt#; % max breadth above/below uppercase notches serif_drop#:=0/36pt#; % vertical drop of sloped serifs stem_corr#:=.5/36pt#; % for small refinements of stem breadth vair_corr#:=.5/36pt#; % for small refinements of hairline height apex_corr#:=4/36pt#; % extra width at diagonal junctions o#:=6/36pt#; % amount of overshoot for curves apex_o#:=2/36pt#; % amount of overshoot for diagonal junctions slant:=.25; % tilt ratio $(\Delta x/\Delta y)$ fudge:=.95; % factor applied to weights of heavy characters math_spread:=.4; % extra openness of math symbols superness:=1/sqrt2; % parameter for superellipses superpull:=1/10; % 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:=false; % should an italic-style g be used? low_asterisk:=false; % should the asterisk be centered at the axis? math_fitting:=true; % should math-mode spacing be used? % the following font parameters are explained in {\sl The \TeX book}, Appendix G subs:=6/8; % subscripts to 10pt will normally be in 7pt type rth#:=.4pt#; % assume that rules will come from cmex10 fontdimen 8: % parameters $\sigma_8$ through $\sigma_{22}$ will now be listed math_axis#+3.51rth#+36/36pt#+subs*desc_depth#, % num1 math_axis#+1.51rth#+24/36pt#, % num2 math_axis#+1.51rth#+38/36pt#, % num3 -(math_axis#-3.51rth#-subs*fig_height#-98/36pt#), % denom1 -(math_axis#-1.51rth#-subs*fig_height#-24/36pt#), % denom2 7.99pt#-subs*asc_height#, % sup1 6.99pt#-subs*asc_height#, % sup2 82/36pt#, % sup3 36/36pt#, % sub1 72/36pt#, % sub2 subs*asc_height#-36/36pt#, % sup\_drop 18/36pt#, % sub\_drop 11.9pt#, % delim1 9.1pt#, % delim2 math_axis#; % axis\_height def diagonal (suffix ne, sw)= draw z.ne--z.sw enddef; generate lamsyb % switch to the driver file