diff options
author | Staszek Wawrykiewicz <staw@gust.org.pl> | 2007-01-25 18:35:02 +0000 |
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committer | Staszek Wawrykiewicz <staw@gust.org.pl> | 2007-01-25 18:35:02 +0000 |
commit | 69eab4f8834fa32cf6d732be03e9214466a8581e (patch) | |
tree | 9cea1b88f9bae8eba84727027647bc54ae94bf97 /Master/texmf-dist/doc/fonts | |
parent | e40c67869057b2517e3e67063f7a2558c998de57 (diff) |
qpxqtx new package
git-svn-id: svn://tug.org/texlive/trunk@3791 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/doc/fonts')
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/00README | 127 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/p01tst.tex | 162 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/p02tst.tex | 37 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/qpxsymb.tex | 265 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/qpxtest.tex | 66 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/qtxsymb.tex | 269 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/qtxtest.tex | 66 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/t01tst.tex | 165 | ||||
-rw-r--r-- | Master/texmf-dist/doc/fonts/qpxqtx/t02tst.tex | 37 |
9 files changed, 1194 insertions, 0 deletions
diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/00README b/Master/texmf-dist/doc/fonts/qpxqtx/00README new file mode 100644 index 00000000000..3c5cc0bf461 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/00README @@ -0,0 +1,127 @@ +%% iso8859-2 +%% 25.01.2007, ver. 0.9. Public domain. +%% Jacek Mierczyński <mier@ibwpan.gda.pl> +%% Staszek Wawrykiewicz <staw@gust.org.pl> + +[E] A set of macros and virtual fonts for Plain/LaTeX/AMSTeX +for typesetting math with TeX Gyre Pagella and pxfonts, or Termes +and txfonts. The rest of this document is in Polish, sorry. + +[PL] Pakiet qpxqtx pozwala na skład tekstów oraz wyrażeń matematycznych +w MeX/LaTeX/AmSTeX przy użyciu fontów TeXGyre Pagella oraz Termes + ftp://ftp.gust.org.pl/pub/CTAN/fonts/tex-gyre/ +oraz fontów dostępnych w pakietach pxfonts oraz txfonts + ftp://ftp.gust.org.pl/pub/CTAN/fonts/pxfonts/ + ftp://ftp.gust.org.pl/pub/CTAN/fonts/txfonts/ + +[pxfonts i txfonts dołączane są obecnie do standardowych +dystrybucji MiKTeX oraz TeX Live.] + +Pakiet qpxqtx składa się z: +1. plików metrycznych (.tfm), które powinny być zainstalowane w odpowiednich + katalogach (w strukturze zgodnej z TDS: texmf/fonts/tfm/public/qpxqtx/); +2. fontów wirtualnych (.vf), które powinny być zainstalowane w odpowiednich + katalogach (texmf/fonts/vf/public/qpxqtx/); +3. plików makr dla MeX/LaTeX/amstex(amsmex) (.tex, .def), które powinny być + zainstalowane w odpowiednich katalogach (texmf/tex/generic/qpxqtx/ wybór + katalogu ,,generic'' jest celowy, gdyż makra powinny być znajdywane + przez różne formaty); +4. dokumentacji i plików przykładowych (texmf/doc/fonts/qpxqtx/); +Po zainstalowaniu należy zwykle odświeżyć bazę danych instalacji (polecenie +`texhash' dla teTeX/TeX Live; `initexmf -u' dla MiKTeX). + +Użycie: +1. format MeX -- wczytanie makr + \input qpxmath % lub qtxmath + powoduje zamianę domyślnych fontów zarówno tekstowych, jak + i matematycznych: + plr -> qplr (qtmr) + plsy -> pxsy (txsy) + plex -> pxex (txex) + plmi -> qpxmi (qtxmi) + Dodatkowo zmienia definicje niektórych znaków, np. "+" i "=" (z rpxr lub + rtxr), które są co prawda dostępne w qplr (qtmr), ale trochę nie pasują + do fontów pobranych z pakietu pxfonts (txfonts). Zestaw znaków fontów + matematycznych znanych z Plain TeX wzbogacono o $\varg$, $\varv$, $\varw$ + i $\vary$ (w qpxmath tylko $\varg$). + Makra w pełni realizują (mamy przynajmniej taką nadzieję) zamianę + standardowych fontów TeX-a CM/PL na fonty zbliżone krojem do Palatino + (Times). Dodatkowo udostępniono proste przełączanie stopnia pisma + (makra \tenpoint, \ninepoint, \eightpoint) oraz możliwość definicji np. + \def\PT{dd} *przed* wczytaniem makr qpxmath.tex (qtxmath.tex), czyli + określenia użytego stopnia pisma w punktach Didota (domyślnie stopnie pisma + definiowane są w pt). Dzięki takim zabiegom możliwe jest bardziej + ,,przyjazne'' stosowanie fontów Pagella (Termes), nawet gdy nie są używane + wyrażenia matematyczne. + Przykład użycia: p01tst.tex (lub t01tst.tex). + Wczytanie dodatkowych makr + \input amsqpx % (amsqtx) + umożliwia dostęp do poszerzonego zestawu symboli matematycznych, oraz + poleceń $\frak A$ (litery frakturą), $\Bbb A$ (,,blackboard''), nawet + bez użycia makr AMSTeX. Zestawienie dodatkowych symboli: qpxsymb.tex. + [na razie nie rozwiązano problemu użycia plajnowego \mit ] + + W wersji 0.9 dodano dwa nowe polecenia: pierwsze (\def\altg{a}) zamienia + miejscami znaki $g$ $v$ $w$ i $y$ z ich wersjami alternatywnymi + $\varg$ itd. (w qpxmath tylko g), drugie pozwala na zmianę fontu + wybieranego poleceniem \rm np. \def\fontenc{ec}. Pominięcie takiej + deklaracji spowoduje, że domyślnie zostanie użyty qx-qplr (qx-qtmr). + Poleceń tych należy użyć, podobnie jak \PT, _przed_ wczytaniem + qpxmath.tex (qtxmath.tex). + +2. AMSTeX/AMSMeX -- wczytanie makr + \input qpxmath % lub qtxmath + \input amsqpx % lub amsqtx + powoduje, jak powyżej, zamianę standardowych fontów CM/PL na zbliżone + krojem do Palatino (Times). Po wczytaniu dodatkowych makr + \input amspbold.tex % lub amstbold.tex + i użyciu polecenia \loadbold, dostępne są makra AMSTeX: + $\boldsymbol\Delta$, $\boldkey A$ itp., pozwalające na uzyskanie + w składzie pogrubionych symboli i innych znaków (przykład: p02tst.tex + i t02tst.tex). + [na razie nie rozwiązano problemu użycia \frac i \Bbb] + +3. LaTeX -- w preambule należy zadeklarować: + \usepackage{polski} % (przykładowo) + %%% + \usepackage{pxfonts} % lub \usepackage{txfonts} + \usepackage{tgpagella} % lub \usepackage{tgtermes} + \usepackage{qpxmath} % lub \usepackage{qtxmath} + a) pxfonts.sty (lub txfonts.sty) ładuje cały zestaw matematyczny + (odpowiedniki standardu CM, AMS i nawet więcej) i fonty tekstowe. + b) tgpagella.sty (tgtermes.sty) przestawia fonty tekstowe na Pagella (Termes). + c) qpxmath.sty (qtxmath.sty) zamienia cztery podstawowe fonty matematyczne: + operatory -- na qplr (qtmr); litery -- font wirtualny zbudowany z qplri + i fontów PX (qtmri i fontów TX); symbole i duże symbole -- odpowiedniki + z PX (TX). + Ponadto zmienia niektóre definicje, podobnie jak w MeX i pakiecie + polski.sty (\leq, \geq, \le, \ge). + Ładowanie pakietu pxfonts.sty (txfonts.sty) nie jest konieczne, jeżeli + zadowolimy się standardowym zestawem symboli matematycznych. + + W wersji 0.9 pakietu qtxmath dodano opcję [altg] pozwalającą wybrać kształt + liter g, v, w, y (w trybie matematycznym, zob. qtxtest.tex). Identyczna + opcja pakietu qpxmath dotyczy tylko litery g. + + +Zestawienie plików przykładowych: + qpxsymb.tex - MeX/AMSMeX zestawienie symboli dla Pagella + qtxsymb.tex - MeX/AMSMeX zestawienie symboli dla Termes + qpxtest.tex - przykład użycia dla LaTeXa dla Pagella + qtxtest.tex - przykład użycia dla LaTeXa dla Termes + p01tst.tex (t01tst.tex) - przykłady użycia dla MeX + (matematyka w zakresie Plain) + p02tst.tex (t02tst.tex) - test AMSTeX/AMSMeX + qpxmath (qtxmath) + +Historia: +wer. 0.5 12.04.2001 - pierwsza wersja udostępniona publicznie +wer. 0.6 13.04.2001 - niewielkie poprawki w dokumentacji i przykładach +wer. 0.7 23.01.2002 - modyfikacja plików .tfm i .vf (dostosowanie do + fontów QuasiPalatino wer. 1.07) +wer. 0.8 15.02.2002 - usunięto niepożądane spacje w pliku qpxmath.tex +wer. 0.9 25.01.2007 - zmiana wykorzystywanych fontów z QusiPalatino na + Pagella i QuasiTimes na Termes; połączenie poprzednio + udostępnianych pakietów qpx i qtx w jeden pakiet + + +Wszelkie uwagi są mile widziane. diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/p01tst.tex b/Master/texmf-dist/doc/fonts/qpxqtx/p01tst.tex new file mode 100644 index 00000000000..2a03e4c973e --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/p01tst.tex @@ -0,0 +1,162 @@ +%&mex --translate-file=il2-pl +%% test of qpxmath.tex (25.01.2007, StaW. Public domain) +\def\PT{dd} %% skład 10dd zamiast 10pt ;-) +%\def\altg{a} +%\def\fontenc{rm} +\input qpxmath +\parindent0pt +%%====== +\def\TEST{Nieco zwykłego tekstu \bf półgrubo, \it a teraz kursywą, +a~może nawet \sc Kapitalikiem. \rm OK, wystarczy. Teraz matematyka +w~tekście $\sum_{\alpha\rightarrow\infty}{a+1\over a-b^4}$ +i~dalej ($f_m,f_n)=(f_{r_{k-1}}, f_{r_k})$. I~jeszcze $x^{4m}+y^{4m}=z^{4m}$, +gdzie $m\xgeq 1$. $\cal A + \cal G$. ${\mit\Gamma}+\Phi$. Cyfry nautyczne +$\oldstyle 1967$} + +\tenpoint 10pt. \TEST + +\smallskip\ninepoint 9pt. \TEST + +\smallskip\eightpoint 8pt. \TEST + +\medskip\tenpoint 10pt (albo 10dd) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad g\dots\varg$$ % \varv \varw \vary not accesible +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +%% +\smallskip\ninepoint 9pt (albo czegośtam) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad g\dots\varg$$ %\quad \varv\quad \varw\quad \vary +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +%% +\smallskip \eightpoint 8pt (albo czegośtam) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad g\dots\varg$$ %\varv \varw \vary +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +\bye diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/p02tst.tex b/Master/texmf-dist/doc/fonts/qpxqtx/p02tst.tex new file mode 100644 index 00000000000..28170cd12b3 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/p02tst.tex @@ -0,0 +1,37 @@ +%% test AMSTeX/AMSMeX + qpxmath +%% this works only when amstex is loaded!!! +\input amstex + +Fonty standardowe (CM) +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\loadbold +$$\eqalign{\boldsymbol\omega &= + \boldsymbol\nu+v\boldsymbol\{(\boldkey x,\boldkey y)\boldsymbol\}\,dx + + w(\bold x,\bold y)\,dy+d\boldsymbol\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\input qpxmath +\input amsqpx.tex % ładuje amsqtx.def +\input amspbold.tex % redefinicje \loadbold, dostęp do poleceń \boldsymbol + % \boldkey (zauważ różnicę między \boldkey i \bold) + +Fonty px + TeX Gyre Pagella +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &\xleq d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\loadbold +$$\eqalign{\boldsymbol\omega &= + \boldsymbol\nu+v\boldsymbol\{(\boldkey x,\boldkey y)\boldsymbol\}\,dx + + w(\bold x,\bold y)\,dy+d\boldsymbol\varPsi\cr + d\omega &\boldsymbol\xleq d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bye diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/qpxsymb.tex b/Master/texmf-dist/doc/fonts/qpxqtx/qpxsymb.tex new file mode 100644 index 00000000000..0b34af4b217 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/qpxsymb.tex @@ -0,0 +1,265 @@ +%&mex --translate-file=il2-pl +%% StaW (25.01.2007). Public domain +%% qpxsymb -- zestawienie symboli AMS w fontach PXFONTS +\input qpxmath.tex +\input amsqpx.tex % ładuje amsqtx.def +%% +\input verbatim % ftp://ftp.gust.org.pl/pub/GUST/contrib/GUSTLIB/verbatim.tex +\input mimulcol % ftp://ftp.gust.org.pl/pub/GUST/contrib/GUSTLIB/mimulcol.tex +\catcode`\*=\active \gdef*{\verbatim*} + +\advance\vsize by1cm\vglue-.7cm +\centerline{\bf DODATKOWE SYMBOLE ZDEFINIOWANE W AMSQPX} + +\bigskip +\noindent Oprócz poniższych symboli dostępne są w~trybie matematycznym +polecenia *$\frak a$* oraz *$\Bbb A$* itp., np. +$\frak a\frak b \frak c \frak d \frak A \frak B\frak C\frak D$ +$\Bbb A \Bbb Z$ + +\bigskip +\beginmulticols 3 +%================================================ +\baselineskip16pt plus0.2pt minus0.2pt +\halign{#\hfil\enspace&#\hfil\cr +\multispan2\bf Symbole nie wymagające\hfil\cr +\noalign{\vskip-4pt} +\multispan2\bf trybu matematycznego\hfil\cr +*\yen* &\yen\cr +*\checkmark * &\checkmark \cr +*\circledR* &\circledR\cr +*\maltese* &\maltese\cr +\multispan2\bf Separatory\hfil\cr +*$\ulcorner$*&$\ulcorner$\cr +*$\urcorner$* &$\urcorner$\cr +*$\llcorner$* &$\llcorner$\cr +*$\lrcorner$* &$\lrcorner$\cr +\multispan2\bf Minuskuły greckie\hfil\cr +*$\digamma$* &$\digamma$\cr +*$\varkappa$* &$\varkappa$\cr +*$\varg$* &$\varg$\cr +\multispan2\bf Litery hebrajskie\hfil\cr +*$\beth$* &$\beth$\cr +*$\gimel$* &$\gimel$\cr +*$\daleth$* &$\daleth$\cr +\multispan2\bf Symbole różne\hfil\cr +*$\Bbbk$* &$\Bbbk$\cr +*$\hbar$* &$\hbar$\cr +*$\hslash$* &$\hslash$\cr +*$\backprime$* &$\backprime$\cr +*$\varnothing$* &$\varnothing$\cr +*$\vartriangle$* &$\vartriangle$\cr +*$\blacktriangle$* &$\blacktriangle$\cr +*$\triangledown$* &$\triangledown$\cr +*$\blacktriangledown$* &$\blacktriangledown$\cr +*$\square$* &$\square$\cr +*$\blacksquare$* &$\blacksquare$\cr +*$\lozenge$* &$\lozenge$\cr +*$\blacklozenge$* &$\blacklozenge$\cr +*$\circledS$* &$\circledS$\cr +*$\bigstar$* &$\bigstar$\cr +*$\angle$* &$\angle$\cr +*$\measuredangle$* &$\measuredangle$\cr +*$\sphericalangle$* &$\sphericalangle$\cr +*$\nexists$* &$\nexists$\cr +*$\complement$* &$\complement$\cr +*$\mho$* &$\mho$\cr +*$\eth$* &$\eth$\cr +*$\Finv$* &$\Finv$\cr +*$\Game$* &$\Game$\cr +*$\diagup$* &$\diagup$\cr +*$\diagdown$* &$\diagdown$\cr +\multispan2\bf Operatory\hfil\cr +*$\dotplus$* &$\dotplus$\cr +*$\smallsetminus$* &$\smallsetminus$\cr +*$\Cup$* &$\Cup$\cr +%\let\doublecup=\Cup +*$\Cap$* &$\Cap$\cr +%\let\doublecap=\Cap +*$\barwedge$* &$\barwedge$\cr +*$\veebar$* &$\veebar$\cr +*$\doublebarwedge$* &$\doublebarwedge$\cr +*$\boxminus$* &$\boxminus$\cr +*$\boxplus$* &$\boxplus$\cr +*$\boxdot$* &$\boxdot$\cr +*$\boxtimes$* &$\boxtimes$\cr +*$\divideontimes$* &$\divideontimes$\cr +*$\centerdot$* &$\centerdot$\cr +*$\ltimes$* &$\ltimes$\cr +*$\rtimes$* &$\rtimes$\cr +*$\leftthreetimes$* &$\leftthreetimes$\cr +*$\rightthreetimes$* &$\rightthreetimes$\cr +*$\curlywedge$* &$\curlywedge$\cr +*$\curlyvee$* &$\curlyvee$\cr +*$\circledcirc$* &$\circledcirc$\cr +*$\circledast$* &$\circledast$\cr +*$\circleddash$* &$\circleddash$\cr +*$\intercal$* &$\intercal$\cr +\multispan2\bf Relacje\hfil\cr +*$\leqq$* &$\leqq$\cr +*$\geqq$* &$\geqq$\cr +*$\leqslant$* &$\leqslant$\cr +*$\geqslant$* &$\geqslant$\cr +*$\eqslantless$* &$\eqslantless$\cr +*$\eqslantgtr$* &$\eqslantgtr$\cr +*$\lesssim$* &$\lesssim$\cr +*$\gtrsim$* &$\gtrsim$\cr +*$\lessapprox$* &$\lessapprox$\cr +*$\gtrapprox$* &$\gtrapprox$\cr +*$\approxeq$* &$\approxeq$\cr +*$\eqsim$* &$\eqsim$\cr +*$\lessdot$* &$\lessdot$\cr +*$\gtrdot$* &$\gtrdot$\cr +*$\lll$* &$\lll$\cr +%\let\llless=\lll +*$\ggg$* &$\ggg$\cr +%\let\gggtr=\ggg +*$\lessgtr$* &$\lessgtr$\cr +*$\gtrless$* &$\gtrless$\cr +*$\lesseqgtr$* &$\lesseqgtr$\cr +*$\gtreqless$* &$\gtreqless$\cr +*$\lesseqqgtr$* &$\lesseqqgtr$\cr +*$\gtreqqless$* &$\gtreqqless$\cr +*$\doteqdot$* &$\doteqdot$\cr +%\let\Doteq=\doteqdot +*$\risingdotseq$* &$\risingdotseq$\cr +*$\fallingdotseq$* &$\fallingdotseq$\cr +*$\eqcirc$* &$\eqcirc$\cr +*$\circeq$* &$\circeq$\cr +*$\triangleq$* &$\triangleq$\cr +*$\backsim$* &$\backsim$\cr +*$\backsimeq$* &$\backsimeq$\cr +*$\thicksim$* &$\thicksim$\cr +*$\thickapprox$* &$\thickapprox$\cr +*$\subseteqq$* &$\subseteqq$\cr +*$\supseteqq$* &$\supseteqq$\cr +*$\Subset$* &$\Subset$\cr +*$\Supset$* &$\Supset$\cr +*$\sqsubset$* &$\sqsubset$\cr +*$\sqsupset$* &$\sqsupset$\cr +*$\preccurlyeq$* &$\preccurlyeq$\cr +*$\succcurlyeq$* &$\succcurlyeq$\cr +*$\curlyeqprec$* &$\curlyeqprec$\cr +*$\curlyeqsucc$* &$\curlyeqsucc$\cr +*$\precsim$* &$\precsim$\cr +*$\succsim$* &$\succsim$\cr +*$\precapprox$* &$\precapprox$\cr +*$\succapprox$* &$\succapprox$\cr +*$\vartriangleleft$* &$\vartriangleleft$\cr +*$\vartriangleright$* &$\vartriangleright$\cr +*$\trianglelefteq$* &$\trianglelefteq$\cr +*$\trianglerighteq$* &$\trianglerighteq$\cr +*$\vDash$* &$\vDash$\cr +*$\Vdash$* &$\Vdash$\cr +*$\Vvdash$* &$\Vvdash$\cr +*$\smallsmile$* &$\smallsmile$\cr +*$\smallfrown$* &$\smallfrown$\cr +*$\bumpeq$* &$\bumpeq$\cr +*$\Bumpeq$* &$\Bumpeq$\cr +*$\varpropto$* &$\varpropto$\cr +*$\shortmid$* &$\shortmid$\cr +*$\shortparallel$* &$\shortparallel$\cr +*$\between$* &$\between$\cr +*$\pitchfork$* &$\pitchfork$\cr +*$\backepsilon$* &$\backepsilon$\cr +*$\blacktriangleleft$* &$\blacktriangleleft$\cr +*$\blacktriangleright$* &$\blacktriangleright$\cr +*$\therefore$* &$\therefore$\cr +*$\because$* &$\because$\cr +\multispan2\bf Negacje relacji\hfil\cr +*$\nless$* &$\nless$\cr +*$\ngtr$* &$\ngtr$\cr +*$\nleq$* &$\nleq$\cr +*$\ngeq$* &$\ngeq$\cr +*$\nleqslant$* &$\nleqslant$\cr +*$\ngeqslant$* &$\ngeqslant$\cr +*$\nleqq$* &$\nleqq$\cr +*$\ngeqq$* &$\ngeqq$\cr +*$\lneqq$* &$\lneqq$\cr +*$\gneqq$* &$\gneqq$\cr +*$\lneq$* &$\lneq$\cr +*$\gneq$* &$\gneq$\cr +*$\lvertneqq$* &$\lvertneqq$\cr +*$\gvertneqq$* &$\gvertneqq$\cr +*$\lnsim$* &$\lnsim$\cr +*$\gnsim$* &$\gnsim$\cr +*$\lnapprox$* &$\lnapprox$\cr +*$\gnapprox$* &$\gnapprox$\cr +*$\nprec$* &$\nprec$\cr +*$\nsucc$* &$\nsucc$\cr +*$\npreceq$* &$\npreceq$\cr +*$\nsucceq$* &$\nsucceq$\cr +*$\precneqq$* &$\precneqq$\cr +*$\succneqq$* &$\succneqq$\cr +*$\precnsim$* &$\precnsim$\cr +*$\succnsim$* &$\succnsim$\cr +*$\precnapprox$* &$\precnapprox$\cr +*$\succnapprox$* &$\succnapprox$\cr +*$\nsim$* &$\nsim$\cr +*$\ncong$* &$\ncong$\cr +*$\nshortmid$* &$\nshortmid$\cr +*$\nshortparallel$* &$\nshortparallel$\cr +*$\nmid$* &$\nmid$\cr +*$\nparallel$* &$\nparallel$\cr +*$\nvdash$* &$\nvdash$\cr +*$\nvDash$* &$\nvDash$\cr +*$\nVdash$* &$\nVdash$\cr +*$\nVDash$* &$\nVDash$\cr +*$\ntriangleleft$* &$\ntriangleleft$\cr +*$\ntriangleright$* &$\ntriangleright$\cr +*$\ntrianglelefteq$* &$\ntrianglelefteq$\cr +*$\ntrianglerighteq$* &$\ntrianglerighteq$\cr +*$\nsubseteqq$* &$\nsubseteqq$\cr +*$\nsupseteqq$* &$\nsupseteqq$\cr +*$\nsubseteq$* &$\nsubseteq$\cr +*$\nsupseteq$* &$\nsupseteq$\cr +*$\subsetneq$* &$\subsetneq$\cr +*$\supsetneq$* &$\supsetneq$\cr +*$\varsubsetneq$* &$\varsubsetneq$\cr +*$\varsupsetneq$* &$\varsupsetneq$\cr +*$\subsetneqq$* &$\subsetneqq$\cr +*$\supsetneqq$* &$\supsetneqq$\cr +*$\varsubsetneqq$* &$\varsubsetneqq$\cr +*$\varsupsetneqq$* &$\varsupsetneqq$\cr +\multispan2\bf Strzałki\hfil\cr +*$\leftleftarrows$* &$\leftleftarrows$\cr +*$\rightrightarrows$* &$\rightrightarrows$\cr +*$\leftrightarrows$* &$\leftrightarrows$\cr +*$\rightleftarrows$* &$\rightleftarrows$\cr +*$\Lleftarrow$* &$\Lleftarrow$\cr +*$\Rrightarrow$* &$\Rrightarrow$\cr +*$\twoheadleftarrow$* &$\twoheadleftarrow$\cr +*$\twoheadrightarrow$* &$\twoheadrightarrow$\cr +*$\leftarrowtail$* &$\leftarrowtail$\cr +*$\rightarrowtail$* &$\rightarrowtail$\cr +*$\looparrowleft$* &$\looparrowleft$\cr +*$\looparrowright$* &$\looparrowright$\cr +*$\leftrightharpoons$* &$\leftrightharpoons$\cr +*$\rightleftharpoons$* &$\rightleftharpoons$\cr +*$\curvearrowleft$* &$\curvearrowleft$\cr +*$\curvearrowright$* &$\curvearrowright$\cr +*$\circlearrowleft$* &$\circlearrowleft$\cr +*$\circlearrowright$* &$\circlearrowright$\cr +*$\Lsh$* &$\Lsh$\cr +*$\Rsh$* &$\Rsh$\cr +*$\upuparrows$* &$\upuparrows$\cr +*$\downdownarrows$* &$\downdownarrows$\cr +*$\upharpoonleft$* &$\upharpoonleft$\cr +*$\upharpoonright$* &$\upharpoonright$\cr +*$\downharpoonleft$* &$\downharpoonleft$\cr +*$\downharpoonright$* &$\downharpoonright$\cr +*$\multimap$* &$\multimap$\cr +*$\rightsquigarrow$* &$\rightsquigarrow$\cr +*$\leftrightsquigarrow$* &$\leftrightsquigarrow$\cr +\multispan2\bf Negacje strzałek\hfil\cr +*$\nleftarrow$* &$\nleftarrow$\cr +*$\nrightarrow$* &$\nrightarrow$\cr +*$\nLeftarrow$* &$\nLeftarrow$\cr +*$\nRightarrow$* &$\nRightarrow$\cr +*$\nLeftrightarrow$* &$\nLeftrightarrow$\cr +*$\nleftrightarrow$* &$\nleftrightarrow$\cr +} + +\endmulticols + +\bye diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/qpxtest.tex b/Master/texmf-dist/doc/fonts/qpxqtx/qpxtest.tex new file mode 100644 index 00000000000..2a5b9ca48c2 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/qpxtest.tex @@ -0,0 +1,66 @@ +%&platex --translate-file=il2-pl +\documentclass[a4paper,11pt]{article} +\usepackage{polski} +\usepackage{tgpagella} +\usepackage{qpxmath} +\pagestyle{empty} +% +\begin{document} +% +\noindent +% +Matematyka +w~tekście: $\sum_{\alpha\rightarrow\infty}\frac{a+1}{a-b^4}$ +i~dalej ($f_m,f_n)=(f_{r_{k-1}}, f_{r_k})$. I~jeszcze $x^{4m}+y^{4m}=z^{4m}$, +gdzie $m\xgeq 1$. +$\cal A + \cal G$. ${\varGamma}+\Phi$. Cyfry nautyczne +\oldstylenums{0123456789}. + + Litera $g$ posiada odmianę, której możemy użyć pisząc + \verb+\varg+: $\varg$. + Użycie pakietu z~opcją \verb+[altg]+ spowoduje, że domyślnie zostanie + użyte $\varg$ a~pisząc \verb+\varg+ otrzymamy $g$. + +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega$$%\quad \varg \varv \varw \vary,\quad gvwy$$ +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +% +\begin{eqnarray*} +\omega &=& \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\\ + d\omega &=& d\nu+ \left(\frac{\partial w}{\partial x}- + \frac{\partial v}{\partial y}\right) dx\wedge dy +\end{eqnarray*} +% +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i \frac{\partial}{\partial x^i}+\sum_j + x^j\frac{\partial}{\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\int_0^\infty\frac{t-ib}{t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +\end{document} diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/qtxsymb.tex b/Master/texmf-dist/doc/fonts/qpxqtx/qtxsymb.tex new file mode 100644 index 00000000000..9966307c8e3 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/qtxsymb.tex @@ -0,0 +1,269 @@ +%&mex --translate-file=il2-pl +%% StaW (25.01.2007). Public domain +%% qtxsymb.tex -- zestawienie symboli AMS w fontach TXFONTS +\input qtxmath +\input amsqtx.tex % ładuje amsqtx.def +%% +\input verbatim % ftp://ftp.gust.org.pl/pub/GUST/contrib/GUSTLIB/verbatim.tex +\input mimulcol % ftp://ftp.gust.org.pl/pub/GUST/contrib/GUSTLIB/mimulcol.tex +\catcode`\*=\active \gdef*{\verbatim*} + +\advance\vsize by1cm +\vglue-.7cm +\centerline{\bf DODATKOWE SYMBOLE ZDEFINIOWANE W AMSQTX} + +\bigskip +Oprócz poniższych symboli dostępne są w~trybie matematycznym polecenia +*$\frak a$* oraz *$\Bbb A$* itp., np. +$\frak a\frak b \frak c \frak d \frak A \frak B\frak C\frak D$ +$\Bbb A \Bbb Z$ + +\bigskip +\beginmulticols 3 +%================================================ +\baselineskip16pt plus0.2pt minus0.2pt +\halign{#\hfil\enspace&#\hfil\cr +\multispan2\bf Symbole nie wymagające\hfil\cr +\noalign{\vskip-4pt} +\multispan2\bf trybu matematycznego\hfil\cr +*\yen* &\yen\cr +*\checkmark * &\checkmark \cr +*\circledR* &\circledR\cr +*\maltese* &\maltese\cr +\multispan2\bf Separatory\hfil\cr +*$\ulcorner$*&$\ulcorner$\cr +*$\urcorner$* &$\urcorner$\cr +*$\llcorner$* &$\llcorner$\cr +*$\lrcorner$* &$\lrcorner$\cr +\multispan2\bf Minuskuły greckie\hfil\cr +*$\digamma$* &$\digamma$\cr +*$\varkappa$* &$\varkappa$\cr +*$\varg$* &$\varg$\cr +*$\varv$* &$\varv$\cr +*$\varw$* &$\varw$\cr +*$\vary$* &$\vary$\cr +\multispan2\bf Litery hebrajskie\hfil\cr +*$\beth$* &$\beth$\cr +*$\gimel$* &$\gimel$\cr +*$\daleth$* &$\daleth$\cr +\multispan2\bf Symbole różne\hfil\cr +*$\Bbbk$* &$\Bbbk$\cr +*$\hbar$* &$\hbar$\cr +*$\hslash$* &$\hslash$\cr +*$\backprime$* &$\backprime$\cr +*$\varnothing$* &$\varnothing$\cr +*$\vartriangle$* &$\vartriangle$\cr +*$\blacktriangle$* &$\blacktriangle$\cr +*$\triangledown$* &$\triangledown$\cr +*$\blacktriangledown$* &$\blacktriangledown$\cr +*$\square$* &$\square$\cr +*$\blacksquare$* &$\blacksquare$\cr +*$\lozenge$* &$\lozenge$\cr +*$\blacklozenge$* &$\blacklozenge$\cr +*$\circledS$* &$\circledS$\cr +*$\bigstar$* &$\bigstar$\cr +*$\angle$* &$\angle$\cr +*$\measuredangle$* &$\measuredangle$\cr +*$\sphericalangle$* &$\sphericalangle$\cr +*$\nexists$* &$\nexists$\cr +*$\complement$* &$\complement$\cr +*$\mho$* &$\mho$\cr +*$\eth$* &$\eth$\cr +*$\Finv$* &$\Finv$\cr +*$\Game$* &$\Game$\cr +*$\diagup$* &$\diagup$\cr +*$\diagdown$* &$\diagdown$\cr +\multispan2\bf Operatory\hfil\cr +*$\dotplus$* &$\dotplus$\cr +*$\smallsetminus$* &$\smallsetminus$\cr +*$\Cup$* &$\Cup$\cr +%\let\doublecup=\Cup +*$\Cap$* &$\Cap$\cr +%\let\doublecap=\Cap +*$\barwedge$* &$\barwedge$\cr +*$\veebar$* &$\veebar$\cr +*$\doublebarwedge$* &$\doublebarwedge$\cr +*$\boxminus$* &$\boxminus$\cr +*$\boxplus$* &$\boxplus$\cr +*$\boxdot$* &$\boxdot$\cr +*$\boxtimes$* &$\boxtimes$\cr +*$\divideontimes$* &$\divideontimes$\cr +*$\centerdot$* &$\centerdot$\cr +*$\ltimes$* &$\ltimes$\cr +*$\rtimes$* &$\rtimes$\cr +*$\leftthreetimes$* &$\leftthreetimes$\cr +*$\rightthreetimes$* &$\rightthreetimes$\cr +*$\curlywedge$* &$\curlywedge$\cr +*$\curlyvee$* &$\curlyvee$\cr +*$\circledcirc$* &$\circledcirc$\cr +*$\circledast$* &$\circledast$\cr +*$\circleddash$* &$\circleddash$\cr +*$\intercal$* &$\intercal$\cr +\multispan2\bf Relacje\hfil\cr +*$\leqq$* &$\leqq$\cr +*$\geqq$* &$\geqq$\cr +*$\leqslant$* &$\leqslant$\cr +*$\geqslant$* &$\geqslant$\cr +*$\eqslantless$* &$\eqslantless$\cr +*$\eqslantgtr$* &$\eqslantgtr$\cr +*$\lesssim$* &$\lesssim$\cr +*$\gtrsim$* &$\gtrsim$\cr +*$\lessapprox$* &$\lessapprox$\cr +*$\gtrapprox$* &$\gtrapprox$\cr +*$\approxeq$* &$\approxeq$\cr +*$\eqsim$* &$\eqsim$\cr +*$\lessdot$* &$\lessdot$\cr +*$\gtrdot$* &$\gtrdot$\cr +*$\lll$* &$\lll$\cr +%\let\llless=\lll +*$\ggg$* &$\ggg$\cr +%\let\gggtr=\ggg +*$\lessgtr$* &$\lessgtr$\cr +*$\gtrless$* &$\gtrless$\cr +*$\lesseqgtr$* &$\lesseqgtr$\cr +*$\gtreqless$* &$\gtreqless$\cr +*$\lesseqqgtr$* &$\lesseqqgtr$\cr +*$\gtreqqless$* &$\gtreqqless$\cr +*$\doteqdot$* &$\doteqdot$\cr +%\let\Doteq=\doteqdot +*$\risingdotseq$* &$\risingdotseq$\cr +*$\fallingdotseq$* &$\fallingdotseq$\cr +*$\eqcirc$* &$\eqcirc$\cr +*$\circeq$* &$\circeq$\cr +*$\triangleq$* &$\triangleq$\cr +*$\backsim$* &$\backsim$\cr +*$\backsimeq$* &$\backsimeq$\cr +*$\thicksim$* &$\thicksim$\cr +*$\thickapprox$* &$\thickapprox$\cr +*$\subseteqq$* &$\subseteqq$\cr +*$\supseteqq$* &$\supseteqq$\cr +*$\Subset$* &$\Subset$\cr +*$\Supset$* &$\Supset$\cr +*$\sqsubset$* &$\sqsubset$\cr +*$\sqsupset$* &$\sqsupset$\cr +*$\preccurlyeq$* &$\preccurlyeq$\cr +*$\succcurlyeq$* &$\succcurlyeq$\cr +*$\curlyeqprec$* &$\curlyeqprec$\cr +*$\curlyeqsucc$* &$\curlyeqsucc$\cr +*$\precsim$* &$\precsim$\cr +*$\succsim$* &$\succsim$\cr +*$\precapprox$* &$\precapprox$\cr +*$\succapprox$* &$\succapprox$\cr +*$\vartriangleleft$* &$\vartriangleleft$\cr +*$\vartriangleright$* &$\vartriangleright$\cr +*$\trianglelefteq$* &$\trianglelefteq$\cr +*$\trianglerighteq$* &$\trianglerighteq$\cr +*$\vDash$* &$\vDash$\cr +*$\Vdash$* &$\Vdash$\cr +*$\Vvdash$* &$\Vvdash$\cr +*$\smallsmile$* &$\smallsmile$\cr +*$\smallfrown$* &$\smallfrown$\cr +*$\bumpeq$* &$\bumpeq$\cr +*$\Bumpeq$* &$\Bumpeq$\cr +*$\varpropto$* &$\varpropto$\cr +*$\shortmid$* &$\shortmid$\cr +*$\shortparallel$* &$\shortparallel$\cr +*$\between$* &$\between$\cr +*$\pitchfork$* &$\pitchfork$\cr +*$\backepsilon$* &$\backepsilon$\cr +*$\blacktriangleleft$* &$\blacktriangleleft$\cr +*$\blacktriangleright$* &$\blacktriangleright$\cr +*$\therefore$* &$\therefore$\cr +*$\because$* &$\because$\cr +\multispan2\bf Negacje relacji\hfil\cr +*$\nless$* &$\nless$\cr +*$\ngtr$* &$\ngtr$\cr +*$\nleq$* &$\nleq$\cr +*$\ngeq$* &$\ngeq$\cr +*$\nleqslant$* &$\nleqslant$\cr +*$\ngeqslant$* &$\ngeqslant$\cr +*$\nleqq$* &$\nleqq$\cr +*$\ngeqq$* &$\ngeqq$\cr +*$\lneqq$* &$\lneqq$\cr +*$\gneqq$* &$\gneqq$\cr +*$\lneq$* &$\lneq$\cr +*$\gneq$* &$\gneq$\cr +*$\lvertneqq$* &$\lvertneqq$\cr +*$\gvertneqq$* &$\gvertneqq$\cr +*$\lnsim$* &$\lnsim$\cr +*$\gnsim$* &$\gnsim$\cr +*$\lnapprox$* &$\lnapprox$\cr +*$\gnapprox$* &$\gnapprox$\cr +*$\nprec$* &$\nprec$\cr +*$\nsucc$* &$\nsucc$\cr +*$\npreceq$* &$\npreceq$\cr +*$\nsucceq$* &$\nsucceq$\cr +*$\precneqq$* &$\precneqq$\cr +*$\succneqq$* &$\succneqq$\cr +*$\precnsim$* &$\precnsim$\cr +*$\succnsim$* &$\succnsim$\cr +*$\precnapprox$* &$\precnapprox$\cr +*$\succnapprox$* &$\succnapprox$\cr +*$\nsim$* &$\nsim$\cr +*$\ncong$* &$\ncong$\cr +*$\nshortmid$* &$\nshortmid$\cr +*$\nshortparallel$* &$\nshortparallel$\cr +*$\nmid$* &$\nmid$\cr +*$\nparallel$* &$\nparallel$\cr +*$\nvdash$* &$\nvdash$\cr +*$\nvDash$* &$\nvDash$\cr +*$\nVdash$* &$\nVdash$\cr +*$\nVDash$* &$\nVDash$\cr +*$\ntriangleleft$* &$\ntriangleleft$\cr +*$\ntriangleright$* &$\ntriangleright$\cr +*$\ntrianglelefteq$* &$\ntrianglelefteq$\cr +*$\ntrianglerighteq$* &$\ntrianglerighteq$\cr +*$\nsubseteqq$* &$\nsubseteqq$\cr +*$\nsupseteqq$* &$\nsupseteqq$\cr +*$\nsubseteq$* &$\nsubseteq$\cr +*$\nsupseteq$* &$\nsupseteq$\cr +*$\subsetneq$* &$\subsetneq$\cr +*$\supsetneq$* &$\supsetneq$\cr +*$\varsubsetneq$* &$\varsubsetneq$\cr +*$\varsupsetneq$* &$\varsupsetneq$\cr +*$\subsetneqq$* &$\subsetneqq$\cr +*$\supsetneqq$* &$\supsetneqq$\cr +*$\varsubsetneqq$* &$\varsubsetneqq$\cr +*$\varsupsetneqq$* &$\varsupsetneqq$\cr +\multispan2\bf Strzałki\hfil\cr +*$\leftleftarrows$* &$\leftleftarrows$\cr +*$\rightrightarrows$* &$\rightrightarrows$\cr +*$\leftrightarrows$* &$\leftrightarrows$\cr +*$\rightleftarrows$* &$\rightleftarrows$\cr +*$\Lleftarrow$* &$\Lleftarrow$\cr +*$\Rrightarrow$* &$\Rrightarrow$\cr +*$\twoheadleftarrow$* &$\twoheadleftarrow$\cr +*$\twoheadrightarrow$* &$\twoheadrightarrow$\cr +*$\leftarrowtail$* &$\leftarrowtail$\cr +*$\rightarrowtail$* &$\rightarrowtail$\cr +*$\looparrowleft$* &$\looparrowleft$\cr +*$\looparrowright$* &$\looparrowright$\cr +*$\leftrightharpoons$* &$\leftrightharpoons$\cr +*$\rightleftharpoons$* &$\rightleftharpoons$\cr +*$\curvearrowleft$* &$\curvearrowleft$\cr +*$\curvearrowright$* &$\curvearrowright$\cr +*$\circlearrowleft$* &$\circlearrowleft$\cr +*$\circlearrowright$* &$\circlearrowright$\cr +*$\Lsh$* &$\Lsh$\cr +*$\Rsh$* &$\Rsh$\cr +*$\upuparrows$* &$\upuparrows$\cr +*$\downdownarrows$* &$\downdownarrows$\cr +*$\upharpoonleft$* &$\upharpoonleft$\cr +*$\upharpoonright$* &$\upharpoonright$\cr +*$\downharpoonleft$* &$\downharpoonleft$\cr +*$\downharpoonright$* &$\downharpoonright$\cr +*$\multimap$* &$\multimap$\cr +*$\rightsquigarrow$* &$\rightsquigarrow$\cr +*$\leftrightsquigarrow$* &$\leftrightsquigarrow$\cr +\multispan2\bf Negacje strzałek\hfil\cr +*$\nleftarrow$* &$\nleftarrow$\cr +*$\nrightarrow$* &$\nrightarrow$\cr +*$\nLeftarrow$* &$\nLeftarrow$\cr +*$\nRightarrow$* &$\nRightarrow$\cr +*$\nLeftrightarrow$* &$\nLeftrightarrow$\cr +*$\nleftrightarrow$* &$\nleftrightarrow$\cr +} + +\endmulticols + +\bye diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/qtxtest.tex b/Master/texmf-dist/doc/fonts/qpxqtx/qtxtest.tex new file mode 100644 index 00000000000..60295613c02 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/qtxtest.tex @@ -0,0 +1,66 @@ +%&platex --translate-file=il2-pl +\documentclass[a4paper,12pt]{article} +\usepackage{polski} +\usepackage{tgtermes} +\usepackage{qtxmath} +\pagestyle{empty} +% +\begin{document} +% +\noindent +% +Matematyka +w~tekście: $\sum_{\alpha\rightarrow\infty}\frac{a+1}{a-b^4}$ +i~dalej ($f_m,f_n)=(f_{r_{k-1}}, f_{r_k})$. I~jeszcze $x^{4m}+y^{4m}=z^{4m}$, +gdzie $m\xgeq 1$. +$\cal A + \cal G$. ${\varGamma}+\Phi$. Cyfry nautyczne +\oldstylenums{0123456789}. + +Litery $g, v, w, y$ posiadają odmianę, której możemy użyć pisząc +\verb+\varg+ itd.: $\varg, \varv, \varw, \vary$. +Użycie pakietu z~opcją \verb+[altg]+ spowoduje, że domyślnie zostaną +użyte $\varg\varv\varw\vary$ a~dodając \verb+\var+ otrzymamy $gvwy$. + +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega$$%\quad \varg \varv \varw \vary,\quad gvwy$$ +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +% +\begin{eqnarray*} +\omega &=& \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\\ + d\omega &=& d\nu+ \left(\frac{\partial w}{\partial x}- + \frac{\partial v}{\partial y}\right) dx\wedge dy +\end{eqnarray*} +% +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i \frac{\partial}{\partial x^i}+\sum_j + x^j\frac{\partial}{\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\int_0^\infty\frac{t-ib}{t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +\end{document} diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/t01tst.tex b/Master/texmf-dist/doc/fonts/qpxqtx/t01tst.tex new file mode 100644 index 00000000000..850c65da748 --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/t01tst.tex @@ -0,0 +1,165 @@ +%&mex --translate-file=il2-pl +%% test of qtxmath.tex (25.01.2007, StaW. Public domain) +\def\PT{dd} %% skład 10dd zamiast 10pt ;-) +%\def\altg{a} +%\def\fontenc{rm} +\input qtxmath +\parindent0pt +%%====== +\def\TEST{Nieco zwykłego tekstu \bf półgrubo, \it a teraz kursywą, +a~może nawet \sc Kapitalikiem. \rm OK, wystarczy. Teraz matematyka +w~tekście $\sum_{\alpha\rightarrow\infty}{a+1\over a-b^4}$ +i~dalej ($f_m,f_n)=(f_{r_{k-1}}, f_{r_k})$. I~jeszcze $x^{4m}+y^{4m}=z^{4m}$, +gdzie $m\xgeq 1$. $\cal A + \cal G$. ${\mit\Gamma}+\Phi$. Cyfry nautyczne +$\oldstyle 1967$} + +\tenpoint 10pt. \TEST + +\smallskip\ninepoint 9pt. \TEST + +\smallskip\eightpoint 8pt. \TEST + +\medskip\tenpoint 10pt (albo 10dd) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad \varg\quad \varv\quad \varw\quad \vary$$ +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +% $$(f\comp g)'(x)=f'(g(x))\cdot g'(x)$$ +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +%% +\smallskip\ninepoint 9pt (albo czegośtam) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad \varg\quad \varv\quad \varw\quad \vary$$ +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +%%-- $$(f\comp g)'(x)=f'(g(x))\cdot g'(x)$$ +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +%% +\smallskip \eightpoint 8pt (albo czegośtam) +$$A,\dots,Z\quad a,\dots,z\quad \Gamma, \dots,\Omega\quad + \varGamma, \dots, \varOmega\quad + \alpha,\dots,\omega\quad \varg\quad \varv\quad \varw\quad \vary$$ +\smallskip +$$\aleph_\alpha\times\aleph_\beta=\aleph_\beta\iff \alpha\le \beta$$ +\smallskip +$$\forall \varepsilon >\alpha, \Gamma_\alpha\hookrightarrow + \Gamma_\varepsilon$$ +$$|x-a| < \delta \Rightarrow |f(x)-l| < \varepsilon$$ +\smallskip +$$\underbrace {V \times \cdots \times V}_k \times + \underbrace {V \times \cdots \times V}_l \rightarrow + \underbrace {V \times \cdots \times V}_{k+l}$$ +\smallskip +$$\{x\mid x \ne x\} = \emptyset\qquad (A\cap B)^\circ\subset A^\circ + \cap B^\circ$$ +\medskip +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ +\medskip +$$\hat x+\widehat X+\widehat{xy}+\widehat{xyz}+\vec A$$ +\smallskip +$$R_{ijkl}=-R_{jikl}=-R_{ijlk}=R_{klij}$$ +\smallskip +%%-- $$(f\comp g)'(x)=f'(g(x))\cdot g'(x)$$ +\smallskip +$$f(x)=\cases{|x|&$x>a$\cr -|x|&$x\le a$\cr}$$ +\smallskip +$$\int_{-\infty}^\infty e^{-x\cdot\,x}\,dx=\sqrt\pi$$ +\smallskip +$$ X=\sum_i \xi^i {\partial\over\partial x^i}+\sum_j + x^j{\partial\over\partial \dot x^j}$$ +\smallskip +$$\prod_{j\ge0}\biggl(\sum_{k\ge0}a_{jk}z^k\biggr) + =\sum_{n\ge0}z^n\,\Biggl(\sum_ + {\scriptstyle k_0,k_1,\ldots\ge0\atop + \scriptstyle k_0+k_1+\cdots=n} + a_{0k_0}a_{1k_1}\ldots\,\Biggr)$$ +\smallskip +$$\def\\#1#2{(1-q^{#1_#2+n})} % to save typing +\Pi_R{a_1,a_2,\ldots,a_M\atopwithdelims[]b_1,b_2,\ldots,b_N} + =\prod_{n=0}^R{\\a1\\a2\ldots\\aM\over\\b1\\b2\ldots\\bN}$$ +\smallskip +$$\int_0^\infty{t-ib\over t^2+b^2}e^{iat}\,dt=e^{ab}E_1(ab),\qquad a,b>0$$ + +\bye diff --git a/Master/texmf-dist/doc/fonts/qpxqtx/t02tst.tex b/Master/texmf-dist/doc/fonts/qpxqtx/t02tst.tex new file mode 100644 index 00000000000..9cf6901dd5d --- /dev/null +++ b/Master/texmf-dist/doc/fonts/qpxqtx/t02tst.tex @@ -0,0 +1,37 @@ +%% test AMSTeX/AMSMeX + qtxmath +%% this works only when amstex is loaded!!! +\input amstex + +Fonty standardowe (CM+AMS CMEXTRA) +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\loadbold +$$\eqalign{\boldsymbol\omega &= + \boldsymbol\nu+v\boldsymbol\{(\boldkey x,\boldkey y)\boldsymbol\}\,dx + + w(\bold x,\bold y)\,dy+d\boldsymbol\varPsi\cr + d\omega &=d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\input qtxmath +\input amsqtx.tex % ładuje amsqtx.def +\input amstbold.tex % redefinicje \loadbold, dostęp do poleceń \boldsymbol + % \boldkey (zauważ różnicę między \boldkey i \bold) + +Fonty tx + TeX Gyre Termes +$$\eqalign{\omega &= \nu+v(x,y)\,dx + w(x,y)\,dy+d\varPsi\cr + d\omega &\xleq d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bigskip +\loadbold +$$\eqalign{\boldsymbol\omega &= + \boldsymbol\nu+v\boldsymbol\{(\boldkey x,\boldkey y)\boldsymbol\}\,dx + + w(\bold x,\bold y)\,dy+d\boldsymbol\varPsi\cr + d\omega &\boldsymbol\xleq d\nu+ \left({\partial w\over \partial x}- + {\partial v\over \partial y}\right) dx\wedge dy\cr}$$ + +\bye |