User:Luigi.scarso/stix
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STIX Fonts: a first example
Stix fonts are now out: see http://www.stixfonts.org
I have made a simple pdf from Hans's script below (see http://wiki.contextgarden.net/images/d/d3/Test.pdf)
so we can see them with xpdf (xpdf appears to be broken with pdf from stix's zip)
% this typescript will be in the beta \starttypescript [math] [stix] [name] \definefontsynonym[MathRoman][file:stixgeneral.otf] [features=math] \stoptypescript \starttypescript [serif] [stix] [name] % why 'italic' infull and 'bol' without 'd'? \definefontsynonym[Serif] [file:stixgeneral.otf] [features=default] \definefontsynonym[SerifBold] [file:stixgeneralbol.otf] [features=defaulth] \definefontsynonym[SerifItalic] [file:stixgeneralitalic.otf] [features=default] \definefontsynonym[SerifBoldItalic][file:stixgeneralbolita.otf] [features=default] \stoptypescript \starttypescript[stix] \definetypeface [stix] [rm] [serif] [stix] [default] \definetypeface [stix] [mm] [math] [stix] [default] \stoptypescript \usetypescript[stix] \setupbodyfont[stix] \usemodule[fnt-25] \starttext \showmathfontcharacters \stoptext
or, more compact http://wiki.contextgarden.net/images/5/57/Test1-tex.pdf
\starttext \showfont[file:stixgeneral.otf][all] \stoptext
XITS
Khaled Hosny has "repackaged" STIX fonts at github so that it's possible to test them as an OpentType math. This is the pdf of latin.tex
\usetypescriptfile[type-xits] \usetypescript[xits] \setupbodyfont[xits] \starttext \midaligned{$\bfd\frak XITS\ Math$}\blank[4*big] \startformula \pi(n) = \sum^{n}_{m=2}\left\lfloor\biggl(\sum^{m-1}_{k=1}\bigl\lfloor(m/k)\big/\lceil m/k\rceil\bigr\rfloor\biggr)^{-1}\right\rfloor \stopformula \startformula \pi(n) = \sum^{n}_{k=2}\left\lfloor\phi(k) \over k-1\right\rfloor \stopformula \startformula 1+\left(1\over1-x^2\right)^3 \stopformula \startformula 1+\left(1\over1-{{{x^2}\over{y^3}}\over{z^4}}\right)^3 \stopformula \startformula {a+1\over b}\bigg/{c+1\over d} \stopformula \startformula \biggl({\partial^{2} \over \partial x^{2}} + {\partial^{2} \over \partial y^{2}}\biggr) {\bigl\vert\phi(x+iy)\bigr\vert}^2 \stopformula \startformula \int_{-\infty}^{+\infty} \stopformula \startformula \sum_{\scriptstyle0\le i\le m\atop\scriptstyle0}P(i,j) \stopformula \startformula \sqrt{1+\sqrt{1+\sqrt{1+\sqrt{1+\sqrt{1+\sqrt{1+\sqrt{1+x}}}}}}} \stopformula \startformula \int_0^3 9x^2 + 2x + 4\, dx = 3x^3 + x^2 + 4x + C \Big]_0^3 = 102 \stopformula \startformula e^{x+iy} = e^x(\cos y + i\sin y) \stopformula \startformula x = {-b \pm \sqrt{b^2 - 4ac} \over 2a} \stopformula \startformula f(x) = \startmathcases \NC x, \MC \text{if } 0 \le x \le \frac12 \NR \NC 1-x ,\MC \text{if } \frac12 \le x \le 1 \NR \stopmathcases \stopformula \startformula \vert\big\vert\Big\vert\bigg\vert\Bigg\vert \stopformula \startformula \emptyset \varnothing \eth \backepsilon \approx \stopformula \startformula \hat{i}\hat{j}\bf\hat{i}\hat{j} \stopformula \startformula \hat{\imath}\hat{\jmath}\bf\hat{\imath}\hat{\jmath} \stopformula \startformula \hat{a} \hat{c} \hat{e} \hat{f} \hat{g} \hat{o} \hat{s} \hat{z} \stopformula \startformula \hat{C} \hat{G} \hat{O} \hat{S} \hat{V} \hat{W} \hat{X} \hat{Y} \hat{Z} \stopformula \startformula \hat{π} \hat{π} \hat{π} \hat{π} \hat{π } \hat{π¨} \hat{π¬} \hat{π³} \stopformula \startformula \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \stopformula \startformula \hat{ΞΆ} \hat{ΞΈ} \hat{Ξ»} \hat{Ο} \hat{Ο} \hat{Ο} \hat{Ο} \hat{Ο} \hat{Ο} \stopformula \startformula \hat{Ξ} \hat{Ξ} \hat{Ξ } \hat{Ξ₯} \hat{Ξ¨} \stopformula \startformula \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \hat{π} \stopformula \startformula \hat{π«} \hat{π―} \hat{π²} \hat{π·} \hat{πΌ} \hat{πΏ} \stopformula \startformula \hat{β} \hat{π} \hat{π} \hat{π} \hat{π} \hat{β} \hat{π₯} \hat{Ξ} \hat{Ξ} \hat{Ξ§} \hat{π} \hat{πΆ} \hat{πΎ} \stopformula \stoptext