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The algorithm environment can be used to encapsulate the algtab environment algorithm in a floating body together with a header, a caption, etc. \listofalgorithms is defined. %package -n texlive-algobox Summary: Typeset Algobox programs Version: svn67201 License: GPL-3.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(environ.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(algobox.sty) = %{tl_version} %description -n texlive-algobox Typeset Algobox programs This LaTeX package can typeset Algobox programs almost exactly as displayed when editing with Algobox itself, using an input syntax very similar to the actual Algobox program text. It gives better results than Algobox's own LaTeX export which does not look like the editor rendition, produces standalone documents cumbersome to customize, and has arbitrary and inconsistent differences between the input syntax and the program text. This package depends upon the following other LaTeX packages: expl3, TikZ, environ, xparse, and xcolor. %package -n texlive-algorithm2e Summary: Floating algorithm environment with algorithmic keywords Version: svn44846 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(color.sty) Requires: tex(endfloat.sty) Requires: tex(ifoddpage.sty) Requires: tex(ifthen.sty) Requires: tex(relsize.sty) Requires: tex(tocbibind.sty) Requires: tex(xspace.sty) Provides: tex(algorithm2e.sty) = %{tl_version} %description -n texlive-algorithm2e Floating algorithm environment with algorithmic keywords Algorithm2e is an environment for writing algorithms. An algorithm becomes a floating object (like figure, table, etc.). The package provides macros that allow you to create different keywords, and a set of predefined key words is provided; you can change the typography of the keywords. The package allows vertical lines delimiting a block of instructions in an algorithm, and defines different sorts of algorithms such as Procedure or Function; the name of these functions may be reused in the text or in other algorithms. %package -n texlive-algorithmicx Summary: The algorithmic style you always wanted Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Provides: tex(algc.sty) = %{tl_version} Provides: tex(algcompatible.sty) = %{tl_version} Provides: tex(algmatlab.sty) = %{tl_version} Provides: tex(algorithmicx.sty) = %{tl_version} Provides: tex(algpascal.sty) = %{tl_version} Provides: tex(algpseudocode.sty) = %{tl_version} %description -n texlive-algorithmicx The algorithmic style you always wanted Algorithmicx provides a flexible, yet easy to use, way for inserting good looking pseudocode or source code in your papers. It has built in support for Pseudocode, Pascal and C, and offers powerful means to create definitions for any programming language. The user can adapt a Pseudocode style to his native language. %package -n texlive-algorithms Summary: A suite of tools for typesetting algorithms in pseudo-code Version: svn42428 License: LGPL-2.1-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(float.sty) Requires: tex(ifthen.sty) Requires: tex(keyval.sty) Provides: tex(algorithm.sty) = %{tl_version} Provides: tex(algorithmic.sty) = %{tl_version} %description -n texlive-algorithms A suite of tools for typesetting algorithms in pseudo-code Consists of two environments: algorithm and algorithmic. The algorithm package defines a floating algorithm environment designed to work with the algorithmic style. Within an algorithmic environment a number of commands for typesetting popular algorithmic constructs are available. %package -n texlive-algpseudocodex Summary: Package for typesetting pseudocode Version: svn74973 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(algorithmicx.sty) Requires: tex(etoolbox.sty) Requires: tex(fifo-stack.sty) Requires: tex(kvoptions.sty) Requires: tex(tabto.sty) Requires: tex(tikz.sty) Requires: tex(totcount.sty) Requires: tex(varwidth.sty) Provides: tex(algpseudocodex.sty) = %{tl_version} %description -n texlive-algpseudocodex Package for typesetting pseudocode This package allows typesetting pseudocode in LaTeX. It is based on algpseudocode from the algorithmicx package and uses the same syntax, but adds several new features and improvements. Notable features include customizable indent guide lines and the ability to draw boxes around parts of the code for highlighting differences. This package also has better support for long code lines spanning several lines and improved comments. %package -n texlive-algxpar Summary: Support multiple lines of pseudocode Version: svn75953 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-algorithmicx Requires: texlive-algorithmicx Requires: texlive-amsfonts Requires: texlive-etoolbox Requires: texlive-pgf Requires: texlive-pgf Requires: texlive-pgfopts Requires: texlive-ragged2e Requires: texlive-varwidth Requires: texlive-xcolor Requires: tex(algorithmicx.sty) Requires: tex(algpseudocode.sty) Requires: tex(amssymb.sty) Requires: tex(etoolbox.sty) Requires: tex(pgfmath.sty) Requires: tex(pgfopts.sty) Requires: tex(tikz.sty) Requires: tex(varwidth.sty) Requires: tex(xcolor.sty) Provides: tex(algxpar-brazilian.kw.tex) = %{tl_version} Provides: tex(algxpar-english.kw.tex) = %{tl_version} Provides: tex(algxpar.sty) = %{tl_version} %description -n texlive-algxpar Support multiple lines of pseudocode This package extends the package algorithmicx to support long text which spans over multiple lines. %package -n texlive-aligned-overset Summary: Fix alignment at \overset or \underset Version: svn47290 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(mathtools.sty) Requires: tex(xparse.sty) Provides: tex(aligned-overset.sty) = %{tl_version} %description -n texlive-aligned-overset Fix alignment at \overset or \underset This package allows the base character of \underset or \overset to be used as the alignment position for the amsmath aligned math environments. %package -n texlive-amscdx Summary: Enhanced commutative diagrams Version: svn51532 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsgen.sty) Requires: tex(graphicx.sty) Requires: tex(xcolor.sty) Provides: tex(amscdx.sty) = %{tl_version} %description -n texlive-amscdx Enhanced commutative diagrams The original amscd package provides a CD environment that emulates the commutative diagram capabilities of AMS-TeX version 2.x. This means that only simple rectangular diagrams are supported, with no diagonal arrows or more exotic features. This enhancement package implements double ("fat"), dashed, and bidirectional arrows (left-right and up-down), and color attributes for arrows and their annotations. The restriction to rectangular geometry remains. This nevertheless allows the drawing of a much broader class of "commutative-diagram-like" diagrams. This update, 2.2x of 2019-07-02, fixes the dashed-arrows parts placement bug, and adds the package option 'lyx', for use with lyx to prevent conflict with the already loaded amscd. The packages xcolor and graphicx are made required. %package -n texlive-annotate-equations Summary: Easily annotate math equations using TikZ Version: svn67044 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifluatex.sty) Requires: tex(pdftexcmds.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(annotate-equations.sty) = %{tl_version} %description -n texlive-annotate-equations Easily annotate math equations using TikZ This package provides commands that make it easy to highlight terms in equations and add annotation labels using TikZ. It should work with pdfLaTeX as well as LuaLaTeX. %package -n texlive-apxproof Summary: Proofs in appendix Version: svn75921 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsthm.sty) Requires: tex(bibunits.sty) Requires: tex(catchfile.sty) Requires: tex(environ.sty) Requires: tex(etoolbox.sty) Requires: tex(fancyvrb.sty) Requires: tex(ifthen.sty) Requires: tex(kvoptions.sty) Provides: tex(apxproof.sty) = %{tl_version} %description -n texlive-apxproof Proofs in appendix The package makes it easier to write articles where proofs and other material are deferred to the appendix. The appendix material is written in the LaTeX code along with the main text which it naturally complements, and it is automatically deferred. The package can automatically send proofs to the appendix, can repeat in the appendix the theorem environments stated in the main text, can section the appendix automatically based on the sectioning of the main text, and supports a separate bibliography for the appendix material. It depends on the following other packages: amsthm, bibunits (if the bibliography option is set to separate), environ, etoolbox, fancyvrb, ifthen, and kvoptions. %package -n texlive-atableau Summary: A LaTeX package for symmetric group combinatorics Version: svn73576 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(tikz.sty) Provides: tex(atableau.sty) = %{tl_version} %description -n texlive-atableau A LaTeX package for symmetric group combinatorics A LaTeX package for symmetric group combinatorics, with commands for Young diagrams, tableaux, tabloids, skew tableaux, shifted tableaux, ribbon tableaux, multitableaux, abacuses. These commands are intended to be easy to use and easy to customise. In particular, TikZ styling can be added to the components of these diagrams and common conventions and idioms are supported using a key-value interface. All diagrams can be used as standalone commands or as part of tikzpicture environments. %package -n texlive-autobreak Summary: Simple line breaking of long formulae Version: svn43337 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(catchfile.sty) Provides: tex(autobreak.sty) = %{tl_version} %description -n texlive-autobreak Simple line breaking of long formulae This package implements a simple mechanism of line/page breaking within the align environment of the amsmath package; new line characters are considered as possible candidates for the breaks and the package tries to put breaks at adequate places. It is suitable for computer-generated long formulae with many terms. %package -n texlive-backnaur Summary: Typeset Backus Naur Form definitions Version: svn54080 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(backnaur.sty) = %{tl_version} %description -n texlive-backnaur Typeset Backus Naur Form definitions The package typesets Backus-Naur Form (BNF) definitions. It prints formatted lists of productions, with numbers if required. It can also print in-line BNF expressions using math mode. %package -n texlive-begriff Summary: Typeset Begriffschrift Version: svn15878 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Provides: tex(begriff.sty) = %{tl_version} %description -n texlive-begriff Typeset Begriffschrift The package defines maths mode commands for typesetting Frege's Begriffschrift. %package -n texlive-binomexp Summary: Calculate Pascal's triangle Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(ifthen.sty) Provides: tex(binomexp.sty) = %{tl_version} %description -n texlive-binomexp Calculate Pascal's triangle The package calculates and prints rows of Pascal's triangle. It may be used: simply to print successive rows of the triangle, or to print the rows inside an array or tabular. %package -n texlive-biocon Summary: Typesetting biological species names Version: svn15878 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(keyval.sty) Provides: tex(biocon-old.sty) = %{tl_version} Provides: tex(biocon.sty) = %{tl_version} %description -n texlive-biocon Typesetting biological species names The biocon--biological conventions--package aids the typesetting of some biological conventions. At the moment, it makes a good job of typesetting species names (and ranks below the species level). A distinction is made between the Plant, Fungi, Animalia and Bacteria kingdoms. There are default settings for the way species names are typeset, but they can be customized. Different default styles are used in different situations. %package -n texlive-bitpattern Summary: Typeset bit pattern diagrams Version: svn39073 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(keyval.sty) Requires: tex(multido.sty) Provides: tex(bitpattern.sty) = %{tl_version} %description -n texlive-bitpattern Typeset bit pattern diagrams A package to typeset bit pattern diagrams such as those used to describe hardware, data format or protocols. %package -n texlive-bodeplot Summary: Draw Bode, Nyquist and Nichols plots with gnuplot or pgfplots Version: svn71000 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifplatform.sty) Requires: tex(pdftexcmds.sty) Requires: tex(pgfplots.sty) Requires: tex(xparse.sty) Provides: tex(bodeplot-2024-02-06.sty) = %{tl_version} Provides: tex(bodeplot.sty) = %{tl_version} %description -n texlive-bodeplot Draw Bode, Nyquist and Nichols plots with gnuplot or pgfplots This is a LaTeX package to plot Bode, Nichols, and Nyquist diagrams. It provides added functionality over the similar bodegraph package: New \BodeZPK and \BodeTF commands to generate Bode plots of any transfer function given either poles, zeros, gain, and delay, or numerator and denominator coefficients and delay Support for unstable poles and zeros. Support for complex poles and zeros. Support for general stable and unstable second order transfer functions. Support for both Gnuplot (default) and pgfplots (package option pgf). Support for linear and asymptotic approximation of magnitude and phase plots of any transfer function given poles, zeros, and gain. %package -n texlive-bohr Summary: Simple atom representation according to the Bohr model Version: svn62977 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(elements.sty) Requires: tex(pgfopts.sty) Requires: tex(tikz.sty) Provides: tex(bohr.sty) = %{tl_version} %description -n texlive-bohr Simple atom representation according to the Bohr model The package provides means for the creation of simple Bohr models of atoms up to the atomic number 112. In addition, commands are provided to convert atomic numbers to element symbols or element names and vice versa. %package -n texlive-boldtensors Summary: Bold latin and greek characters through simple prefix characters Version: svn15878 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Provides: tex(boldtensors.sty) = %{tl_version} %description -n texlive-boldtensors Bold latin and greek characters through simple prefix characters This package provides bold latin and greek characters within \mathversion{normal}, by using ~ and " as prefix characters. %package -n texlive-bosisio Summary: A collection of packages by Francesco Bosisio Version: svn16989 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(float.sty) Requires: tex(graphics.sty) Requires: tex(subfigure.sty) Requires: tex(xspace.sty) Provides: tex(accenti.sty) = %{tl_version} Provides: tex(dblfont.sty) = %{tl_version} Provides: tex(envmath.sty) = %{tl_version} Provides: tex(evenpage.sty) = %{tl_version} Provides: tex(graphfig.sty) = %{tl_version} Provides: tex(mathcmd.sty) = %{tl_version} Provides: tex(quotes.sty) = %{tl_version} Provides: tex(sobolev.sty) = %{tl_version} %description -n texlive-bosisio A collection of packages by Francesco Bosisio A collection of packages containing: accenti dblfont; envmath; evenpage; graphfig; mathcmd; quotes; and sobolev. %package -n texlive-bpchem Summary: Typeset chemical names, formulae, etc. Version: svn75878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xspace.sty) Provides: tex(bpchem.sty) = %{tl_version} %description -n texlive-bpchem Typeset chemical names, formulae, etc. The package provides support for typesetting simple chemical formulae, those long IUPAC compound names, and some chemical idioms. It also supports the labelling of compounds and reference to labelled compounds. %package -n texlive-bracealign Summary: Align braces under and over math expressions Version: svn75001 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(bracealign.sty) = %{tl_version} %description -n texlive-bracealign Align braces under and over math expressions A LaTeX package to align braces under and over math expressions. A new environment called bracealign is provided, inside which braces and brackets drawn with the commands \underbrace, \overbrace, \underbracket, \overbracket, \underparen or \overparenare vertically aligned. The package also allows adding support for new commands. %package -n texlive-bropd Summary: Simplified brackets and differentials in LaTeX Version: svn35383 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(bropd.sty) = %{tl_version} %description -n texlive-bropd Simplified brackets and differentials in LaTeX The package simplifies the process of writing differential operators and brackets in LaTeX. The commands facilitate the easy manipulation of equations involving brackets and allow partial differentials to be expressed in an alternate form. %package -n texlive-broydensolve Summary: Solve a system of equations with Broyden's good method Version: svn75883 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(broydensolve.sty) = %{tl_version} %description -n texlive-broydensolve Solve a system of equations with Broyden's good method This package implements Broyden's good method to solve a system of equations. It is also possible to use coordinates defined by TikZ as known and unknown variables. %package -n texlive-bussproofs Summary: Proof trees in the style of the sequent calculus Version: svn54080 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(bussproofs.sty) = %{tl_version} %description -n texlive-bussproofs Proof trees in the style of the sequent calculus The package allows the construction of proof trees in the style of the sequent calculus and many other proof systems. One novel feature of the macros is they support the horizontal alignment according to some centre point specified with the command \fCenter. This is the style often used in sequent calculus proofs. The package works in a Plain TeX document, as well as in LaTeX; an exposition of the commands available is given in the package file itself. %package -n texlive-bussproofs-extra Summary: Extra commands for bussproofs.sty Version: svn51299 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(bussproofs.sty) Requires: tex(tikz.sty) Provides: tex(bussproofs-extra.sty) = %{tl_version} %description -n texlive-bussproofs-extra Extra commands for bussproofs.sty This package provides additional functionality for bussproofs.sty; specifically, it allows for typesetting of entire (sub)deductions. %package -n texlive-bytefield Summary: Create illustrations for network protocol specifications Version: svn74416 License: LPPL-1.3a Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(keyval.sty) Provides: tex(bytefield.sty) = %{tl_version} %description -n texlive-bytefield Create illustrations for network protocol specifications The bytefield package helps the user create illustrations for network protocol specifications and anything else that utilizes fields of data. These illustrations show how the bits and bytes are laid out in a packet or in memory. %package -n texlive-calculation Summary: Typesetting reasoned calculations, also called calculational proofs Version: svn35973 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(delarray.sty) Provides: tex(calculation.sty) = %{tl_version} %description -n texlive-calculation Typesetting reasoned calculations, also called calculational proofs The calculation environment formats reasoned calculations, also called calculational proofs. The notion of reasoned calculations or calculational proofs was originally advocated by Wim Feijen and Edsger Dijkstra. The package accepts options fleqn and leqno (with the same effect as the LaTeX options fleqn and leqno, or may inherit the options from the document class). It allows steps and expressions to be numbered (by LaTeX equation numbers, obeying the LaTeX \label command to refer to these numbers), and a step doesn't take vertical space if its hint is empty. An expression in a calculation can be given a comment; it is placed at the side opposite to the equation numbers. Calculations are allowed inside hints although numbering and commenting is then disabled. %package -n texlive-cartonaugh Summary: A LuaLaTeX package for drawing karnaugh maps with up to 6 variables Version: svn59938 License: LicenseRef-cc-by-sa-3 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(iftex.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(cartonaugh.sty) = %{tl_version} %description -n texlive-cartonaugh A LuaLaTeX package for drawing karnaugh maps with up to 6 variables This package, a fork of 2pi's karnaugh-map package, draws karnaugh maps with 2, 3, 4, 5, and 6 variables. It also contains commands for filling the karnaugh map with terms semi-automatically or manually. Last but not least it contains commands for drawing implicants on top of the map. The name "cartonaugh" is a portmanteau of "cartographer" and "karnaugh". The package needs LuaLaTeX and depends on TikZ, xparse, and xstring. %package -n texlive-cascade Summary: Constructions with braces to present mathematical demonstrations Version: svn65757 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(cascade.sty) = %{tl_version} %description -n texlive-cascade Constructions with braces to present mathematical demonstrations The LaTeX package cascade provides a command \Cascade to do constructions to present mathematical demonstrations with successive braces for the deductions. %package -n texlive-causets Summary: Draw causal set (Hasse) diagrams Version: svn74247 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(causets.sty) = %{tl_version} %description -n texlive-causets Draw causal set (Hasse) diagrams This LaTeX package uses TikZ to generate (Hasse) diagrams for causal sets (causets) to be used inline with text or in mathematical expressions. The macros can also be used in the tikzpicture environment to annotate or modify a diagram, as shown with some examples in the documentation. %package -n texlive-ccfonts Summary: Support for Concrete text and math fonts in LaTeX Version: svn61431 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(ccfonts.sty) = %{tl_version} %description -n texlive-ccfonts Support for Concrete text and math fonts in LaTeX LaTeX font definition files for the Concrete fonts and a LaTeX package for typesetting documents using Concrete as the default font family. The files support OT1, T1, TS1, and Concrete mathematics including AMS fonts (Ulrik Vieth's concmath). %package -n texlive-ccool Summary: A key-value document command parser Version: svn60600 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(lambdax.sty) Requires: tex(xparse.sty) Provides: tex(ccool.sty) = %{tl_version} %description -n texlive-ccool A key-value document command parser This package provides a key-value interface, \Ccool, on top of xparse's document command parser. Global options control input processing and its expansion. By default, they are set to meet likely requirements, depending on context: the selected language, and which of text and math mode is active. These options can be overridden inline. This versality could find its use, for example, to encode notational conventions (such as \Real - \mathbb{R}) at the point where they are introduced in the document ("Let R denote real numbers"). Polymorphic commands can be generated by parameterizing the keys (for instance, one parameter value for style, another for a property). User input to \Ccool can optionally be serialized. This can useful for typesetting documents sharing the same notation. %package -n texlive-chemarrow Summary: Arrows for use in chemistry Version: svn17146 License: LicenseRef-Public-Domain Requires: texlive-base Requires: texlive-kpathsea Provides: tex(chemarrow.sty) = %{tl_version} %description -n texlive-chemarrow Arrows for use in chemistry This bundle consists of a font (available as Metafont source, MetaPost source, and generated type 1 versions), and a package to use it. The arrows in the font are designed to look more like those in chemistry text-books than do Knuth's originals. %package -n texlive-chemcompounds Summary: Simple consecutive numbering of chemical compounds Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(chemcompounds.sty) = %{tl_version} %description -n texlive-chemcompounds Simple consecutive numbering of chemical compounds The chemcompounds package allows for a simple consecutive numbering of chemical compounds. Optionally, it is possible to supply a custom name for each compound. The package differs from the chemcono package by not generating an odd-looking list of compounds inside the text. %package -n texlive-chemcono Summary: Support for compound numbers in chemistry documents Version: svn17119 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(color.sty) Provides: tex(chemcono.sty) = %{tl_version} Provides: tex(drftcono.sty) = %{tl_version} Provides: tex(showkeysff.sty) = %{tl_version} %description -n texlive-chemcono Support for compound numbers in chemistry documents A LaTeX package for using compound numbers in chemistry documents. It works like \cite and the \thebibliography, using \fcite and \theffbibliography instead. It allows compound names in documents to be numbered and does not affect the normal citation routines. %package -n texlive-chemexec Summary: Creating (chemical) exercise sheets Version: svn21632 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(accents.sty) Requires: tex(amsmath.sty) Requires: tex(calc.sty) Requires: tex(framed.sty) Requires: tex(ifthen.sty) Requires: tex(mhchem.sty) Requires: tex(tikz.sty) Requires: tex(ulem.sty) Requires: tex(xcolor.sty) Requires: tex(xkeyval.sty) Provides: tex(chemexec.sty) = %{tl_version} %description -n texlive-chemexec Creating (chemical) exercise sheets The package provides environments and commands that the author needed when preparing exercise sheets and other teaching material. In particular, the package supports the creation of exercise sheets, with separating printing of solutions %package -n texlive-chemformula Summary: Command for typesetting chemical formulas and reactions Version: svn61719 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-units Requires: tex(amsmath.sty) Requires: tex(nicefrac.sty) Requires: tex(tikz.sty) Requires: tex(xfrac.sty) Provides: tex(chemformula.sty) = %{tl_version} %description -n texlive-chemformula Command for typesetting chemical formulas and reactions The package provides a command to typeset chemical formulas and reactions in support of other chemistry packages (such as chemmacros). The package used to be distributed as a part of chemmacros. %package -n texlive-chemformula-ru Summary: Using the chemformula package with babel-russian settings Version: svn71883 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(chemformula.sty) Provides: tex(chemformula-ru.sty) = %{tl_version} %description -n texlive-chemformula-ru Using the chemformula package with babel-russian settings The chemformula package and babel-russian settings (russian.ldf) both define macros named "\ch". The package chemformula-ru undefines babel's macro to prevent an error when both packages are loaded together. Optionally it redefines the \cosh macro to print the hyperbolic cosine in Russian notation and/or defines a new macro \Ch for that purpose. %package -n texlive-chemgreek Summary: Upright Greek letters in chemistry Version: svn53437 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Requires: tex(xparse.sty) Provides: tex(chemgreek.sty) = %{tl_version} %description -n texlive-chemgreek Upright Greek letters in chemistry The package provides upright Greek letters in support of other chemistry packages (such as chemmacros). The package used to be distributed as a part of chemmacros. %package -n texlive-chemmacros Summary: A collection of macros to support typesetting chemistry documents Version: svn62655 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Requires: tex(bm.sty) Requires: tex(chemgreek.sty) Requires: tex(elements.sty) Requires: tex(mathtools.sty) Requires: tex(relsize.sty) Requires: tex(siunitx.sty) Requires: tex(tikz.sty) Requires: tex(translations.sty) Requires: tex(xfrac.sty) Requires: tex(xparse.sty) Provides: tex(chemmacros-2015-02-08.sty) = %{tl_version} Provides: tex(chemmacros-2020-03-07.sty) = %{tl_version} Provides: tex(chemmacros.sty) = %{tl_version} %description -n texlive-chemmacros A collection of macros to support typesetting chemistry documents The bundle offers a collection of macros and commands which are intended to make typesetting chemistry documents faster and more convenient. Coverage includes some nomenclature commands, oxidation numbers, thermodynamic data, newman projections, etc. The package relies on the following supporting packages: chemformula, providing a command for typesetting chemical formulae and reactions (doing a similar task to that of mhchem); chemgreek, offering support for use of greek letters; and ghsystem, providing for the UN globally harmonised chemical notation. The packages are written using current versions of the experimental LaTeX 3 coding conventions and the LaTeX 3 support packages. %package -n texlive-chemnum Summary: A method for numbering chemical compounds Version: svn57490 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(chemgreek.sty) Requires: tex(psfrag.sty) Requires: tex(translations.sty) Requires: tex(xparse.sty) Provides: tex(chemnum.sty) = %{tl_version} %description -n texlive-chemnum A method for numbering chemical compounds The package defines a \label- and \ref-like commands for compound numbers. The package requires LaTeX3 packages expl3 (from the l3kernel bundle) as well as xparse and l3keys2e (from the l3packages bundle). %package -n texlive-chemobabel Summary: Convert chemical structures from ChemDraw, MDL molfile or SMILES using Open Babel Version: svn64778 License: BSD-2-Clause Requires: texlive-base Requires: texlive-kpathsea Requires: tex(graphicx.sty) Requires: tex(verbatim.sty) Provides: tex(chemobabel.sty) = %{tl_version} %description -n texlive-chemobabel Convert chemical structures from ChemDraw, MDL molfile or SMILES using Open Babel This package provides a way to convert and include chemical structure graphics from various chemical formats, such as ChemDraw files, MDL molfile or SMILES notations using Open Babel. To use this LaTeX package, it is necessary to enable execution of the following external commands via latex -shell-escape. obabel (Open Babel) inkscape or rsvg-convert (for SVG -> PDF/EPS conversion) pdfcrop or ps2eps (optional; for cropping large margins of PDF/EPS) %package -n texlive-chemplants Summary: Symbology to draw chemical plants with TikZ Version: svn60606 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(tikz.sty) Provides: tex(chemplants.sty) = %{tl_version} %description -n texlive-chemplants Symbology to draw chemical plants with TikZ This package offers tools to draw simple or barely complex schemes of chemical processes. The package defines several standard symbols and styles to draw process units and streams. The guiding light of the package is the UNICHIM regulation. All of the symbols and styles are defined using tools of the TikZ package, thus a basic knowledge of the logic of this powerful tool is required to profitably use chemplants. %package -n texlive-chemschemex Summary: Typeset and cross-reference chemical schemes based on TikZ code Version: svn46723 License: LPPL-1.2 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(fancylabel.sty) Requires: tex(graphicx.sty) Requires: tex(suffix.sty) Requires: tex(tikz.sty) Requires: tex(xargs.sty) Requires: tex(xifthen.sty) Requires: tex(xkeyval.sty) Provides: tex(chemschemex.sty) = %{tl_version} %description -n texlive-chemschemex Typeset and cross-reference chemical schemes based on TikZ code The package provides a comfortable means of typesetting chemical schemes, and also offers automatic structure referencing. %package -n texlive-chemsec Summary: Automated creation of numeric entity labels Version: svn46972 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Provides: tex(chemsec.sty) = %{tl_version} %description -n texlive-chemsec Automated creation of numeric entity labels Packages provides creation of sequential numeric labels for entities in a document. The motivating example is chemical structures in a scientific document. The package can automatically output a full object name and label on the first occurence in the document and just labels only on subsequent references. %package -n texlive-chemstyle Summary: Writing chemistry with style Version: svn31096 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(SIunits.sty) Requires: tex(amstext.sty) Requires: tex(bpchem.sty) Requires: tex(caption.sty) Requires: tex(chemcompounds.sty) Requires: tex(float.sty) Requires: tex(floatrow.sty) Requires: tex(kvoptions.sty) Requires: tex(psfrag.sty) Requires: tex(siunitx.sty) Requires: tex(varioref.sty) Requires: tex(xspace.sty) Provides: tex(chemscheme.sty) = %{tl_version} Provides: tex(chemstyle.sty) = %{tl_version} %description -n texlive-chemstyle Writing chemistry with style Chemstyle has been developed as a successor to the LaTeX package provided by the rsc bundle. The package provides an extensible system for formatting chemistry documents according to the conventions of a number of leading journals. It also provides some handy chemistry-related macros. Chemstyle is much enhanced compared to its predecessor, and users of rsc are strongly encouraged to migrate (all of the additional macros in the rsc LaTeX package are present in chemstyle). The package chemscheme is distributed with chemstyle; chemstyle itself incorporates ideas that come from the trivfloat package; the documentation uses the auto-pst-pdf package. %package -n texlive-clrscode Summary: Typesets pseudocode as in Introduction to Algorithms Version: svn51136 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(latexsym.sty) Provides: tex(clrscode.sty) = %{tl_version} %description -n texlive-clrscode Typesets pseudocode as in Introduction to Algorithms This package allows you to typeset pseudocode in the style of Introduction to Algorithms, Second edition, by Cormen, Leiserson, Rivest, and Stein. The package was written by the authors. You use the commands the same way the package's author did when writing the book, and your output will look just like the pseudocode in the text. %package -n texlive-clrscode3e Summary: Typesets pseudocode as in Introduction to Algorithms Version: svn51137 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(graphics.sty) Provides: tex(clrscode3e.sty) = %{tl_version} %description -n texlive-clrscode3e Typesets pseudocode as in Introduction to Algorithms This package allows you to typeset pseudocode in the style of Introduction to Algorithms, Third edition, by Cormen, Leiserson, Rivest, and Stein. The package was written by the authors. Use the commands the same way the package's author did when writing the book, and your output will look just like the pseudocode in the text. %package -n texlive-codeanatomy Summary: Typeset code with annotations Version: svn65648 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(codeanatomy.sty) = %{tl_version} %description -n texlive-codeanatomy Typeset code with annotations The idea of this Package is to typeset illustrations of pieces of code with annotations on each single part of code (Code Anatomy). The origin of this idea are code illustrations from the book "Computer Science: An Interdisciplinary Approach" from Robert Sedgewick and Kevin Wayne. The package depends on expl3, xparse, and TikZ. %package -n texlive-coloredtheorem Summary: A colourful boxed theorem environment Version: svn74812 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tcolorbox.sty) Provides: tex(coloredtheorem.sty) = %{tl_version} %description -n texlive-coloredtheorem A colourful boxed theorem environment This packages provides a colourful boxed theorem environment, combining tcolorbox and breakable boxes. %package -n texlive-commath Summary: Mathematics typesetting support Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(ifthen.sty) Provides: tex(commath.sty) = %{tl_version} %description -n texlive-commath Mathematics typesetting support Provides a range of differential, partial differential and delimiter commands, together with a \fullfunction (function, with both domain and range, and function operation) and various reference commands. %package -n texlive-commutative-diagrams Summary: CoDi: Commutative Diagrams for TeX Version: svn71053 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(commutative-diagrams.sty) = %{tl_version} Provides: tex(commutative-diagrams.tex) = %{tl_version} Provides: tex(kodi.sty) = %{tl_version} Provides: tex(t-commutative-diagrams.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.bapto.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.diorthono.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.ektropi.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.katharizo.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.koinos.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.mandyas.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.mitra.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.ozos.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.ramma.code.tex) = %{tl_version} Provides: tex(tikzlibrarycommutative-diagrams.velos.code.tex) = %{tl_version} %description -n texlive-commutative-diagrams CoDi: Commutative Diagrams for TeX This package provides a TikZ library for making commutative diagrams easy to design, parse and tweak. %package -n texlive-complexity Summary: Computational complexity class names Version: svn45322 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Provides: tex(complexity.sty) = %{tl_version} Provides: tex(mycomplexity.sty) = %{tl_version} %description -n texlive-complexity Computational complexity class names Complexity is a LaTeX package that defines commands to typeset Computational Complexity Classes such as $\P$ and $\NP$ (as well as hundreds of others). It also offers several options including which font classes are typeset in and how many are defined (all of them or just the basic, most commonly used ones). The package has no dependencies other than the standard ifthen package. %package -n texlive-complexpolylongdiv Summary: Typesetting (complex) polynomial long division Version: svn73238 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(complexpolylongdiv.sty) = %{tl_version} %description -n texlive-complexpolylongdiv Typesetting (complex) polynomial long division This package provides a simple interface for typesetting (complex) polynomial long division. %package -n texlive-computational-complexity Summary: Class for the journal Computational Complexity Version: svn44847 License: LPPL-1.2 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(breakcites.sty) Requires: tex(breakurl.sty) Requires: tex(draftcopy.sty) Requires: tex(environ.sty) Requires: tex(graphics.sty) Requires: tex(hyperref.sty) Requires: tex(lineno.sty) Requires: tex(natbib.sty) Requires: tex(theorem.sty) Requires: tex(url.sty) Requires: tex(xcolor.sty) Requires: tex(xkeyval.sty) Provides: tex(cc-cls.sty) = %{tl_version} Provides: tex(cc2cite.sty) = %{tl_version} Provides: tex(cc4amsart.sty) = %{tl_version} Provides: tex(cc4apjrnl.sty) = %{tl_version} Provides: tex(cc4elsart.sty) = %{tl_version} Provides: tex(cc4jT.sty) = %{tl_version} Provides: tex(cc4llncs.sty) = %{tl_version} Provides: tex(cc4siamltex.sty) = %{tl_version} Provides: tex(cc4svjour.sty) = %{tl_version} Provides: tex(ccalgo.sty) = %{tl_version} Provides: tex(ccaux.sty) = %{tl_version} Provides: tex(cccite.sty) = %{tl_version} Provides: tex(ccdbs.sty) = %{tl_version} Provides: tex(cclayout.sty) = %{tl_version} Provides: tex(ccproof.sty) = %{tl_version} Provides: tex(ccqed.sty) = %{tl_version} Provides: tex(ccref.sty) = %{tl_version} Provides: tex(ccreltx.sty) = %{tl_version} Provides: tex(ccthm.sty) = %{tl_version} Provides: tex(relabel.sty) = %{tl_version} Provides: tex(thcc.sty) = %{tl_version} %description -n texlive-computational-complexity Class for the journal Computational Complexity The LaTeX2e class cc was written for the journal Computational Complexity, and it can also be used for a lot of other articles. You may like it since it contains a lot of features such as more intelligent references, a set of theorem definitions, an algorithm environment, and more. The class requires natbib. %package -n texlive-concmath Summary: Concrete Math fonts Version: svn17219 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amssymb.sty) Requires: tex(exscale.sty) Provides: tex(concmath.sty) = %{tl_version} %description -n texlive-concmath Concrete Math fonts A LaTeX package and font definition files to access the Concrete mathematics fonts, which were derived from Computer Modern math fonts using parameters from Concrete Roman text fonts. %package -n texlive-concrete Summary: Concrete Roman fonts Version: svn57963 License: LicenseRef-Knuth Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-concrete Concrete Roman fonts Concrete Roman fonts, designed by Donald E. Knuth, originally for use with Euler mathematics fonts. Alternative mathematics fonts, based on the concrete 'parameter set' are available as the concmath fonts bundle. LaTeX support is offered by the beton, concmath and ccfonts packages. T1- and TS1-encoded versions of the fonts are available in the ecc bundle, and Adobe Type 1 versions of the ecc fonts are part of the cm-super bundle. %package -n texlive-conteq Summary: Typeset multiline continued equalities Version: svn37868 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(environ.sty) Provides: tex(conteq.sty) = %{tl_version} %description -n texlive-conteq Typeset multiline continued equalities The package provides an environment conteq, which will lay out systems of continued equalities (or inequalities). Several variant layouts of the equalities are provided, and the user may define their own. The package is written using LaTeX 3 macros. %package -n texlive-cora-macs Summary: Macros for continuous sets and neural networks in the context of cyber-physical systems Version: svn73101 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(graphics.sty) Requires: tex(keyval.sty) Requires: tex(mathtools.sty) Requires: tex(pgfplots.sty) Requires: tex(tikzscale.sty) Requires: tex(xcolor.sty) Requires: tex(xifthen.sty) Requires: tex(xstring.sty) Provides: tex(cora-macs.sty) = %{tl_version} %description -n texlive-cora-macs Macros for continuous sets and neural networks in the context of cyber-physical systems This LaTeX package has been designed to assist in the representation and manipulation of continuous sets, operations, neural networks, and color schemes tailored for use in the context of cyber-physical systems. It provides a comprehensive set of macros that streamline the process of documenting complex mathematical objects and operations. %package -n texlive-correctmathalign Summary: Correct spacing of the alignment in expressions Version: svn44131 License: BSD-3-Clause Requires: texlive-base Requires: texlive-kpathsea Provides: tex(correctmathalign.sty) = %{tl_version} %description -n texlive-correctmathalign Correct spacing of the alignment in expressions This package realigns the horizontal spacing of the alignments in some mathematical environments. %package -n texlive-cryptocode Summary: Typesetting pseudocode, protocols, game-based proofs and black-box reductions in cryptography Version: svn60249 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(array.sty) Requires: tex(calc.sty) Requires: tex(centernot.sty) Requires: tex(environ.sty) Requires: tex(etex.sty) Requires: tex(etoolbox.sty) Requires: tex(forloop.sty) Requires: tex(ifthen.sty) Requires: tex(mathtools.sty) Requires: tex(pbox.sty) Requires: tex(pgf.sty) Requires: tex(suffix.sty) Requires: tex(tikz.sty) Requires: tex(varwidth.sty) Requires: tex(xargs.sty) Requires: tex(xcolor.sty) Requires: tex(xkeyval.sty) Requires: tex(xparse.sty) Provides: tex(cryptocode-2018-11-11.sty) = %{tl_version} Provides: tex(cryptocode-2020-04-24.sty) = %{tl_version} Provides: tex(cryptocode.sty) = %{tl_version} %description -n texlive-cryptocode Typesetting pseudocode, protocols, game-based proofs and black-box reductions in cryptography The cryptocode package provides a set of macros to ease the typesetting of pseudocode, algorithms and protocols. In addition it comes with a wide range of tools to typeset cryptographic papers. This includes simple predefined commands for concepts such as a security parameter or advantage terms but also flexible and powerful environments to layout game-based proofs or black-box reductions. %package -n texlive-cs-techrep Summary: Technical Reports in Computer Science and Software Engineering Version: svn74811 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-cs-techrep Technical Reports in Computer Science and Software Engineering This package provides a class for the creation of technical reports in computer science and software engineering. The style is a two-column format similar to IEEE. It is intended for lab reports and provides a beginner-friendly template example. %package -n texlive-csassignments Summary: A wrapper for article with macros and customizations for computer science assignments Version: svn63992 License: MIT Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-csassignments A wrapper for article with macros and customizations for computer science assignments This class wraps the default article and extends it for a homogeneous look of hand-in assignments at university (RWTH Aachen University, Computer Science Department), specifically in the field of computer science, but easily extensible to other fields. It provides macros for structuring exercises, aggregating points, and displaying a grading table, as well as several macros for easier math mode usage. %package -n texlive-csthm Summary: Customized theorem environments for computer science documents Version: svn73506 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(amsthm.sty) Requires: tex(cleveref.sty) Requires: tex(enumitem.sty) Requires: tex(thmtools.sty) Requires: tex(xcolor.sty) Provides: tex(csthm.sty) = %{tl_version} %description -n texlive-csthm Customized theorem environments for computer science documents This package provides customized theorem-like environments specifically designed for computer science documents. It offers a set of pre-defined theorem styles and environments to streamline the creation of theorems, definitions, remarks, and other common structures in computer science papers and documents. Features: Predefined theorem styles tailored for computer science Environments for theorems, lemmas, definitions, examples, remarks, and more Special environments for cases and axioms Customizable accent color Optional cleveref support for enhanced cross-referencing The package requires the following packages to be installed: amsmath, amssymb, amsthm, enumitem, and thmtools. If using the cleveref option, hyperref and cleveref are also required. %package -n texlive-cvss Summary: Compute and display CVSS base scores Version: svn65169 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(hyperref.sty) Requires: tex(tcolorbox.sty) Requires: tex(xstring.sty) Provides: tex(cvss.sty) = %{tl_version} %description -n texlive-cvss Compute and display CVSS base scores The Common Vulnerability Scoring System (CVSS) is an open framework for communicating the characteristics and severity of software vulnerabilities. CVSS consists of three metric groups: Base, Temporal, and Environmental. This package allows the user to compute CVSS3.1 base scores and use them in documents, i.e. it only deals with the Base score. Temporal and Environental scores will be part of a future release. More information can be found at https://www.first.org/cvss/specification-document. %package -n texlive-decision-table Summary: An easy way to create Decision Model and Notation decision tables Version: svn60673 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(decision-table.sty) = %{tl_version} %description -n texlive-decision-table An easy way to create Decision Model and Notation decision tables The decision-table package allows for an easy way to generate decision tables in the Decision Model and Notation (DMN) format. This package ensures consistency in the tables (i.e. fontsize), and is thus a better alternative to inserting tables via images. The decision-table package adds the \dmntable command, with which tables can be created. This command expands into a tabular, so it can be used within a table or figure environment. Furthermore, this allows labels and captions to be added seamlessly. It is also possible to place multiple DMN tables in one table/figure environment. The package relies on nicematrix and l3keys2e. %package -n texlive-delim Summary: Simplify typesetting mathematical delimiters Version: svn23974 License: LPPL-1.2 Requires: texlive-base Requires: texlive-kpathsea Provides: tex(delim.sty) = %{tl_version} %description -n texlive-delim Simplify typesetting mathematical delimiters The package permits simpler control of delimiters without excessive use of \big... commands (and the like). %package -n texlive-delimseasy Summary: Delimiter commands that are easy to use and resize Version: svn39589 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(delimseasy.sty) = %{tl_version} %description -n texlive-delimseasy Delimiter commands that are easy to use and resize This package provides commands to give a consistent, easy-to-remember, easy to edit way to control the size and blackness of delimiters: append 1-4 "b"s to command for larger sizes; prepend "B" for for boldface. These commands reduce the likelihood of incomplete delimeter pairs and typically use fewer characters than the LaTeX default. %package -n texlive-delimset Summary: Typeset and declare sets of delimiters with convenient size control Version: svn74779 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Provides: tex(delimset.sty) = %{tl_version} %description -n texlive-delimset Typeset and declare sets of delimiters with convenient size control delimset is a LaTeX2e package to typeset and declare sets of delimiters in math mode whose size can be adjusted conveniently. %package -n texlive-derivative Summary: Nice and easy derivatives Version: svn69746 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(derivative.sty) = %{tl_version} %description -n texlive-derivative Nice and easy derivatives Typesetting derivatives and differentials in a consistent way are clumsy and require care to ensure the preferred formatting. Several packages have been developed for this purpose, each with its own features and drawbacks, with the most ambitious one being diffcoeff. While this package is comparable to diffcoeff in terms of features, it takes a different approach. One difference is this package provides more options to tweak the format of the derivatives and differentials. However, the automatic calculation of the total order isn't as developed as the one in diffcoeff. This package makes it easy to write derivatives and differentials consistently with its predefined commands. It also provides a set of commands that can define custom derivatives and differential operators. The options follow a consistent naming scheme making them easy to use and understand. %package -n texlive-diffcoeff Summary: Write differential coefficients easily and consistently Version: svn68838 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(mleftright.sty) Requires: tex(xparse.sty) Provides: tex(diffcoeff-doc.def) = %{tl_version} Provides: tex(diffcoeff.sty) = %{tl_version} Provides: tex(diffcoeff4.sty) = %{tl_version} Provides: tex(diffcoeff5.def) = %{tl_version} %description -n texlive-diffcoeff Write differential coefficients easily and consistently This package allows the easy and consistent writing of ordinary, partial and other derivatives of arbitrary (algebraic or numeric) order. For mixed partial derivatives, the total order of differentiation is calculated by the package. Optional arguments allow specification of points of evaluation (ordinary derivatives), or variables held constant (partial derivatives), and the placement of the differentiand (numerator or appended). The package is built on xtemplate and the configurability it enables, extending to differentials (including simple line elements) and jacobians. %package -n texlive-digiconfigs Summary: Writing "configurations" Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(digiconfigs.sty) = %{tl_version} %description -n texlive-digiconfigs Writing "configurations" In Stochastic Geometry and Digital Image Analysis some problems can be solved in terms of so-called "configurations". A configuration is basically a square matrix of \circ and \bullet symbols. This package provides a convenient and compact mechanism for displaying these configurations. %package -n texlive-dijkstra Summary: Dijkstra algorithm for LaTeX Version: svn64580 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(simplekv.sty) Provides: tex(dijkstra.sty) = %{tl_version} %description -n texlive-dijkstra Dijkstra algorithm for LaTeX This small package uses the Dijkstra algorithm for weighted graphs,directed or not: the search table of the shortest path can be displayed, the minimum distance between two vertices and the corresponding path are stored in macros. This packages depends on simplekv. %package -n texlive-domaincoloring Summary: Draw colored represenations of complex functions Version: svn72176 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(graphicx.sty) Requires: tex(shellesc.sty) Requires: tex(xkeyval.sty) Provides: tex(domaincoloring.sty) = %{tl_version} %description -n texlive-domaincoloring Draw colored represenations of complex functions Domain coloring is a technique to visualize complex functions by assigning a color to each point of the complex plane z=x+iy. This package calculates with the help of Lua any complex function to visualize its behaviour. The value of the complex function(z) can be described by radius and angle which can be two values of the hsv-color model, which then defines the color of each point in the complex plane z=x+iy. %package -n texlive-drawmatrix Summary: Draw visual representations of matrices in LaTeX Version: svn44471 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(drawmatrix.sty) = %{tl_version} %description -n texlive-drawmatrix Draw visual representations of matrices in LaTeX The package provides macros to visually represent matrices. Various options allow to change the visualizations, e.g., drawing rectangular, triangular, or banded matrices. %package -n texlive-drawstack Summary: Draw execution stacks Version: svn28582 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(tikz.sty) Provides: tex(drawstack.sty) = %{tl_version} %description -n texlive-drawstack Draw execution stacks This simple LaTeX package provides support for drawing execution stack (typically to illustrate assembly language notions). The code is written on top of TikZ. %package -n texlive-dyntree Summary: Construct Dynkin tree diagrams Version: svn67016 License: LGPL-2.1-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(calc.sty) Requires: tex(coollist.sty) Requires: tex(eepic.sty) Requires: tex(epic.sty) Provides: tex(dyntree.sty) = %{tl_version} %description -n texlive-dyntree Construct Dynkin tree diagrams The package is intended for users needing to typeset a Dynkin Tree Diagram--a group theoretical construct consisting of cartan coefficients in boxes connected by a series of lines. Such a diagram is a tool for working out the states and their weights in terms of the fundamental weights and the simple roots. The package makes use of the author's coollist package. %package -n texlive-easing Summary: Easing functions for pgfmath Version: svn75712 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(pgflibraryeasing.code.tex) = %{tl_version} %description -n texlive-easing Easing functions for pgfmath This library implements a collection of easing functions and adds them to the PGF mathematical engine. %package -n texlive-ebproof Summary: Formal proofs in the style of sequent calculus Version: svn57544 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xparse.sty) Provides: tex(ebproof.sty) = %{tl_version} %description -n texlive-ebproof Formal proofs in the style of sequent calculus This package provides commands to typeset proof trees in the style of sequent calculus and related systems. The commands allow for writing inferences with any number of premises and alignment of successive formulas on an arbitrary point. Various options allow complete control over spacing, styles of inference rules, placement of labels, etc. The package requires expl3 and xparse. %package -n texlive-econometrics Summary: Defines some commands that simplify mathematic notation in economic and econometric writing Version: svn39396 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(econometrics.sty) = %{tl_version} %description -n texlive-econometrics Defines some commands that simplify mathematic notation in economic and econometric writing Econometrics is a package that defines some commands that simplify mathematic notation in economic and econometrics writing. The commands are related to the notation of vectors, matrices, sets, calligraphic and roman letters statistical distributions constants and symbols matrix operators and statistical operators. The package is based on "Notation in Econometrics: a proposal for a standard" by Karim Abadir and Jan R. Magnus, The Econometrics Journal (2002), 5, 76-90. %package -n texlive-eltex Summary: Simple circuit diagrams in LaTeX picture mode Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(eltex1.tex) = %{tl_version} Provides: tex(eltex2.tex) = %{tl_version} Provides: tex(eltex3.tex) = %{tl_version} Provides: tex(eltex4.tex) = %{tl_version} Provides: tex(eltex5.tex) = %{tl_version} Provides: tex(eltex6.tex) = %{tl_version} Provides: tex(eltex7.tex) = %{tl_version} %description -n texlive-eltex Simple circuit diagrams in LaTeX picture mode The macros enable the user to draw simple circuit diagrams in the picture environment, with no need of special resources. The macros are appropriate for drawing for school materials. The circuit symbols accord to the various parts of the standard IEC 617. %package -n texlive-emf Summary: Support for the EMF symbol Version: svn42023 License: GPL-3.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xkeyval.sty) Provides: tex(emf.sty) = %{tl_version} %description -n texlive-emf Support for the EMF symbol This package provides LaTeX support for the symbol for the EMF in electric circuits and electrodynamics. It provides support for multiple symbols but does not provide any fonts. The fonts themselves must be aquired otherwise. However the fonts are part of a normal TeX Live installation. %package -n texlive-endiagram Summary: Easy creation of potential energy curve diagrams Version: svn34486 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(siunitx.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(endiagram.sty) = %{tl_version} %description -n texlive-endiagram Easy creation of potential energy curve diagrams The package provides the facility of drawing potential energy curve diagrams with just a few simple commands. The package cannot (yet) be considered stable. %package -n texlive-engtlc Summary: Support for users in Telecommunications Engineering Version: svn28571 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(engtlc.sty) = %{tl_version} %description -n texlive-engtlc Support for users in Telecommunications Engineering The package provides a wide range of abbreviations for terms used in Telecommunications Engineering. %package -n texlive-eqexpl Summary: Align explanations for formulas Version: svn63629 License: CC-BY-SA-4.0 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(etoolbox.sty) Requires: tex(xparse.sty) Provides: tex(eqexpl.sty) = %{tl_version} %description -n texlive-eqexpl Align explanations for formulas This package was developed in response to a question on https://tex.stackexchange.com. Its purpose is to enable a perfectly formatted explanation of components of a formula. The package depends on calc, etoolbox, and xparse. %package -n texlive-eqnarray Summary: More generalised equation arrays with numbering Version: svn20641 License: GPL-3.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Provides: tex(eqnarray.sty) = %{tl_version} %description -n texlive-eqnarray More generalised equation arrays with numbering Defines an equationarray environment, that allows more than three columns, but otherwise behaves like LaTeX's eqnarray environment. This environment is similar, in some ways, to the align environment of amsmath. The package requires the array package. %package -n texlive-eqnlines Summary: Single- and multiline equations Version: svn75593 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Provides: tex(eqnlines-dev.sty) = %{tl_version} Provides: tex(eqnlines.sty) = %{tl_version} %description -n texlive-eqnlines Single- and multiline equations This LaTeX2e package provides a framework for typesetting single- and multiline equations which extends the established equation environments of LaTeX and the amsmath package with many options for convenient adjustment of the intended layout. In particular, the package adds flexible schemes for numbering, horizontal alignment and semi-automatic punctuation, and it improves upon the horizontal and vertical spacing options. The extensions can be used and adjusted through optional arguments and modifiers to the equation environments as well as global settings. %package -n texlive-eqnnumwarn Summary: Modifies the amsmath equation environments to warn for a displaced equation number Version: svn75878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(environ.sty) Requires: tex(etoolbox.sty) Requires: tex(mathtools.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(eqnnumwarn.sty) = %{tl_version} %description -n texlive-eqnnumwarn Modifies the amsmath equation environments to warn for a displaced equation number Sometimes an equation is too long that an equation number will be typeset below the equation itself, but yet not long enough to yield an overfull \hbox warning. The eqnnumwarn package modifies the standard amsmath numbered equation environments to throw a warning whenever this occurs. %package -n texlive-euclidean-lattice Summary: Draw two-dimensional Euclidean lattices with TikZ Version: svn72985 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(euclidean-lattice.sty) = %{tl_version} %description -n texlive-euclidean-lattice Draw two-dimensional Euclidean lattices with TikZ This package provides a simple, efficient and easily configurable way to draw two-dimensional Euclidean lattices using TikZ. %package -n texlive-euclideangeometry Summary: Draw geometrical constructions Version: svn67608 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(euclideangeometry.sty) = %{tl_version} %description -n texlive-euclideangeometry Draw geometrical constructions This package provides tools to draw most of the geometrical constructions that a high school instructor or bachelor degree professor might need to teach geometry. The connection to Euclide depends on the fact that in his times calculations were made with ruler, compass and also with ellipsograph. This package extends the functionalities of the curve2e package. %package -n texlive-extarrows Summary: Extra Arrows beyond those provided in amsmath Version: svn54400 License: LGPL-2.1-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(extarrows.sty) = %{tl_version} %description -n texlive-extarrows Extra Arrows beyond those provided in amsmath Arrows are provided to supplement \xleftarrow and \xrightarrow of the amsath package: \xlongequal, \xLongleftarrow, \xLongrightarrow, \xLongleftrightarrow, \xLeftrightarrow. \xlongleftrightarrow, \xleftrightarrow, \xlongleftarrow and \xlongrightarrow. %package -n texlive-extpfeil Summary: Extensible arrows in mathematics Version: svn16243 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(mathtools.sty) Requires: tex(stmaryrd.sty) Provides: tex(extpfeil.sty) = %{tl_version} %description -n texlive-extpfeil Extensible arrows in mathematics The package provides some more extensible arrows (usable in the same way as \xleftarrow from amsmath), and a simple command to create new ones. %package -n texlive-faktor Summary: Typeset quotient structures with LaTeX Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(faktor.sty) = %{tl_version} %description -n texlive-faktor Typeset quotient structures with LaTeX The package provides the means to typeset factor structures, as are used in many areas of algebraic notation. The structure is similar to the 'A/B' that is provided by the nicefrac package (part of the units distribution), and by the xfrac package; the most obvious difference is that the numerator and denominator's sizes do not change in the \faktor command. %package -n texlive-fascicules Summary: Create mathematical manuals for schools Version: svn54080 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsthm.sty) Requires: tex(answers.sty) Requires: tex(beamerarticle.sty) Requires: tex(calc.sty) Requires: tex(cleveref.sty) Requires: tex(comment.sty) Requires: tex(enumitem.sty) Requires: tex(environ.sty) Requires: tex(hyperref.sty) Requires: tex(ifthen.sty) Requires: tex(keyval.sty) Requires: tex(multicol.sty) Requires: tex(pgfopts.sty) Requires: tex(scrlayer-scrpage.sty) Requires: tex(tagging.sty) Requires: tex(tcolorbox.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Requires: tex(xcomment.sty) Provides: tex(fascicules.sty) = %{tl_version} %description -n texlive-fascicules Create mathematical manuals for schools This package enables LaTeX users to create math books for middle and high schools. It provides commands to create the front page of the manual and the chapters. Each chapter can consist of three sections: the lesson, the exercises and the activities. %package -n texlive-fitch Summary: LaTeX macros for Fitch-style natural deduction Version: svn69160 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(kvoptions.sty) Provides: tex(fitch.sty) = %{tl_version} %description -n texlive-fitch LaTeX macros for Fitch-style natural deduction The package provides macros for typesetting natural deduction proofs in Fitch style, with subproofs indented and offset by scope lines. %package -n texlive-fixdif Summary: Macros for typesetting differential operators Version: svn66606 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(fixdif.sty) = %{tl_version} %description -n texlive-fixdif Macros for typesetting differential operators This package redefines the \d command in LaTeX and provides an interface to define new commands for differential operators. It is compatible with pdfTeX, XeTeX and LuaTeX, and can also be used with the unicode-math package. %package -n texlive-fixmath Summary: Make maths comply with ISO 31-0:1992 to ISO 31-13:1992 Version: svn64648 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(fixmath.sty) = %{tl_version} %description -n texlive-fixmath Make maths comply with ISO 31-0:1992 to ISO 31-13:1992 LaTeX's default style of typesetting mathematics does not comply with the International Standards ISO 31-0:1992 to ISO 31-13:1992 which require that uppercase Greek letters always be typset upright, as opposed to italic (even though they usually represent variables) and allow for typsetting of variables in a boldface italic style (even though the required fonts are available). This package ensures that uppercase Greek be typeset in italic style, that upright $\Delta$ and $\Omega$ symbols are available through the commands \upDelta and \upOmega; and provides a new math alphabet \mathbold for boldface italic letters, including Greek. This package used to be part of the was bundle, but has now become a package in its own right. %package -n texlive-fnspe Summary: Macros for supporting mainly students of FNSPE CTU in Prague Version: svn45360 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(amsthm.sty) Requires: tex(bm.sty) Requires: tex(listings.sty) Requires: tex(mathrsfs.sty) Requires: tex(mathtools.sty) Requires: tex(physics.sty) Requires: tex(substr.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Requires: tex(xstring.sty) Provides: tex(fnspe.sty) = %{tl_version} %description -n texlive-fnspe Macros for supporting mainly students of FNSPE CTU in Prague This package is primary intended for students of FNSPE CTU in Prague but many other students or scientists can found this package as useful. This package implements different standards of tensor notation, interval notation and complex notation. Further many macros and shortcuts are added, e.q. for spaces, operators, physics unit, etc. %package -n texlive-formal-grammar Summary: Typeset formal grammars Version: svn61955 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Requires: tex(colortbl.sty) Requires: tex(newfloat.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(formal-grammar.sty) = %{tl_version} %description -n texlive-formal-grammar Typeset formal grammars This package provides a new environment and associated commands to typeset BNF grammars. It allows to easily write formal grammars. Its original motivation was to typeset grammars for beamer presentations, therefore, there are macros to emphasize or downplay some parts of the grammar (which is the main novelty compared to other BNF packages). %package -n texlive-fouridx Summary: Left sub- and superscripts in maths mode Version: svn32214 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(fouridx.sty) = %{tl_version} %description -n texlive-fouridx Left sub- and superscripts in maths mode The package enables left subscripts and superscripts in maths mode. The sub- and superscripts are raised for optimum fitting to the symbol indexed, in such a way that left and right sub- and superscripts are set on the same level, as appropriate. The package provides an alternative to the use of the \sideset command in the amsmath package. %package -n texlive-freealign Summary: Align math formulas in different lines Version: svn69267 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(zref-savepos.sty) Provides: tex(freealign.sty) = %{tl_version} %description -n texlive-freealign Align math formulas in different lines This package provides several commands for aligning math formulas in different lines. %package -n texlive-functan Summary: Macros for functional analysis and PDE theory Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(functan.sty) = %{tl_version} %description -n texlive-functan Macros for functional analysis and PDE theory This package provides a convenient and coherent way to deal with name of functional spaces (mainly Sobolev spaces) in functional analysis and PDE theory. It also provides a set of macros for dealing with norms, scalar products and convergence with some object oriented flavor (it gives the possibility to override the standard behavior of norms, ...). %package -n texlive-galois Summary: Typeset Galois connections Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(color.sty) Provides: tex(galois.sty) = %{tl_version} %description -n texlive-galois Typeset Galois connections The package deals with connections in two-dimensional style, optionally in colour. %package -n texlive-gastex Summary: Graphs and Automata Simplified in TeX Version: svn69842 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(auto-pst-pdf.sty) Requires: tex(calc.sty) Requires: tex(environ.sty) Requires: tex(graphicx.sty) Requires: tex(iftex.sty) Requires: tex(pst-pdf.sty) Requires: tex(trig.sty) Requires: tex(xcolor.sty) Requires: tex(xifthen.sty) Requires: tex(xkeyval.sty) Provides: tex(gastex.sty) = %{tl_version} %description -n texlive-gastex Graphs and Automata Simplified in TeX GasTeX is a set of LaTeX macros which enable the user to draw graphs, automata, nets, diagrams, etc., very easily, in the LaTeX picture environment. %package -n texlive-gene-logic Summary: Typeset logic formulae, etc. Version: svn75878 License: Crossword Requires: texlive-base Requires: texlive-kpathsea Provides: tex(gn-logic14.sty) = %{tl_version} %description -n texlive-gene-logic Typeset logic formulae, etc. The package provides a facility to typeset certain logic formulae. It provides an environment like eqnarray, a newtheorem-like environment (NewTheorem), and several macros. %package -n texlive-ghsystem Summary: Globally harmonised system of chemical (etc) naming Version: svn53822 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(chemmacros.sty) Requires: tex(xparse.sty) Provides: tex(ghsystem.sty) = %{tl_version} Provides: tex(ghsystem_acid-8.tex) = %{tl_version} Provides: tex(ghsystem_acid.tex) = %{tl_version} Provides: tex(ghsystem_aqpol.tex) = %{tl_version} Provides: tex(ghsystem_bottle-2-black.tex) = %{tl_version} Provides: tex(ghsystem_bottle-2-white.tex) = %{tl_version} Provides: tex(ghsystem_bottle.tex) = %{tl_version} Provides: tex(ghsystem_english.def) = %{tl_version} Provides: tex(ghsystem_exclam.tex) = %{tl_version} Provides: tex(ghsystem_explos-1.tex) = %{tl_version} Provides: tex(ghsystem_explos-2.tex) = %{tl_version} Provides: tex(ghsystem_explos-3.tex) = %{tl_version} Provides: tex(ghsystem_explos-4.tex) = %{tl_version} Provides: tex(ghsystem_explos-5.tex) = %{tl_version} Provides: tex(ghsystem_explos-6.tex) = %{tl_version} Provides: tex(ghsystem_explos.tex) = %{tl_version} Provides: tex(ghsystem_flame-2-black.tex) = %{tl_version} Provides: tex(ghsystem_flame-2-white.tex) = %{tl_version} Provides: tex(ghsystem_flame-3-black.tex) = %{tl_version} Provides: tex(ghsystem_flame-3-white.tex) = %{tl_version} Provides: tex(ghsystem_flame-4-1.tex) = %{tl_version} Provides: tex(ghsystem_flame-4-2.tex) = %{tl_version} Provides: tex(ghsystem_flame-4-3-black.tex) = %{tl_version} Provides: tex(ghsystem_flame-4-3-white.tex) = %{tl_version} Provides: tex(ghsystem_flame-5-2-black.tex) = %{tl_version} Provides: tex(ghsystem_flame-5-2-white.tex) = %{tl_version} Provides: tex(ghsystem_flame-O-5-1.tex) = %{tl_version} Provides: tex(ghsystem_flame-O.tex) = %{tl_version} Provides: tex(ghsystem_flame.tex) = %{tl_version} Provides: tex(ghsystem_french.def) = %{tl_version} Provides: tex(ghsystem_german.def) = %{tl_version} Provides: tex(ghsystem_health.tex) = %{tl_version} Provides: tex(ghsystem_italian.def) = %{tl_version} Provides: tex(ghsystem_langtemplate.def) = %{tl_version} Provides: tex(ghsystem_skull-2.tex) = %{tl_version} Provides: tex(ghsystem_skull-6.tex) = %{tl_version} Provides: tex(ghsystem_skull.tex) = %{tl_version} Provides: tex(ghsystem_spanish.def) = %{tl_version} %description -n texlive-ghsystem Globally harmonised system of chemical (etc) naming The package provides the means to typeset all the hazard and precautionary statements and pictograms in a straightforward way. The statements are taken from EU regulation 1272/2008. %package -n texlive-glosmathtools Summary: Mathematical nomenclature tools based on the glossaries package Version: svn55920 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(etoolbox.sty) Requires: tex(glossaries.sty) Provides: tex(glosmathtools.sty) = %{tl_version} %description -n texlive-glosmathtools Mathematical nomenclature tools based on the glossaries package This package can be used to generate a mathematical nomenclature (also called "list of symbols" or "notation"). It is based on the glossaries package. Its main features are: symbol categories (e.g.: latin, greek) automatic but customizable symbol sorting easy subscript management easy accentuation management abbreviation support (with first use definition) bilingual nomenclatures (for bilingual documents) bilingual abbreviations The documentation is based on the ulthese class. The package itself depends on glossaries, amsmath, amsfonts, and etoolbox. %package -n texlive-gotoh Summary: An implementation of the Gotoh sequence alignment algorithm Version: svn44764 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xkeyval.sty) Provides: tex(gotoh.sty) = %{tl_version} %description -n texlive-gotoh An implementation of the Gotoh sequence alignment algorithm This package calculates biological sequence alignment with the Gotoh algorithm. The package also provides an interface to control various settings including algorithm parameters. %package -n texlive-grundgesetze Summary: Typeset Frege's Grundgesetze der Arithmetik Version: svn58997 License: GPL-2.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(bguq.sty) Requires: tex(kvoptions.sty) Provides: tex(grundgesetze.sty) = %{tl_version} %description -n texlive-grundgesetze Typeset Frege's Grundgesetze der Arithmetik The package defines maths mode commands for typesetting Gottlob Frege's concept-script in the style of his "Grundgesetze der Arithmetik" (Basic Laws of Arithmetic). %package -n texlive-gu Summary: Typeset crystallographic group-subgroup-schemes Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Requires: tex(calc.sty) Requires: tex(fp.sty) Requires: tex(ifthen.sty) Requires: tex(tabularx.sty) Provides: tex(gu.sty) = %{tl_version} %description -n texlive-gu Typeset crystallographic group-subgroup-schemes The package simplifies typesetting of simple crystallographic group-subgroup-schemes in the Barnighausen formalism. It defines a new environment stammbaum, wherein all elements of the scheme are defined. Afterwards all necessary dimensions are calculated and the scheme is drawn. Currently two steps of symmetry reduction are supported. %package -n texlive-helmholtz-ellis-ji-notation Summary: Beautiful in-line microtonal just intonation accidentals Version: svn55213 License: CC-BY-4.0 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(fontspec.sty) Provides: tex(helmholtz-ellis-ji-notation.sty) = %{tl_version} %description -n texlive-helmholtz-ellis-ji-notation Beautiful in-line microtonal just intonation accidentals The Helmholtz-Ellis JI Pitch Notation (HEJI), devised in the early 2000s by Marc Sabat and Wolfgang von Schweinitz, explicitly notates the raising and lowering of the untempered diatonic Pythagorean notes by specific microtonal ratios defined for each prime. It provides visually distinctive "logos" distinguishing families of justly tuned intervals that relate to the harmonic series. These take the form of strings of additional accidental symbols based on historical precedents, extending the traditional sharps and flats. Since its 2020 update, HEJI ver. 2 ("HEJI2") provides unique microtonal symbols through the 47-limit. This package is a simple LaTeX implementation of HEJI2 that allows for in-line typesetting of microtonal accidentals for use within theoretical texts, program notes, symbol legends, etc. Documents must be compiled using XeLaTeX. %package -n texlive-hep-graphic Summary: Extensions for graphics, plots and feynman graphs in high energy physics Version: svn76220 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(kvoptions.sty) Requires: tex(pgfplots.sty) Requires: tex(tikz-feynman.sty) Requires: tex(tikz.sty) Requires: tex(tikzscale.sty) Requires: tex(xparse.sty) Provides: tex(hep-feynman.sty) = %{tl_version} Provides: tex(hep-graphic.sty) = %{tl_version} Provides: tex(hep-plot.sty) = %{tl_version} %description -n texlive-hep-graphic Extensions for graphics, plots and feynman graphs in high energy physics The hep-graphic package collects convinience macros that modify the behaviour of the TikZ, pgfplots, and TikZ-Feynman packages and ensure that the generated graphics look consistent. %package -n texlive-hep-reference Summary: Adjustments for publications in High Energy Physics Version: svn76220 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(cleveref.sty) Requires: tex(etoolbox.sty) Requires: tex(footnotebackref.sty) Requires: tex(hyperref.sty) Provides: tex(hep-reference.sty) = %{tl_version} %description -n texlive-hep-reference Adjustments for publications in High Energy Physics This package makes some changes to the reference, citation and footnote macros to improve the default behavior of LaTeX for High Energy Physics publications. %package -n texlive-hepnames Summary: Pre-defined high energy particle names Version: svn35722 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(hepparticles.sty) Requires: tex(xspace.sty) Provides: tex(hepnames.sty) = %{tl_version} Provides: tex(hepnicenames.sty) = %{tl_version} Provides: tex(heppennames.sty) = %{tl_version} %description -n texlive-hepnames Pre-defined high energy particle names Hepnames provides a pair of LaTeX packages, heppennames and hepnicenames, providing a large set of pre-defined high energy physics particle names built with the hepparticles package. The packages are based on pennames.sty by Michel Goosens and Eric van Herwijnen. Heppennames re-implements the particle names in pennames.sty, with some additions and alterations and greater flexibility and robustness due to the hepparticles structures, which were written for this purpose. Hepnicenames provides the main non-resonant particle names from heppennames with more "friendly" names. %package -n texlive-hepparticles Summary: Macros for typesetting high energy physics particle names Version: svn35723 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(subdepth.sty) Provides: tex(hepparticles.sty) = %{tl_version} %description -n texlive-hepparticles Macros for typesetting high energy physics particle names HEPparticles is a set of macros for typesetting high energy particle names, to meet the following criteria: 1. The main particle name is a Roman or Greek symbol, to be typeset in upright font in normal contexts. 2. Additionally a superscript and/or subscript may follow the main symbol. 3. Particle resonances may also have a resonance specifier which is typeset in parentheses following the main symbol. In general the parentheses may also be followed by sub- and superscripts. 4. The particle names are expected to be used both in and out of mathematical contexts. 5. If the surrounding text is bold or italic then the particle name should adapt to that context as best as possible (this may not be possible for Greek symbols). A consequence of point 5 is that the well-known problems with boldness of particle names in section titles, headers and tables of contents automatically disappear if these macros are used. %package -n texlive-hepthesis Summary: A class for academic reports, especially PhD theses Version: svn46054 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-hepthesis A class for academic reports, especially PhD theses Hepthesis is a LaTeX class for typesetting large academic reports, in particular PhD theses. It was originally developed for typesetting the author's high-energy physics PhD thesis and includes some features specifically tailored to such an application. In particular, hepthesis offers: Attractive semantic environments for various rubric sections; Extensive options for draft production, screen viewing and binding-ready output; Helpful extensions of existing environments, including equation and tabular; and Support for quotations at the start of the thesis and each chapter. The class is based on scrbook, from the KOMA-Script bundle. %package -n texlive-hepunits Summary: A set of units useful in high energy physics applications Version: svn54758 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(ifthen.sty) Requires: tex(siunitx.sty) Provides: tex(hepunits.sty) = %{tl_version} %description -n texlive-hepunits A set of units useful in high energy physics applications Hepunits is a LaTeX package built on the SIunits package which adds a collection of useful HEP units to the existing SIunits set. These include the energy units \MeV, \GeV, \TeV and the derived momentum and mass units \MeVoverc, \MeVovercsq and so on. %package -n texlive-hideproofs Summary: Defines a starred proof environment that hides proofs in draft mode Version: svn75712 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsthm.sty) Requires: tex(environ.sty) Requires: tex(ifdraft.sty) Requires: tex(ifthen.sty) Provides: tex(hideproofs.sty) = %{tl_version} %description -n texlive-hideproofs Defines a starred proof environment that hides proofs in draft mode This package introduces an alternate proof environment, proof*, which conditionally hides or shows its contents based on the document mode (draft, final, or default). This is useful for omitting formal proofs from draft versions while retaining them in final documents. The motivation for this package is to reduce the clutter in large files by omitting long proofs, allowing authors to focus their attention on results or proofs that are currently works in progress. %package -n texlive-ibrackets Summary: Intelligent brackets Version: svn67736 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(ibrackets.sty) = %{tl_version} %description -n texlive-ibrackets Intelligent brackets This small package provides a new definition of brackets [ and ] as active characters to get correct blank spaces in mathematical mode when using for open intervals. Instead of parenthesis: ]-\infty, 0[ is equivalent to (-\infty, 0). %package -n texlive-includernw Summary: Include .Rnw inside .tex Version: svn47557 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(kvoptions.sty) Requires: tex(pdftexcmds.sty) Provides: tex(includeRnw.sty) = %{tl_version} %description -n texlive-includernw Include .Rnw inside .tex This package is for including .Rnw (knitr/sweave)-files inside .tex-files. It requires that you have R and the R-package knitr installed. Note: This package will probably not work on Windows. It is tested only on OS X, and will probably also work on standard Linux distros. %package -n texlive-interval Summary: Format mathematical intervals, ensuring proper spacing Version: svn50265 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pgfkeys.sty) Provides: tex(interval.sty) = %{tl_version} %description -n texlive-interval Format mathematical intervals, ensuring proper spacing When typing an open interval as $]a,b[$, a closing bracket is being used in place of an opening fence and vice versa. This leads to the wrong spacing in, say, $]-a,b[$ or $A\in]a,b[=B$. The package attempts to solve this using: \interval{a}{b} -> [a,b] \interval[open]{a}{b} -> ]a,b[ \interval[open left]{a}{b} -> ]a,b] The package also supports fence scaling and ensures that the enclosing fences will end up having the proper closing and opening types. TeX maths does not do this job properly. The package depends on pgfkeys. %package -n texlive-intexgral Summary: A LaTeX package for typesetting integrals Version: svn76312 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(derivative.sty) Provides: tex(intexgral.sty) = %{tl_version} %description -n texlive-intexgral A LaTeX package for typesetting integrals Typesetting integrals, although common in LaTeX, is not particularly practical. The way in which the different parts are managed often generates unreadable source code, making modifications laborious. The package therefore follows a simple philosophy: focus on the essential element of an integral, the integrand. Everything else (limits, differentials, symbols) can be modified using keys. These keys are designed to allow you to easily and quickly change the style of an integral. Additionally, the package provides various auxiliary macros to support some keys which can have lengthy inputs. %package -n texlive-ionumbers Summary: Restyle numbers in maths mode Version: svn33457 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Provides: tex(ionumbers.sty) = %{tl_version} %description -n texlive-ionumbers Restyle numbers in maths mode 'ionumbers' stands for 'input/output numbers'. The package restyles numbers in maths mode. If a number in the input file is written, e.g., as $3,231.44$ as commonly used in English texts, the package is able to restyle it to be output as $3\,231{,}44$ as commonly used in German texts (and vice versa). This may be useful, for example, if you have a large table and want to include it in texts with different output conventions without the need to change the table. The package can also automatically group digits left of the decimal separator (thousands) and right of the decimal separator (thousandths) in triplets without the need of specifing commas (English) or points (German) as separators. E.g., the input $1234.567890$ can be output as $1\,234.\,567\,890$. Finally, an e starts the exponent of the number. For example, $21e6$ may be output as $26\times10\,^{6}$. %package -n texlive-isomath Summary: Mathematics style for science and technology Version: svn27654 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(fixmath.sty) Requires: tex(kvoptions.sty) Provides: tex(isomath.sty) = %{tl_version} %description -n texlive-isomath Mathematics style for science and technology The package provides tools for a mathematical style that conforms to the International Standard ISO 80000-2 and is common in science and technology. It changes the default shape of capital Greek letters to italic, sets up bold italic and sans-serif bold italic math alphabets with Latin and Greek characters, and defines macros for markup of vector, matrix and tensor symbols. %package -n texlive-isphysicalmath Summary: Simple way to write nice formulas Version: svn73239 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xstring.sty) Provides: tex(isphysicalmath.sty) = %{tl_version} %description -n texlive-isphysicalmath Simple way to write nice formulas This package helps users to write mathematical and physical contents according to scientific notation (international mainly), in an elegant way. It deals with the notation and formatting of formulas, quantities, numerical values, factors, dimensions, measurement units and also performs its activities in complex mathematical environments. %package -n texlive-jkmath Summary: Macros for mathematics that make the code more readable Version: svn47109 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(array.sty) Requires: tex(physics.sty) Requires: tex(xparse.sty) Provides: tex(jkmath.sty) = %{tl_version} %description -n texlive-jkmath Macros for mathematics that make the code more readable Inspired by the physicspackage on CTAN, the package defines some simple macros for mathematical notation which make the code more readable and/or allow flexibility in typesetting material. %package -n texlive-jupynotex Summary: Include whole or partial Jupyter notebooks in LaTeX documents Version: svn75037 License: Apache-2.0 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pgfopts.sty) Requires: tex(tcolorbox.sty) Provides: tex(jupynotex.sty) = %{tl_version} %description -n texlive-jupynotex Include whole or partial Jupyter notebooks in LaTeX documents This package provides a python3 script and a LaTeX .sty file which can be used together to include Jupyter Notebooks (all of them, or some specific cells) as part of a LaTeX document. It will convert the Jupyter Notebook format to proper LaTeX so it gets included seamlessly, supporting text, LaTeX, images, etc. %package -n texlive-karnaugh Summary: Typeset Karnaugh-Veitch-maps Version: svn21338 License: LPPL-1.0 Requires: texlive-base Requires: texlive-kpathsea Provides: tex(kvmacros.tex) = %{tl_version} %description -n texlive-karnaugh Typeset Karnaugh-Veitch-maps The package provides macros for typesetting Karnaugh-Maps and Veitch-Charts in a simple and user-friendly way. Karnaugh-Maps and Veitch-Charts are used to display and simplify logic functions "manually". These macros can typeset Karnaugh-Maps and Veitch-Charts with up to ten variables (=1024 entries). %package -n texlive-karnaugh-map Summary: LaTeX package for drawing karnaugh maps with up to 6 variables Version: svn61614 License: LicenseRef-cc-by-sa-3 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Requires: tex(kvoptions.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(karnaugh-map.sty) = %{tl_version} %description -n texlive-karnaugh-map LaTeX package for drawing karnaugh maps with up to 6 variables This package draws karnaugh maps with 2, 3, 4, 5, and 6 variables. It also contains commands for filling the karnaugh map with terms semi-automatically or manually. Last but not least it contains commands for drawing implicants on top of the map. This package depends on the keyval, kvoptions, TikZ, xparse, and xstring packages. %package -n texlive-karnaughmap Summary: Typeset Karnaugh maps Version: svn36989 License: LPPL-1.2 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(tikz.sty) Requires: tex(xkeyval.sty) Requires: tex(xstring.sty) Provides: tex(karnaughmap.sty) = %{tl_version} %description -n texlive-karnaughmap Typeset Karnaugh maps This package provides an easy to use interface to typeset Karnaugh maps using TikZ. Though similar to the karnaugh macros, it provides a key-value system to customize karnaughmaps and a proper LaTeX package. %package -n texlive-keytheorems Summary: An l3keys interface to amsthm Version: svn75807 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(aliascnt.sty) Requires: tex(amsthm.sty) Requires: tex(refcount.sty) Requires: tex(tcolorbox.sty) Requires: tex(thmtools.sty) Requires: tex(translations.sty) Requires: tex(unique.sty) Provides: tex(keytheorems.sty) = %{tl_version} Provides: tex(keythms-IEEEtran-support.tex) = %{tl_version} Provides: tex(keythms-amsart-support.tex) = %{tl_version} Provides: tex(keythms-amsbook-support.tex) = %{tl_version} Provides: tex(keythms-amsproc-support.tex) = %{tl_version} Provides: tex(keythms-beamer-support.tex) = %{tl_version} Provides: tex(keythms-jlreq-support.tex) = %{tl_version} Provides: tex(keythms-ltx-talk-support.tex) = %{tl_version} Provides: tex(keythms-memoir-support.tex) = %{tl_version} %description -n texlive-keytheorems An l3keys interface to amsthm An expl3-implementation of a key-value interface to amsthm, implementing most of the functionality provided by thmtools. Several issues encountered with thmtools are avoided (see the README for a list) and a few new features are added. %package -n texlive-kvmap Summary: Create Karnaugh maps with LaTeX Version: svn67201 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-amsmath Requires: texlive-l3experimental Requires: texlive-pgf Requires: tex(amsmath.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(kvmap.sty) = %{tl_version} %description -n texlive-kvmap Create Karnaugh maps with LaTeX This LaTeX package allows the creation of (even large) Karnaugh maps. It provides a tabular-like input syntax and support for drawing bundles (implicants) around adjacent values. It is based on an answer at StackExchange. %package -n texlive-letterswitharrows Summary: Draw arrows over math letters Version: svn72723 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(mathtools.sty) Requires: tex(pgf.sty) Requires: tex(xparse.sty) Provides: tex(letterswitharrows.sty) = %{tl_version} %description -n texlive-letterswitharrows Draw arrows over math letters This package provides LaTeX math-mode commands for setting left and right arrows over mathematical symbols so that the arrows dynamically scale with the symbols. While it is possible to set arrows over longer strings of symbols, the focus lies on single characters. %package -n texlive-lie-hasse Summary: Draw Hasse diagrams Version: svn75301 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(contour.sty) Requires: tex(dynkin-diagrams.sty) Requires: tex(xcolor.sty) Provides: tex(lie-hasse.sty) = %{tl_version} %description -n texlive-lie-hasse Draw Hasse diagrams This package draws Hasse diagrams of the partially ordered sets of the simple roots of any complex simple Lie algebra. It uses the Dynkin diagrams package dynkin-diagrams. %package -n texlive-linearregression Summary: Calculate and display linear regressions Version: svn73123 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(linearregression.sty) = %{tl_version} %description -n texlive-linearregression Calculate and display linear regressions This package provides the definition of some document-level commands (and some auxiliary functions) that perform the linear regression on a set of data and present the data and the results in tabular and in graphic form. %package -n texlive-linkedthm Summary: Hyperlinked theorem-proof environments for LaTeX Version: svn75860 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsthm.sty) Requires: tex(hyperref.sty) Requires: tex(xparse.sty) Provides: tex(linkedthm.sty) = %{tl_version} %description -n texlive-linkedthm Hyperlinked theorem-proof environments for LaTeX This package provides lightweight infrastructure for bidirectional linking between theorem-like environments and their corresponding proofs. It automatically adds a [Proof] hyperlink at the end of a theorem and a restated version with a [Return] link inside the proof. You can declare any number of custom linked environments (e.g., linkeddefinition, linkedexample) using \DeclareLinkedTheorem, and base them on any amsthm-compatible environment. This is useful for mathematical writing and documentation, where proof navigation is essential. The package uses amsthm, xparse, and hyperref, and is compatible with all standard LaTeX engines. %package -n texlive-logicproof Summary: Box proofs for propositional and predicate logic Version: svn33254 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Requires: tex(ifthen.sty) Provides: tex(logicproof.sty) = %{tl_version} %description -n texlive-logicproof Box proofs for propositional and predicate logic A common style of proof used in propositional and predicate logic is Fitch proofs, in which each line of the proof has a statement and a justification, and subproofs within a larger proof have boxes around them. The package provides environments for typesetting such proofs and boxes. It creates proofs in a style similar to that used in "Logic in Computer Science" by Huth and Ryan. %package -n texlive-logictools Summary: Additional tools for typesetting formal logic Version: svn75270 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(adjustbox.sty) Requires: tex(amsmath.sty) Requires: tex(bussproofs.sty) Requires: tex(stmaryrd.sty) Requires: tex(trimspaces.sty) Requires: tex(xfrac.sty) Provides: tex(logictools.sty) = %{tl_version} %description -n texlive-logictools Additional tools for typesetting formal logic Adds various tools for typesetting formal logic, including: An environment that makes it easier to produce good looking formal logic. A few macros that would be of interest to people studying logic at Oxford (or other places with similar notational conventions). %package -n texlive-longdivision Summary: Typesets long division Version: svn68609 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xparse.sty) Provides: tex(longdivision.sty) = %{tl_version} %description -n texlive-longdivision Typesets long division This package executes the long division algorithm and typesets the solutions. The dividend must be a positive decimal number and the divisor must be a positive integer. Repeating decimals is handled correctly, putting a bar over the repeated part of the decimal. Dividends up to 20 digits long are handled gracefully (though the typeset result will take up about a page), and dividends between 20 and 60 digits long slightly less gracefully. The package defines two macros, \longdivision and \intlongdivision. Each takes two arguments, a dividend and a divisor. \longdivision keeps dividing until the remainder is zero, or it encounters a repeated remainder. \intlongdivision stops when the dividend stops (though the dividend doesn't have to be an integer). This package depends on the xparse package from the l3packages bundle. %package -n texlive-lpform Summary: Typesetting linear programming formulations and sets of equations Version: svn36918 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xifthen.sty) Provides: tex(lpform.sty) = %{tl_version} %description -n texlive-lpform Typesetting linear programming formulations and sets of equations The package is designed to aid the author writing linear programming formulations, one restriction at a time. With the package, one can easily label equations, formulations can span multiple pages and several elements of the layout (such as spacing, texts and equation tags) are also customizable. Besides linear programming formulations, this package can also be used to display any series of aligned equations with easy labeling/referencing and other customization options. %package -n texlive-lplfitch Summary: Fitch-style natural deduction proofs Version: svn75712 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(lplfitch.sty) = %{tl_version} %description -n texlive-lplfitch Fitch-style natural deduction proofs The package provides macros for typesetting natural deduction proofs in "Fitch" style, with subproofs indented and offset by scope lines. The proofs from use of the package are in the format used in the textbook "Language, Proof, and Logic" by Dave Barker-Plummer, Jon Barwise, and John Etchemendy. (In fact, the prefix "lpl" in the package name stands for "Language, Proof, and Logic".) %package -n texlive-lstbayes Summary: Listings language driver for Bayesian modeling languages Version: svn48160 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(listings.sty) Provides: tex(lstbayes.sty) = %{tl_version} %description -n texlive-lstbayes Listings language driver for Bayesian modeling languages The package provides language drivers for the listings package for several languages not included in that package: BUGS, JAGS, and Stan. %package -n texlive-lua-regression Summary: Add polynomial regressions to graphs Version: svn74969 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(luacode.sty) Requires: tex(pgfkeys.sty) Requires: tex(pgfplots.sty) Provides: tex(lua-regression.sty) = %{tl_version} %description -n texlive-lua-regression Add polynomial regressions to graphs This LuaLaTeX package provides a simple interface for performing polynomial regression on data sets. It allows users to specify the order of the polynomial regression, the columns of the data set to use, and whether to plot the results. The package also includes options for confidence intervals and error bands. %package -n texlive-luanumint Summary: Numerical integration using Lua inside LaTeX documents Version: svn68918 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(breqn.sty) Requires: tex(luacode.sty) Requires: tex(xkeyval.sty) Provides: tex(luanumint.sty) = %{tl_version} %description -n texlive-luanumint Numerical integration using Lua inside LaTeX documents This package uses Lua to calculate the numerical integral value of real-valued functions of a real variable over closed and bounded intervals. The package provides commands to perform numerical integration using the mid-point, trapezoidal, and Simpson's one-third and three-eighth rules. The loadstring command is used to load and evaluate functions at different points in the mathematics environment of Lua. The package also provides commands to perform numerical integration using step-by-step calculations. The package's commands have an optional argument to round off the numbers to the desired number of decimal places. The breqn package is loaded to display and align step-by-step calculations properly. Advanced users can customize the code to achieve the desired formatting of step-by-step computations. The package can assist in creating various problems on numerical integration with their solutions. The results obtained using different methods of numerical integration can be compared. It can save users' efforts of doing computations involving numerical integration in external software and copying them inside LaTeX documents. %package -n texlive-math-operator Summary: Predefined and new math operators Version: svn76273 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(math-operator.sty) = %{tl_version} %description -n texlive-math-operator Predefined and new math operators This package defines control sequences for roughly one hundred and fifty math operators, including special functions, probability distributions, pure mathematical constructions, and a variant of \overline. The package also provides an interface for users to define new math operators similar to the amsopn package. New operators can be medium or bold weight, and they may be declared as \mathord or \mathop subformulas. %package -n texlive-mathcommand Summary: \newcommand-like commands for defining math macros Version: svn59512 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(xparse.sty) Provides: tex(mathcommand.sty) = %{tl_version} %description -n texlive-mathcommand \newcommand-like commands for defining math macros This package provides functionalities for defining macros that have different behaviors depending on whether in math or text mode, that absorb Primes, Indices and Exponents (PIE) as extra parameters usable in the code; and it offers some iteration facilities for defining macros with similar code. The primary objective of this package is to be used together with the knowledge package for a proper handling of mathematical notations. %package -n texlive-mathcomp Summary: Text symbols in maths mode Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(textcomp.sty) Provides: tex(mathcomp.sty) = %{tl_version} %description -n texlive-mathcomp Text symbols in maths mode A package which provides access to some interesting characters of the Text Companion fonts (TS1 encoding) in maths mode. %package -n texlive-mathfixs Summary: Fix various layout issues in math mode Version: svn74752 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Provides: tex(mathfixs.sty) = %{tl_version} %description -n texlive-mathfixs Fix various layout issues in math mode This is a LaTeX2e package to fix some odd behaviour in math mode such as spacing around fractions and roots, math symbols within bold text as well as capital Greek letters. It also adds some related macros. %package -n texlive-mathlig Summary: Define maths "ligatures" Version: svn54244 License: Borceux Requires: texlive-base Requires: texlive-kpathsea Provides: tex(mathlig.tex) = %{tl_version} %description -n texlive-mathlig Define maths "ligatures" The package defines character sequences that "behave like" ligatures, in maths mode. Example definitions (chosen to show the package's flexibility, are: \mathlig{->}{\rightarrow} \mathlig{<-}{\leftarrow} \mathlig{<->}{\leftrightarrow} %package -n texlive-mathpartir Summary: Typesetting sequences of math formulas, e.g. type inference rules Version: svn39864 License: GPL-2.0-only Requires: texlive-base Requires: texlive-kpathsea Provides: tex(mathpartir.sty) = %{tl_version} %description -n texlive-mathpartir Typesetting sequences of math formulas, e.g. type inference rules The package provides macros for typesetting math formulas in mixed horizontal and vertical mode, automatically as best fit. It provides an environment mathpar that behaves much as a loose centered paragraph where words are math formulas, and spaces between them are larger and adjustable. It also provides a macro \inferrule for typeseting fractions where both the numerator and denominator may be sequences of formulas that will be also typeset in a similar way. It can typically be used for typeseting sets of type inference rules or typing derivations. A macro inferrule for typesetting type inference rules. %package -n texlive-mathpunctspace Summary: Control the space after punctuation in math expressions Version: svn46754 License: BSD-2-Clause Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xkeyval.sty) Provides: tex(mathpunctspace.sty) = %{tl_version} %description -n texlive-mathpunctspace Control the space after punctuation in math expressions This package provides a mechanism to control the space after commas and semicolons in mathematical expressions. %package -n texlive-mathsemantics Summary: Semantic math commands in LaTeX Version: svn63241 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(calc.sty) Requires: tex(ifthen.sty) Requires: tex(ifxetex.sty) Requires: tex(mathtools.sty) Requires: tex(xifthen.sty) Requires: tex(xparse.sty) Requires: tex(xspace.sty) Provides: tex(mathsemantics-abbreviations.sty) = %{tl_version} Provides: tex(mathsemantics-commons.sty) = %{tl_version} Provides: tex(mathsemantics-manifolds.sty) = %{tl_version} Provides: tex(mathsemantics-names.sty) = %{tl_version} Provides: tex(mathsemantics-optimization.sty) = %{tl_version} Provides: tex(mathsemantics-semantic.sty) = %{tl_version} Provides: tex(mathsemantics-syntax.sty) = %{tl_version} Provides: tex(mathsemantics.sty) = %{tl_version} %description -n texlive-mathsemantics Semantic math commands in LaTeX This LaTeX package provides both syntactic and semantic helpers to typeset mathematics in LaTeX. The syntactic layer eases typesetting of formulae in general, while the semantic layer provides commands like \inner{x}{y} to unify typesetting of inner products. These not only unify typesetting of math formulae but also allow to easily adapt notation if a user prefers to. The semantic layer is split into topics. %package -n texlive-matlab-prettifier Summary: Pretty-print Matlab source code Version: svn34323 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(listings.sty) Requires: tex(textcomp.sty) Requires: tex(xcolor.sty) Provides: tex(matlab-prettifier.sty) = %{tl_version} %description -n texlive-matlab-prettifier Pretty-print Matlab source code The package extends the facilities of the listings package, to pretty-print Matlab and Octave source code. (Note that support of Octave syntax is not complete.) %package -n texlive-matrix-skeleton Summary: A PGF/TikZ library that simplifies working with multiple matrix nodes Version: svn65013 License: LicenseRef-isc Requires: texlive-base Requires: texlive-kpathsea Provides: tex(pgflibrarymatrix.skeleton.code.tex) = %{tl_version} Provides: tex(tikzlibrarymatrix.skeleton.code.tex) = %{tl_version} %description -n texlive-matrix-skeleton A PGF/TikZ library that simplifies working with multiple matrix nodes The package provides a PGF/TikZ library that simplifies working with multiple matrix nodes. To do so, it correctly aligns groups of nodes with the content of the whole matrix. Furthermore, matrix.skeleton provides rows and columns for easy styling. %package -n texlive-mattens Summary: Matrices/tensor typesetting Version: svn62326 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(mattens.sty) = %{tl_version} %description -n texlive-mattens Matrices/tensor typesetting The mattens package contains the definitions to typeset matrices, vectors and tensors as used in the engineering community for the representation of common vectors and tensors such as forces, velocities, moments of inertia, etc. %package -n texlive-mecaso Summary: Formulas frequently used in rigid body mechanics Version: svn60346 License: GPL-3.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(mathrsfs.sty) Provides: tex(mecaso.sty) = %{tl_version} %description -n texlive-mecaso Formulas frequently used in rigid body mechanics This package provides a number of formulas frequently used in rigid body mechanics. Since most of these formulas are long and tedious to write, this package wraps them up in short commands. %package -n texlive-medmath Summary: Better medium-size math commands Version: svn74208 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(array.sty) Requires: tex(etoolbox.sty) Provides: tex(medmath.sty) = %{tl_version} %description -n texlive-medmath Better medium-size math commands This package started as a fork of the mediummath code of the nccmath package, aiming to provide more stable and flexible medium-size math commands. This concerns sizes of operators and infinite loops caused by definite integrals. %package -n texlive-membranecomputing Summary: Membrane Computing notation Version: svn64627 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(xstring.sty) Provides: tex(membranecomputing.sty) = %{tl_version} %description -n texlive-membranecomputing Membrane Computing notation This is a LaTeX package for the Membrane Computing community. It comprises the definition of P systems, rules and some concepts related to languages and computational complexity usually needed for Membrane Computing research. The package depends on ifthen and xstring. %package -n texlive-memorygraphs Summary: TikZ styles to typeset graphs of program memory Version: svn49631 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(memorygraphs.sty) = %{tl_version} %description -n texlive-memorygraphs TikZ styles to typeset graphs of program memory This package defines some TikZ styles and adds anchors to existing styles that ease the declaration of "memory graphs". It is intended for graphs that represent the memory of a computer program during its execution. %package -n texlive-messagepassing Summary: Draw diagrams to represent communication protocols Version: svn69123 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(float.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(messagepassing.sty) = %{tl_version} %description -n texlive-messagepassing Draw diagrams to represent communication protocols This package provides an environment to easily draw diagrams to represent communication protocols using message passing among processes. Processes are represented as horizontal or vertical lines, and communications as arrows between lines. The package also provides multiple macros to decorate those diagrams, for instance to annotate the diagram, to add crashes to the processes, checkpoints, ... %package -n texlive-mgltex Summary: High-quality graphics from MGL scripts embedded in LaTeX documents Version: svn63255 License: GPL-3.0-only AND LicenseRef-cc-by-sa-3 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(graphicx.sty) Requires: tex(ifpdf.sty) Requires: tex(keyval.sty) Requires: tex(verbatim.sty) Provides: tex(mgltex.sty) = %{tl_version} %description -n texlive-mgltex High-quality graphics from MGL scripts embedded in LaTeX documents This package allows you to create high-quality publication-ready graphics directly from MGL scripts embedded into your LaTeX document, using the MathGL library. Besides following the LaTeX philosophy of allowing you to concentrate on content rather than output (mglTeX takes care of producing the output), mglTeX facilitates the maintenance of your document, since both code for text and code for plots are contained in a single file. MathGL. is a fast and efficient library by Alexey Balakin for the creation of high-quality publication-ready scientific graphics. Although it defines interfaces for many programming languages, it also implements its own scripting language, called MGL, which can be used independently. %package -n texlive-mhchem Summary: Typeset chemical formulae/equations and H and P statements Version: svn69639 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-amsmath Requires: texlive-chemgreek Requires: texlive-graphics Requires: texlive-l3kernel Requires: texlive-l3packages Requires: texlive-tools Requires: tex(amsmath.sty) Requires: tex(calc.sty) Requires: tex(chemgreek.sty) Requires: tex(graphics.sty) Requires: tex(iflang.sty) Requires: tex(ifthen.sty) Requires: tex(pgf.sty) Requires: tex(textcomp.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(hpstatement-bg.inc.sty) = %{tl_version} Provides: tex(hpstatement-cs.inc.sty) = %{tl_version} Provides: tex(hpstatement-da.inc.sty) = %{tl_version} Provides: tex(hpstatement-de.inc.sty) = %{tl_version} Provides: tex(hpstatement-el.inc.sty) = %{tl_version} Provides: tex(hpstatement-en.inc.sty) = %{tl_version} Provides: tex(hpstatement-es.inc.sty) = %{tl_version} Provides: tex(hpstatement-et.inc.sty) = %{tl_version} Provides: tex(hpstatement-fi.inc.sty) = %{tl_version} Provides: tex(hpstatement-fr.inc.sty) = %{tl_version} Provides: tex(hpstatement-ga.inc.sty) = %{tl_version} Provides: tex(hpstatement-hr.inc.sty) = %{tl_version} Provides: tex(hpstatement-hu.inc.sty) = %{tl_version} Provides: tex(hpstatement-it.inc.sty) = %{tl_version} Provides: tex(hpstatement-lt.inc.sty) = %{tl_version} Provides: tex(hpstatement-lv.inc.sty) = %{tl_version} Provides: tex(hpstatement-mt.inc.sty) = %{tl_version} Provides: tex(hpstatement-nl.inc.sty) = %{tl_version} Provides: tex(hpstatement-pl.inc.sty) = %{tl_version} Provides: tex(hpstatement-pt.inc.sty) = %{tl_version} Provides: tex(hpstatement-ro.inc.sty) = %{tl_version} Provides: tex(hpstatement-sk.inc.sty) = %{tl_version} Provides: tex(hpstatement-sl.inc.sty) = %{tl_version} Provides: tex(hpstatement-sv.inc.sty) = %{tl_version} Provides: tex(hpstatement.sty) = %{tl_version} Provides: tex(mhchem.sty) = %{tl_version} Provides: tex(rsphrase.sty) = %{tl_version} %description -n texlive-mhchem Typeset chemical formulae/equations and H and P statements The bundle provides three packages: The mhchem package provides commands for typesetting chemical molecular formulae and equations. The hpstatement package provides commands for the official hazard statements and precautionary statements (H and P statements) that are used to label chemicals. The rsphrase package provides commands for the official Risk and Safety (R and S) Phrases that are used to label chemicals. The package requires the expl3 bundle. %package -n texlive-mhequ Summary: Multicolumn equations, tags, labels, sub-numbering Version: svn64978 License: LicenseRef-Public-Domain Requires: texlive-base Requires: texlive-kpathsea Provides: tex(mhequ.sty) = %{tl_version} %description -n texlive-mhequ Multicolumn equations, tags, labels, sub-numbering The mhequ style file simplifies creating multi-column equation environments and tagging equations therein. It supports sub-numbering of blocks of equations (like (1.2a), (1.2b), etc) and references to each equation individually (1.2a) or to the whole block (1.2). The labels can be shown in draft mode. The default behaviour is to show an equation number if and only if the equation actually has a label, which reduces visual clutter. Comments in the package itself describe its usage, which should also be self-evident from the provided example file. %package -n texlive-miller Summary: Typeset miller indices Version: svn18789 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(miller.sty) = %{tl_version} %description -n texlive-miller Typeset miller indices Typeset miller indices, e.g., <1-20>, that are used in material science with an easy syntax. Minus signs are printed as bar above the corresponding number. %package -n texlive-mismath Summary: Miscellaneous mathematical macros Version: svn71549 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(decimalcomma.sty) Requires: tex(esvect.sty) Requires: tex(etoolbox.sty) Requires: tex(ibrackets.sty) Requires: tex(iftex.sty) Requires: tex(ifthen.sty) Requires: tex(mathtools.sty) Requires: tex(mleftright.sty) Requires: tex(xkeyval.sty) Requires: tex(xparse.sty) Requires: tex(xspace.sty) Provides: tex(mismath.sty) = %{tl_version} %description -n texlive-mismath Miscellaneous mathematical macros The package provides some mathematical macros to typeset: mathematical constants e, i, p in upright shape (automatically) as recommended by ISO 80000-2, vectors with nice arrows and adjusted norm (and tensors), tensors in sans serif bold italic shape, some standard operator names, improved spacings in mathematical formulas, systems of equations and small matrices, displaymath in double columns for lengthy calculations. %package -n texlive-moremath Summary: Additional commands for typesetting maths Version: svn72072 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(bm.sty) Requires: tex(mathtools.sty) Provides: tex(moremath.sty) = %{tl_version} %description -n texlive-moremath Additional commands for typesetting maths This package provides several document level commands to ease typesetting of maths with LaTeX. This package provides complementary commands to all operators defined by amsmath which typeset the operators together with delimiters (which can be scaled manually, automatically or not at all). These commands also accept optional sub- and superscripts. Additionally, this package provides several commands to typeset gradient, divergence, curl, Laplace, and d'Alembert operators. Those commands also accept an optional subscript and their appearance can be modified using key-value options. Furthermore several commands for producing row and column vectors, as well as (anti-)diagonal matrices and identity matrices, utilizing mathtools' matrix* family of environments, are provided. Most of the document level commands defined by this package can also be disabled using a package load-time option to avoid clashes with commands defined by other packages. The package depends on mathtools, bm (optional), and amssymb. %package -n texlive-multiobjective Summary: Symbols for multiobjective optimisation etc. Version: svn75878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Provides: tex(multiobjective.sty) = %{tl_version} %description -n texlive-multiobjective Symbols for multiobjective optimisation etc. The package provides a series of operators commonly used in papers related to multiobjective optimisation, multiobjective evolutionary algorithms, multicriteria decision making and similar fields. %package -n texlive-naive-ebnf Summary: EBNF in plain text Version: svn72843 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-filecontentsdef Requires: texlive-l3kernel Requires: texlive-pgfopts Requires: tex(pgfopts.sty) Requires: tex(xcolor.sty) Provides: tex(naive-ebnf.sty) = %{tl_version} %description -n texlive-naive-ebnf EBNF in plain text With the help of this LaTeX package a context-free grammar (CFG) may be rendered in a plain-text mode using a simplified Extended Backus-Naur Form (EBNF) notation. %package -n texlive-namedtensor Summary: Macros for named tensor notation Version: svn65346 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(namedtensor.sty) = %{tl_version} %description -n texlive-namedtensor Macros for named tensor notation This style file provides macros for named tensor notation. Please see the paper 'Named Tensor Notation' for background on this notation. %package -n texlive-natded Summary: Typeset natural deduction proofs Version: svn32693 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Provides: tex(natded.sty) = %{tl_version} %description -n texlive-natded Typeset natural deduction proofs The package provides commands to typeset proofs in the style used by Jaskowski, or that of Kalish and Montague. %package -n texlive-nath Summary: Natural mathematics notation Version: svn15878 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Provides: tex(nath.sty) = %{tl_version} %description -n texlive-nath Natural mathematics notation Nath is a LaTeX (both 2e and 2.09) style to separate presentation and content in mathematical typography. The style delivers a particular context-dependent presentation on the basis of a rather coarse context-independent notation. Highlighted features: depending on the context, the command \frac produces either built-up or case or solidus fractions, with parentheses added whenever required for preservation of the mathematical meaning; delimiters adapt their size to the material enclosed, rendering \left and \right almost obsolete. %package -n texlive-nchairx Summary: Maths macros from chair X of Wurzburg University Version: svn60196 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(aliascnt.sty) Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(enumitem.sty) Requires: tex(graphicx.sty) Requires: tex(mathtools.sty) Requires: tex(ntheorem.sty) Requires: tex(suffix.sty) Requires: tex(tensor.sty) Requires: tex(xkeyval.sty) Provides: tex(chairxmath.sty) = %{tl_version} Provides: tex(nchairx.sty) = %{tl_version} %description -n texlive-nchairx Maths macros from chair X of Wurzburg University This package was developed by members of the chair for mathematical physics at the University of Wurzburg as a collection of macros and predefined environments for quickly creating nice mathematical documents. (Note concerning the package name: the "n" stands for "new", the "X" is a roman 10.) %package -n texlive-nicematrix Summary: Improve the typesetting of mathematical matrices with PGF Version: svn76149 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pgfcore.sty) Provides: tex(nicematrix.sty) = %{tl_version} %description -n texlive-nicematrix Improve the typesetting of mathematical matrices with PGF This package is based on the package array. It creates PGF/TikZ nodes under the cells of the array and uses these nodes to provide functionalities to construct tabulars, arrays and matrices. Among the features : continuous dotted lines for the mathematical matrices; exterior rows and columns (so-called border matrices); control of the width of the columns; tools to color rows and columns with a good PDF result; blocks of cells; tabular notes; etc. The package requires and loads array, amsmath, pgfcore, and the module shapes of PGF. %package -n texlive-nuc Summary: Notation for nuclear isotopes Version: svn22256 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Provides: tex(nuc.sty) = %{tl_version} %description -n texlive-nuc Notation for nuclear isotopes A simple package providing nuclear sub- and superscripts as commonly used in radiochemistry, radiation science, and nuclear physics and engineering applications. Isotopes which have Z with more digits than A require special spacing to appear properly; this spacing is supported in the package. %package -n texlive-nucleardata Summary: Provides data about atomic nuclides for documents Version: svn47307 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pythontex.sty) Requires: tex(siunitx.sty) Provides: tex(nucleardata.sty) = %{tl_version} %description -n texlive-nucleardata Provides data about atomic nuclides for documents The package provides data and commands for including nuclear and atomic mass and energy data in LaTeX documents. It uses the PythonTeX package and requires pythontex.exe to be called with the TeX file as the argument. %package -n texlive-numbersets Summary: Display number sets with customizable typefaces Version: svn72558 License: MIT Requires: texlive-base Requires: texlive-kpathsea Provides: tex(numbersets.sty) = %{tl_version} %description -n texlive-numbersets Display number sets with customizable typefaces This package allows users to express mathematical concepts related to sets of numbers using meaningful commands rather than relying on visual representations. Key Features: Command to specify typefaces for number sets. Interface for defining typeface rules. Interface for creating commands that represent number sets. Several predefined presets for common number sets. %package -n texlive-numerica Summary: Numerically evaluate mathematical expressions in LaTeX form Version: svn68021 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(mathtools.sty) Provides: tex(numerica.sty) = %{tl_version} %description -n texlive-numerica Numerically evaluate mathematical expressions in LaTeX form This package defines a command to wrap around a mathematical expression in its LaTeX form and, once values are assigned to variables, numerically evaluate it. The intent is to avoid the need to modify the LaTeX form of the expression being evaluated. For programs with a preview facility like LyX, or compile-as-you-go systems, interactive back-of-envelope calculations and numerical exploration are possible within the document being worked on. The package requires the bundles l3kernel and l3packages, and the amsmath and mathtools packages. %package -n texlive-numerica-plus Summary: Iteration and recurrence relations: finding fixed points, zeros and extrema of functions Version: svn68019 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(numerica-plus.sty) = %{tl_version} %description -n texlive-numerica-plus Iteration and recurrence relations: finding fixed points, zeros and extrema of functions The package defines commands to iterate functions of a single variable, find fixed points, zeros and extrema of such functions, and calculate the terms of recurrence relations. numerica-plus requires the package numerica, which in turn requires l3kernel , l3packages, and the amsmath and mathtools packages. %package -n texlive-numerica-tables Summary: Create multi-column tables of mathematical functions Version: svn72911 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(booktabs.sty) Provides: tex(numerica-tables.sty) = %{tl_version} %description -n texlive-numerica-tables Create multi-column tables of mathematical functions The package defines a command to create possibly multi-column tables of mathematical function values. Key = value settings produce a wide variety of table styles consistent with the booktabs package (required). Also required are the packages numerica, l3kernel, l3packages, amsmath and mathtools. %package -n texlive-objectz Summary: Macros for typesetting Object Z Version: svn61719 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Provides: tex(oz.sty) = %{tl_version} %description -n texlive-objectz Macros for typesetting Object Z The package will typeset both Z and Object-Z specifications; it develops the original zed package %package -n texlive-odesandpdes Summary: Optimizing workflow involving odes and pdes Version: svn69485 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xkeyval.sty) Provides: tex(odesandpdes.sty) = %{tl_version} %description -n texlive-odesandpdes Optimizing workflow involving odes and pdes This package is the solution no one asked for, to a problem nobody had. Have you ever thought to yourself "wow, I sure do dislike having to remember multiple macros for my odes and pdes" and the author of this package has to agree, wholeheartedly. In the modern world of "tik-toking" and "family guy surfing" our brains have rotted beyond salvage for even basic levels of cognitive recall. This package aims to fix this, through two macros that have been set to each have an identical form and function with an emphasis on intuitive use. Through setting options, the multiple common notational style are easily swapped between, all by a single option. You're Welcome. %package -n texlive-oplotsymbl Summary: Some symbols which are not easily available Version: svn44951 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(oplotsymbl.sty) = %{tl_version} %description -n texlive-oplotsymbl Some symbols which are not easily available This package is named oPlotSymbl and it includes symbols, which are not easily available. Especially, these symbols are used in scientific plots, but the potential user is allowed to use them in other ways. This package uses TikZ and xcolor. %package -n texlive-ot-tableau Summary: Optimality Theory tableaux in LaTeX Version: svn67813 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(arydshln.sty) Requires: tex(bbding.sty) Requires: tex(colortbl.sty) Requires: tex(hhline.sty) Requires: tex(rotating.sty) Requires: tex(suffix.sty) Requires: tex(tipa.sty) Requires: tex(xstring.sty) Provides: tex(ot-tableau.sty) = %{tl_version} %description -n texlive-ot-tableau Optimality Theory tableaux in LaTeX The package makes it easy to create beautiful optimality-theoretic tableaux. The LaTeX source is visually very similar to a formatted tableau, which makes working with the source code painless (well, less painful). A variety of stylistic variants are available to suit personal taste. The package requires xstring, amssymb, bbding, suffix, colortbl, rotating, hhline (optionally), arydshln, and tipa (optionally). %package -n texlive-oubraces Summary: Braces over and under a formula Version: svn21833 License: BSD-1-Clause Requires: texlive-base Requires: texlive-kpathsea Provides: tex(oubraces.sty) = %{tl_version} %description -n texlive-oubraces Braces over and under a formula Provides a means to interleave \overbrace and \underbrace in the same formula. %package -n texlive-overarrows Summary: Custom extensible arrows over math expressions Version: svn75067 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(esvect.sty) Requires: tex(etoolbox.sty) Requires: tex(old-arrows.sty) Requires: tex(pgfkeys.sty) Requires: tex(pstricks-add.sty) Requires: tex(tikz.sty) Provides: tex(overarrows.sty) = %{tl_version} %description -n texlive-overarrows Custom extensible arrows over math expressions A LaTeX package to create custom arrows over math expressions, mainly for vectors (but arrows can as well be drawn below). Arrows stretch with content, scale with math styles, and have a correct kerning when a subscript follows. Some predefined commands are also provided. %package -n texlive-pascaltriangle Summary: Draw beautiful Pascal (Yanghui) triangles Version: svn61774 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xparse.sty) Provides: tex(pascaltriangle.sty) = %{tl_version} %description -n texlive-pascaltriangle Draw beautiful Pascal (Yanghui) triangles This LaTeX3 package based on TikZ helps to generate beautiful Pascal (Yanghui) triangles. It provides a unique drawing macro \pascal which can generate isosceles or right-angle triangles customized by means of different \pascal macro options or the \pascalset macro. %package -n texlive-perfectcut Summary: Nested delimiters that consistently grow regardless of the contents Version: svn67201 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(graphicx.sty) Requires: tex(mathstyle.sty) Requires: tex(scalerel.sty) Provides: tex(perfectcut.sty) = %{tl_version} %description -n texlive-perfectcut Nested delimiters that consistently grow regardless of the contents This package defines the command \perfectcut#1#2 which displays a bracket <#1||#2>. Various other delimiters are similarly defined (parentheses, square brackets ...). The effect of these commands is to let the delimiters grow according to the number of nested \perfectcommands (regardless of the size of the contents). The package was originally intended for solving a notational issue for direct-style continuation calculi in proof theory. For general use, the package also defines commands for defining other sorts of delimiters which will behave in the same way (see example in the documentation). The package also offers a robust reimplementation of \big, \bigg, etc. %package -n texlive-pfdicons Summary: Draw process flow diagrams in chemical engineering Version: svn60089 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(tikz.sty) Provides: tex(pfdicons.sty) = %{tl_version} %description -n texlive-pfdicons Draw process flow diagrams in chemical engineering This package provides TikZ shapes to represent commonly encountered unit operations for depiction in process flow diagrams (PFDs) and, to a lesser extent, process and instrumentation diagrams (PIDs). The package was designed with undergraduate chemical engineering students and faculty in mind, and the number of units provided should cover--in Turton's estimate--about 90 percent of all fluid processing operations. %package -n texlive-physconst Summary: Macros for commonly used physical constants Version: svn58727 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(physunits.sty) Provides: tex(physconst.sty) = %{tl_version} %description -n texlive-physconst Macros for commonly used physical constants This package consists of several macros that are shorthand for a variety of physical constants, e.g. the speed of light. The package developed out of physics and astronomy classes that the author has taught and wanted to ensure that he had correct values for each constant and did not wish to retype them every time he uses them. The constants can be used in two forms, the most accurate available values, or versions that are rounded to 3 significant digits for use in typical classroom settings, homework assignments, etc. Most constants are taken from CODATA 2018, with the exception of the astronomical objects, whose values are taken from International Astronomical Union specified values. Constants that are derived from true constants, e.g. the fine structure constant, have been calculated using the accepted values of the fundamental constants. %package -n texlive-physics Summary: Macros supporting the Mathematics of Physics Version: svn74247 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(xparse.sty) Provides: tex(physics.sty) = %{tl_version} %description -n texlive-physics Macros supporting the Mathematics of Physics The package defines simple and flexible macros for typesetting equations in the languages of vector calculus and linear algebra, using Dirac notation. %package -n texlive-physics-patch Summary: Improved version of the physics package Version: svn75917 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(etoolbox.sty) Requires: tex(siunitx.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(physics-patch.sty) = %{tl_version} %description -n texlive-physics-patch Improved version of the physics package This package requires the amsmath, etoolbox, xcolor, xparse, and xstring packages. Commands that have different definitions come with PT in the beginning of their name (e.g. \PTmqty). physics-patch has covered all commands in physics since version 2.0, so there's no need to load physics. It is ok to load physics before this package. This package will silently override macros in physics with an improved version. To use the original version provided by physics, load physics before this package and use the nooverride option (not recommended). This package pretends that the physics package is loaded so that this package won't be overriden if loading physics is called afterwards and packages loaded afterwards that check whether physics is loaded to determine their behavior (e.g. siunitx) work correctly. To disable this, use the nopretend option (not recommended). If siunitx is loaded before this package, this package will define \ITquantity and \ITqty as the integration of the improved definition of physics's \qty (in \PHquantity and \PHqty) and siuitx's \SI. You can optionally set the siintegrate option to override \PTquantity and \PTqty with \ITqty (not recommended). If two opposite options -- one of them with the name of the other prefixed with a no -- are loaded at the same time, the one without the no in the name will be used. If two opposite options which have the same suffix and different prefixes are loaded at the same time, the default one will be used. %package -n texlive-physics2 Summary: Macros for typesetting maths faster and more simply Version: svn69369 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Requires: tex(fixdif.sty) Requires: tex(keyval.sty) Provides: tex(phy-ab.braket.sty) = %{tl_version} Provides: tex(phy-ab.legacy.sty) = %{tl_version} Provides: tex(phy-ab.sty) = %{tl_version} Provides: tex(phy-bm-um.legacy.sty) = %{tl_version} Provides: tex(phy-braket.sty) = %{tl_version} Provides: tex(phy-diagmat.sty) = %{tl_version} Provides: tex(phy-doubleprod.sty) = %{tl_version} Provides: tex(phy-nabla.legacy.sty) = %{tl_version} Provides: tex(phy-op.legacy.sty) = %{tl_version} Provides: tex(phy-qtext.legacy.sty) = %{tl_version} Provides: tex(phy-xmat.sty) = %{tl_version} Provides: tex(physics2.sty) = %{tl_version} %description -n texlive-physics2 Macros for typesetting maths faster and more simply The physics2 package defines commands for typesetting maths formulae faster and more simply. physics2 is a modularized package, each module provides its own function. You can load modules separately after loading physics2. Modules of physics provide the following support: Automatic braces; Dirac bra-ket notation; Easy way to typeset diagonal matrices and matrices with similar entries; Double cross and double dot (binary) operators for tensors. %package -n texlive-physunits Summary: Macros for commonly used physical units Version: svn58728 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(physunits.sty) = %{tl_version} %description -n texlive-physunits Macros for commonly used physical units This package provides a collection of macros to simplify using physical units (e.g. m for meters, J for joules, etc.), especially in math mode. All major SI units are included, as well as some cgs units used in astronomy. %package -n texlive-pinoutikz Summary: Draw chip pinouts with TikZ Version: svn55966 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(arrayjob.sty) Requires: tex(forarray.sty) Requires: tex(ifthen.sty) Requires: tex(lmodern.sty) Requires: tex(pgf.sty) Requires: tex(tikz.sty) Requires: tex(upquote.sty) Requires: tex(xstring.sty) Provides: tex(pinoutikz.sty) = %{tl_version} %description -n texlive-pinoutikz Draw chip pinouts with TikZ The package provides a set of macros for typesetting electronic chip pinouts. It is designed as a tool that is easy to use, with a lean syntax, native to LaTeX, and directly supporting PDF output format. It has therefore been based on the very impressive TikZ package. %package -n texlive-pm-isomath Summary: Poor man ISO math for pdfLaTeX users Version: svn60368 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(etoolbox.sty) Requires: tex(iftex.sty) Requires: tex(xparse.sty) Provides: tex(pm-isomath.sty) = %{tl_version} %description -n texlive-pm-isomath Poor man ISO math for pdfLaTeX users This small package realizes a poor man approximation of the ISO regulations for physical sciences and technology. Contrary to other more elegant solutions, it does not load any math alphabet, since pdfLaTeX can use only a maximum of such alphabets. The necessary user macros are defined for typsetting common math symbols that require special ISO treatment. %package -n texlive-pmdraw Summary: Draw elements of the diagram monoids Version: svn75932 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Requires: tex(xkeyval.sty) Provides: tex(pmdraw.sty) = %{tl_version} %description -n texlive-pmdraw Draw elements of the diagram monoids This package allows you to draw elements of the diagram monoids, commonly referred to as diagrams. The package provides a lot of flexibility to draw most diagrams and can be customised as needed. It makes use of the TikZ and keyval packages. %package -n texlive-polexpr Summary: A parser for polynomial expressions Version: svn63337 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xintexpr.sty) Provides: tex(polexpr-examples.tex) = %{tl_version} Provides: tex(polexpr.sty) = %{tl_version} Provides: tex(polexprcore.tex) = %{tl_version} Provides: tex(polexprexpr.tex) = %{tl_version} Provides: tex(polexprsturm.tex) = %{tl_version} %description -n texlive-polexpr A parser for polynomial expressions The package provides a parser \poldef of algebraic polynomial expressions. As it is based on xintexpr, the coefficients are allowed to be arbitrary rational numbers. Once defined, a polynomial is usable by its name either as a numerical function in \xintexpr/\xinteval, or for additional polynomial definitions, or as argument to the package macros. The localization of real roots to arbitrary precision as well as the determination of all rational roots is implemented via such macros. Since release 0.8, polexpr extends the xintexpr syntax to recognize polynomials as a new variable type (and not only as functions). Functionality which previously was implemented via macros such as the computation of a greatest common divisor is now available directly in \xintexpr, \xinteval or \poldef via infix or functional syntax. %package -n texlive-prftree Summary: Macros for building proof trees Version: svn54080 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Provides: tex(prftree.sty) = %{tl_version} %description -n texlive-prftree Macros for building proof trees A package to typeset proof trees for natural deduction calculi, sequent-like calculi, and similar. %package -n texlive-principia Summary: Notations for typesetting the "Principia Mathematica" Version: svn74710 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(graphicx.sty) Requires: tex(pifont.sty) Provides: tex(principia.sty) = %{tl_version} %description -n texlive-principia Notations for typesetting the "Principia Mathematica" This package supports typesetting the Peanese notation in Volumes I-III of Whitehead and Russell's 1910 "Principia Mathematica". %package -n texlive-proba Summary: Shortcuts commands to symbols used in probability texts Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsfonts.sty) Provides: tex(proba.sty) = %{tl_version} %description -n texlive-proba Shortcuts commands to symbols used in probability texts This package includes some of the most often used commands in probability texts, e.g. probability, expectation, variance, etc. It also includes some short commands for set (blackboard) or filtrations (calligraphic). It requires LaTeX2e and the amsfonts package. %package -n texlive-proof-at-the-end Summary: A package to move proofs to appendix Version: svn75479 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(catchfile.sty) Requires: tex(etoolbox.sty) Requires: tex(hyperref.sty) Requires: tex(kvoptions.sty) Requires: tex(pgfkeys.sty) Requires: tex(thm-restate.sty) Requires: tex(thmtools.sty) Requires: tex(xparse.sty) Provides: tex(proof-at-the-end.sty) = %{tl_version} %description -n texlive-proof-at-the-end A package to move proofs to appendix This package aims to provide a way to easily move proofs to the appendix. You can (among other things) move proofs to different places/sections, create links from theorems to proofs, restate theorems, add comments in appendix... %package -n texlive-prooftrees Summary: Forest-based proof trees (symbolic logic) Version: svn76232 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(amstext.sty) Requires: tex(forest.sty) Requires: tex(svn-prov.sty) Requires: tex(unicode-math.sty) Provides: tex(prooftrees-debug.sty) = %{tl_version} Provides: tex(prooftrees.sty) = %{tl_version} %description -n texlive-prooftrees Forest-based proof trees (symbolic logic) The package supports drawing proof trees of the kind often used in introductory logic classes, especially those aimed at students without strong mathematical backgrounds. Hodges (1991) is one example of a text which uses this system. When teaching such a system it is especially useful to annotate the tree with line numbers, justifications and explanations of branch closures. prooftrees provides a single environment, prooftree, and a variety of tools for annotating, customising and highlighting such trees. A cross-referencing system is provided for trees which cite line numbers in justifications for proof lines or branch closures. prooftrees is based on forest and, hence, TikZ. The package requires version 2.0.2 of Forest for expected results and will not work with version 1. Out-of-the-box support for memoization is based on forest version 2.1. %package -n texlive-pseudo Summary: Straightforward pseudocode Version: svn66638 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(aliascnt.sty) Requires: tex(array.sty) Requires: tex(colortbl.sty) Requires: tex(etoolbox.sty) Requires: tex(pgfkeys.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(pseudo.sty) = %{tl_version} %description -n texlive-pseudo Straightforward pseudocode The package permits writing pseudocode without much fuss and with quite a bit of configurability. Its main environment combines aspects of enumeration, tabbing and tabular for nonintrusive line numbering, indentation and highlighting, and there is functionality for typesetting common syntactic elements such as keywords, identifiers, and comments. The package relies on aliascnt, array, colortbl, expl3, l3keys2e, xcolor, and xparse. %package -n texlive-pseudocode Summary: LaTeX environment for specifying algorithms in a natural way Version: svn54080 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(fancybox.sty) Requires: tex(ifthen.sty) Provides: tex(pseudocode.sty) = %{tl_version} %description -n texlive-pseudocode LaTeX environment for specifying algorithms in a natural way This package provides the environment "pseudocode" for describing algorithms in a natural manner. %package -n texlive-pythonhighlight Summary: Highlighting of Python code, based on the listings package Version: svn70698 License: BSD-3-Clause Requires: texlive-base Requires: texlive-kpathsea Requires: tex(listings.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(pythonhighlight.sty) = %{tl_version} %description -n texlive-pythonhighlight Highlighting of Python code, based on the listings package Highlighting of Python code, based on the listings package. %package -n texlive-qsharp Summary: Syntax highlighting for the Q# language Version: svn49722 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(listings.sty) Requires: tex(xcolor.sty) Provides: tex(qsharp.sty) = %{tl_version} %description -n texlive-qsharp Syntax highlighting for the Q# language The package provides syntax highlighting for the Q# language, a domain-specific language for quantum programming. %package -n texlive-quantikz Summary: Draw quantum circuit diagrams Version: svn67206 License: CC-BY-4.0 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(quantikz.sty) = %{tl_version} Provides: tex(tikzlibraryquantikz.code.tex) = %{tl_version} Provides: tex(tikzlibraryquantikz2.code.tex) = %{tl_version} %description -n texlive-quantikz Draw quantum circuit diagrams The purpose of this package is to extend TikZ with the functionality for drawing quantum circuit diagrams. %package -n texlive-quantum-chemistry-bonn Summary: Use consistent typsetting for quantum chemistry related software Version: svn75406 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(siunitx.sty) Requires: tex(xcolor.sty) Requires: tex(xparse.sty) Provides: tex(quantum-chemistry-bonn.sty) = %{tl_version} %description -n texlive-quantum-chemistry-bonn Use consistent typsetting for quantum chemistry related software This package gives access to several commands related to quantum chemistry. This includes consistent formatting of names of QC programs, as well as methods such as density functionals. Furthermore, units of energy are set, and easy-to-use commands are provided. Lastly, the corporate design colors of the University of Bonn are defined. %package -n texlive-quantumcubemodel Summary: Representation of quantum states in the quantum cube model Version: svn76130 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(braket.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Provides: tex(quantumcubemodel.sty) = %{tl_version} %description -n texlive-quantumcubemodel Representation of quantum states in the quantum cube model This package provides simple LaTeX commands to draw intuitive cube-based diagrams for quantum states of one, two, or three qubits. Inspired by Prof. B. Just's educational framework, it supports amplitude-phase notation, gate transition visualizations (Hadamard, Pauli, CNOT, Toffoli), and scaling options. The package is ideal for teaching and documenting small quantum circuits. %package -n texlive-quickreaction Summary: A simple and fast way to typeset chemical reactions Version: svn66867 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(quickreaction.sty) = %{tl_version} %description -n texlive-quickreaction A simple and fast way to typeset chemical reactions This package provides the quickreaction environment and the \quickarrow command to simplify the typesetting of chemical reactions. It is based on the TikZ matrix of nodes and aligns all the reactants and products at the center of the TikZ box in which they are contained. %package -n texlive-quiver Summary: Draw commutative diagrams exported from https://q.uiver.app Version: svn75606 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(tikz-cd.sty) Provides: tex(quiver.sty) = %{tl_version} %description -n texlive-quiver Draw commutative diagrams exported from https://q.uiver.app quiver is a modern graphical editor for commutative and pasting diagrams, capable of rendering high-quality diagrams for screen viewing, and exporting to LaTeX. This LaTeX package is intended to be used in conjunction with the editor, and provides the packages and styles that are used by diagrams exported from the editor. %package -n texlive-qworld Summary: Drawing string diagrams for monoidal categories and quantum theory in TeX Version: svn75910 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(pgffor.sty) Requires: tex(tikz.sty) Requires: tex(xfp.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(qworld.sty) = %{tl_version} %description -n texlive-qworld Drawing string diagrams for monoidal categories and quantum theory in TeX This LaTeX package has been designed for the typesetting of graphical languages grounded in monoidal category theory and its extensions. It provides a declarative, LaTeX-native interface for rendering string diagrams, eliminating the need for any external graphics software or manual image management. The package supports a wide spectrum of categorical structures frequently encountered in categorical quantum mechanics, algebraic structures, and diagrammatic reasoning, including but not limited to: Monoidal and symmetric monoidal categories Dual objects and pivotal / rigid categories Dagger categories Frobenius algebras and Hopf algebras Braided, balanced, and ribbon categories Internally, QWorld builds upon the TikZ graphics framework, but introduces a domain-specific layer of abstraction that aligns diagram syntax closely with categorical semantics. This design facilitates accurate and transparent visual representations of morphisms, tensor products, and composition, thereby supporting both formal exposition and pedagogical use. QWorld is intended for researchers and educators working in categorical logic, quantum foundations, topological quantum field theory (TQFT), and related domains where graphical calculi constitute an essential mode of reasoning. %package -n texlive-rank-2-roots Summary: Draw (mathematical) rank 2 root systems Version: svn75301 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(pgfkeys.sty) Requires: tex(pgfopts.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(rank-2-roots.sty) = %{tl_version} %description -n texlive-rank-2-roots Draw (mathematical) rank 2 root systems This package concerns mathematical drawings arising in representation theory. The purpose of this package is to ease drawing of rank 2 root systems, with Weyl chambers, weight lattices, and parabolic subgroups. Required packages are tikz, etoolbox, expl3, pgfkeys, pgfopts, xparse, and xstring. %package -n texlive-rbt-mathnotes Summary: Rebecca Turner's personal macros and styles for typesetting mathematics notes Version: svn61193 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(booktabs.sty) Requires: tex(caption.sty) Requires: tex(enumitem.sty) Requires: tex(etoolbox.sty) Requires: tex(footmisc.sty) Requires: tex(graphicx.sty) Requires: tex(hyperref.sty) Requires: tex(knowledge.sty) Requires: tex(kvoptions.sty) Requires: tex(listings.sty) Requires: tex(longtable.sty) Requires: tex(mathtools.sty) Requires: tex(mdframed.sty) Requires: tex(multirow.sty) Requires: tex(ntheorem.sty) Requires: tex(tabu.sty) Requires: tex(unicode-math.sty) Requires: tex(xkeyval.sty) Requires: tex(xparse.sty) Provides: tex(rbt-mathnotes-messages.sty) = %{tl_version} Provides: tex(rbt-mathnotes-util.sty) = %{tl_version} Provides: tex(rbt-mathnotes.sty) = %{tl_version} %description -n texlive-rbt-mathnotes Rebecca Turner's personal macros and styles for typesetting mathematics notes Styles for typesetting mathematics notes. Includes document classes for typesetting homework assignments and "formula cheat sheets" for exams. Several examples are included, along with rendered PDFs. %package -n texlive-rec-thy Summary: Commands to typeset recursion theory papers Version: svn74983 License: LicenseRef-Public-Domain Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(bbm.sty) Requires: tex(enumitem.sty) Requires: tex(etoolbox.sty) Requires: tex(ifmtarg.sty) Requires: tex(ifpdf.sty) Requires: tex(iftex.sty) Requires: tex(ltxcmds.sty) Requires: tex(mathrsfs.sty) Requires: tex(picture.sty) Requires: tex(suffix.sty) Requires: tex(xifthen.sty) Requires: tex(xkeyval.sty) Requires: tex(xparse.sty) Provides: tex(rec-thy.sty) = %{tl_version} %description -n texlive-rec-thy Commands to typeset recursion theory papers This package is designed to help mathematicians publishing papers in the area of recursion theory (aka Computability Theory) easily use standard notation. This includes easy commands to denote Turing reductions, Turing functionals, c.e. sets, stagewise computations, forcing and syntactic classes. %package -n texlive-reptheorem Summary: Repetition of theorem environments Version: svn76224 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(reptheorem.sty) = %{tl_version} %description -n texlive-reptheorem Repetition of theorem environments When writing a large manuscript, it is sometimes beneficial to repeat a theorem (or lemma or...) at an earlier or later point for didactical purposes. However, thmtools's built-in restatable only allows replicating theorems after they have been stated, and only in the same document. This package solves the issue by making use of the .aux file, and also introduces its own file extension, .thm, to replicate theorems in other files. %package -n texlive-resolsysteme Summary: Work on linear systems using xint or pyluatex Version: svn73069 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(listofitems.sty) Requires: tex(nicefrac.sty) Requires: tex(nicematrix.sty) Requires: tex(siunitx.sty) Requires: tex(xintexpr.sty) Requires: tex(xinttools.sty) Requires: tex(xstring.sty) Provides: tex(ResolSysteme.sty) = %{tl_version} %description -n texlive-resolsysteme Work on linear systems using xint or pyluatex This package provides some commands (in French) to perform calculations on small (2x2 or 3x3 or 4x4) linear systems, with xint or pyluatex: \DetMatrice or \DetMatricePY to diplay the determinant of a matrix (with formatting options); \MatriceInverse or \MatriceInversePY to display the invers of a matrix (with formatting options) ; \SolutionSysteme or \SolutionSystemePY to display the solution of a linear system (with formatting options); ... %package -n texlive-rest-api Summary: Describing a rest api Version: svn57068 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Requires: tex(color.sty) Requires: tex(colortbl.sty) Requires: tex(fontenc.sty) Requires: tex(listings.sty) Requires: tex(mdframed.sty) Requires: tex(tabularx.sty) Requires: tex(tikz.sty) Requires: tex(transparent.sty) Requires: tex(verbatim.sty) Requires: tex(xcolor.sty) Requires: tex(xifthen.sty) Requires: tex(xstring.sty) Provides: tex(rest-api.sty) = %{tl_version} %description -n texlive-rest-api Describing a rest api This LaTeX package provides macros to describe rest apis for documentation purposes. The endpoints can hold the following information: method description path parameter request body and content type response body, content type and status code %package -n texlive-revquantum Summary: Hacks to make writing quantum papers for revtex4-1 less painful Version: svn43505 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(algorithm.sty) Requires: tex(algpseudocode.sty) Requires: tex(amsbsy.sty) Requires: tex(amsfonts.sty) Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(amsthm.sty) Requires: tex(babel.sty) Requires: tex(braket.sty) Requires: tex(color.sty) Requires: tex(etoolbox.sty) Requires: tex(fontspec.sty) Requires: tex(graphicx.sty) Requires: tex(hyperref.sty) Requires: tex(iftex.sty) Requires: tex(ifthen.sty) Requires: tex(letltxmacro.sty) Requires: tex(listings.sty) Requires: tex(mathpazo.sty) Requires: tex(sourcecodepro.sty) Requires: tex(stmaryrd.sty) Requires: tex(textcomp.sty) Requires: tex(xcolor.sty) Provides: tex(revquantum.sty) = %{tl_version} %description -n texlive-revquantum Hacks to make writing quantum papers for revtex4-1 less painful This package provides a number of useful hacks to solve common annoyances with the revtex4-1 package, and to define notation in common use within quantum information. In doing so, it imports and configures a number of commonly-available and used packages, and where reasonable, provides fallbacks. It also warns when users try to load packages which are known to be incompatible with revtex4-1. %package -n texlive-ribbonproofs Summary: Drawing ribbon proofs Version: svn31137 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etextools.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Requires: tex(xstring.sty) Provides: tex(ribbonproofs.sty) = %{tl_version} %description -n texlive-ribbonproofs Drawing ribbon proofs The package provides a way to draw "ribbon proofs" in LaTeX. A ribbon proof is a diagrammatic representation of a mathematical proof that a computer program meets its specification. These diagrams are more human-readable, more scalable, and more easily modified than the corresponding textual proofs. %package -n texlive-rigidnotation Summary: Typeset vectors and matrices following the RIGID notation Version: svn71264 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-l3packages Requires: texlive-mathtools Requires: tex(mathtools.sty) Requires: tex(xparse.sty) Provides: tex(rigidnotation.sty) = %{tl_version} %description -n texlive-rigidnotation Typeset vectors and matrices following the RIGID notation This package provides LaTeX macros to easily and concisely typeset vectors and matrices in a flexible way such as to follow the RIGID notation convention. The package enables the user to define custom commands that can then be used in any math-mode environment to efficiently and rigorously typeset the notational elements commonly used in robotics research (and many other fields) for position vectors, rotation matrices, pose matrices, etc. %package -n texlive-rmathbr Summary: Repeating of math operator at the broken line and the new line in inline equations Version: svn57173 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifetex.sty) Requires: tex(ifluatex.sty) Requires: tex(xkeyval.sty) Provides: tex(rmathbr.sty) = %{tl_version} %description -n texlive-rmathbr Repeating of math operator at the broken line and the new line in inline equations Repeating of math operators at the broken line and the new line in inline equations is used in Cyrillic mathematical typography (Russian for example), but unfortunately LaTeX does not provide such an option. This package solves the problem by extending ideas described in M. I. Grinchuk "TeX and Russian Traditions of Typesetting", TUGboat 17(4) (1996) 385 and supports most of LaTeX mathematical packages. See the documentation for details. %package -n texlive-sankey Summary: Draw Sankey diagrams with TikZ Version: svn73396 License: LPPL-1.3c AND GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(accsupp.sty) Requires: tex(babel.sty) Requires: tex(bookmark.sty) Requires: tex(cmap.sty) Requires: tex(dtx-attach.sty) Requires: tex(dtxdescribe.sty) Requires: tex(embedfile.sty) Requires: tex(enumitem.sty) Requires: tex(etoc.sty) Requires: tex(etoolbox.sty) Requires: tex(fancyvrb.sty) Requires: tex(fontenc.sty) Requires: tex(footnote.sty) Requires: tex(geometry.sty) Requires: tex(hypdoc.sty) Requires: tex(inconsolata.sty) Requires: tex(inputenc.sty) Requires: tex(listings.sty) Requires: tex(lmodern.sty) Requires: tex(microtype.sty) Requires: tex(parskip.sty) Requires: tex(siunitx.sty) Requires: tex(tikz.sty) Requires: tex(varioref.sty) Requires: tex(xcolor.sty) Requires: tex(xfp.sty) Requires: tex(xparse.sty) Provides: tex(sankey-doc-preamble.sty) = %{tl_version} Provides: tex(sankey.sty) = %{tl_version} Provides: tex(tikzlibrarydubins.code.tex) = %{tl_version} %description -n texlive-sankey Draw Sankey diagrams with TikZ This package provides macros and an environment for creating Sankey diagrams, i.e. flow diagrams in which the width of the arrows is proportional to the flow rate. %package -n texlive-sasnrdisplay Summary: Typeset SAS or R code or output Version: svn63255 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(caption.sty) Requires: tex(etoolbox.sty) Requires: tex(listings.sty) Requires: tex(needspace.sty) Requires: tex(xcolor.sty) Requires: tex(xkeyval.sty) Provides: tex(SASnRdisplay.sty) = %{tl_version} %description -n texlive-sasnrdisplay Typeset SAS or R code or output The SASnRdisplay package serves as a front-end to listings, which permits statisticians and others to import source code and the results of their calculations or simulations into LaTeX projects. The package is also capable of overloading the Sweave User Manual and SASweave packages. %package -n texlive-sciposter Summary: Make posters of ISO A3 size and larger Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-sciposter Make posters of ISO A3 size and larger This collection of files contains LaTeX packages for posters of ISO A3 size and larger (ISO A0 is the default size). American paper sizes and custom paper are supported. In particular, sciposter.cls defines a document class which allows cutting and pasting most of an article to a poster without any editing (save reducing the size) -- see the manual. Sciposter does work for LaTeX, not just pdfLaTeX. However, xdvi produces strange results, though a recent version of dvips does create good ps-files from the dvi files. Also note that logos must either be put in the current working directory or in the directories of your LaTeX distribution. For some reason graphicspath settings are ignored. %package -n texlive-sclang-prettifier Summary: Prettyprinting SuperCollider source code Version: svn35087 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(listings.sty) Requires: tex(textcomp.sty) Requires: tex(xcolor.sty) Provides: tex(sclang-prettifier.sty) = %{tl_version} %description -n texlive-sclang-prettifier Prettyprinting SuperCollider source code Built on top of the listings package, the package allows effortless prettyprinting of SuperCollider source code in documents typeset with LaTeX & friends. %package -n texlive-scratchx Summary: Include Scratch programs in LaTeX documents Version: svn44906 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(calc.sty) Requires: tex(fp.sty) Requires: tex(ifsym.sty) Requires: tex(ifthen.sty) Requires: tex(multido.sty) Requires: tex(xargs.sty) Requires: tex(xstring.sty) Provides: tex(ScratchX.sty) = %{tl_version} %description -n texlive-scratchx Include Scratch programs in LaTeX documents This package can be used to include every kind of Scratch program in LaTeX documents. This may be particularly useful for Math Teachers and IT specialists. The package depends on the following other LaTeX packages: calc, fp, ifsym, multido, tikz, xargs, and xstring. %package -n texlive-sesamanuel Summary: Class and package for sesamath books or paper Version: svn36613 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(babel.sty) Requires: tex(colortbl.sty) Requires: tex(esvect.sty) Requires: tex(etex.sty) Requires: tex(eurosym.sty) Requires: tex(fontenc.sty) Requires: tex(fontspec.sty) Requires: tex(helvet.sty) Requires: tex(ifmtarg.sty) Requires: tex(inputenc.sty) Requires: tex(longtable.sty) Requires: tex(mathpazo.sty) Requires: tex(mathrsfs.sty) Requires: tex(mathtools.sty) Requires: tex(multicol.sty) Requires: tex(multido.sty) Requires: tex(multirow.sty) Requires: tex(numprint.sty) Requires: tex(pgf.sty) Requires: tex(pifont.sty) Requires: tex(tabularx.sty) Requires: tex(tikz.sty) Requires: tex(tkz-tab.sty) Requires: tex(xcolor.sty) Requires: tex(xunicode.sty) Provides: tex(sesamanuel.sty) = %{tl_version} Provides: tex(sesamanuelTIKZ.sty) = %{tl_version} %description -n texlive-sesamanuel Class and package for sesamath books or paper The package contains a sesamanuel class which could be used to compose a student's classroom book with LaTeX, and also a sesamanuelTIKZ style to be used for TikZ pictures in the sesamath book. %package -n texlive-sfg Summary: Draw signal flow graphs Version: svn20209 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(fp.sty) Requires: tex(pstricks.sty) Provides: tex(sfg.sty) = %{tl_version} %description -n texlive-sfg Draw signal flow graphs Defines some commands to draw signal flow graphs as used by electrical and electronics engineers and graph theorists. Requires fp and pstricks packages (and a relatively fast machine). %package -n texlive-shuffle Summary: A symbol for the shuffle product Version: svn15878 License: LicenseRef-Public-Domain Requires: texlive-base Requires: texlive-kpathsea Provides: tex(shuffle.sty) = %{tl_version} %description -n texlive-shuffle A symbol for the shuffle product The bundle provides a LaTeX package and a font (as Metafont source) for the shuffle product which is used in some part of mathematics and physics. %package -n texlive-simplebnf Summary: A simple package to format Backus-Naur form (BNF) Version: svn75712 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(mathtools.sty) Requires: tex(tabularray.sty) Requires: tex(xparse.sty) Provides: tex(simplebnf.sty) = %{tl_version} %description -n texlive-simplebnf A simple package to format Backus-Naur form (BNF) This package provides a simple way for typesetting grammars in Backus-Naur form (BNF). The included bnf environment parses BNF expressions (possibly annotated), so users can write readable BNF expressions in their documents. It features a flexible configuration system, allowing for the customization of the domain-specific language (DSL) used in typesetting the grammar. Additionally, the package comes with sensible defaults. The package requires expl3, xparse, mathtools, and tabularray.. %package -n texlive-simpler-wick Summary: Simpler Wick contractions Version: svn71991 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pgfopts.sty) Requires: tex(tikz.sty) Provides: tex(simpler-wick.sty) = %{tl_version} %description -n texlive-simpler-wick Simpler Wick contractions In every quantum field theory course, there will be a chapter about Wick's theorem and how it can be used to convert a very large product of many creation and annihilation operators into something more tractable and normal ordered. The contractions are denoted with a square bracket over the operators which are being contracted, which used to be rather annoying to typeset in LaTeX as the only other package available was simplewick, which is rather unwieldy. This package provides a simpler syntax for Wick contractions. %package -n texlive-simples-matrices Summary: Define matrices by given list of values Version: svn63802 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(xparse.sty) Provides: tex(simples-matrices.sty) = %{tl_version} %description -n texlive-simples-matrices Define matrices by given list of values Macros to define and write matrices whose coefficients are given row by row in a list of values separated by commas. %package -n texlive-simplewick Summary: Simple Wick contractions Version: svn15878 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Provides: tex(simplewick.sty) = %{tl_version} %description -n texlive-simplewick Simple Wick contractions The package provides a simple means of drawing Wick contractions above and below expressions. %package -n texlive-sistyle Summary: Package to typeset SI units, numbers and angles Version: svn59682 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Provides: tex(sistyle.sty) = %{tl_version} %description -n texlive-sistyle Package to typeset SI units, numbers and angles This package typesets SI units, numbers and angles according to the ISO requirements. Care is taken with font setup and requirements, and language customisation is available. Note that this package is (in principle) superseded by siunitx; sistyle has maintenance-only support, now. %package -n texlive-siunits Summary: International System of Units Version: svn59702 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Provides: tex(SIunits.sty) = %{tl_version} Provides: tex(binary.sty) = %{tl_version} %description -n texlive-siunits International System of Units Typeset physical units following the rules of the International System of Units (SI). The package requires amstext, for proper representation of some values. Note that the package is now superseded by siunitx; siunits has maintenance-only support, now. %package -n texlive-siunitx Summary: A comprehensive (SI) units package Version: svn75734 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Requires: tex(array.sty) Requires: tex(xparse.sty) Provides: tex(siunitx-v2.sty) = %{tl_version} Provides: tex(siunitx.sty) = %{tl_version} %description -n texlive-siunitx A comprehensive (SI) units package Physical quantities have both numbers and units, and each physical quantity should be expressed as the product of a number and a unit. Typesetting physical quantities requires care to ensure that the combined mathematical meaning of the number-unit combination is clear. In particular, the SI units system lays down a consistent set of units with rules on how these are to be used. However, different countries and publishers have differing conventions on the exact appearance of numbers (and units). The siunitx package provides a set of tools for authors to typeset quantities in a consistent way. The package has an extended set of configuration options which make it possible to follow varying typographic conventions with the same input syntax. The package includes automated processing of numbers and units, and the ability to control tabular alignment of numbers. %package -n texlive-skmath Summary: Extensions to the maths command repertoir Version: svn52411 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(isomath.sty) Requires: tex(mathtools.sty) Requires: tex(xfrac.sty) Requires: tex(xparse.sty) Provides: tex(skmath.sty) = %{tl_version} %description -n texlive-skmath Extensions to the maths command repertoir The package provides a selection of new maths commands and improved re-definitions of existing commands. %package -n texlive-spalign Summary: Typeset matrices and arrays with spaces and semicolons as delimiters Version: svn42225 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(kvoptions.sty) Provides: tex(spalign.sty) = %{tl_version} %description -n texlive-spalign Typeset matrices and arrays with spaces and semicolons as delimiters Typeset matrices and arrays with spaces and semicolons as delimiters. The purpose of this package is to decrease the number of keystrokes needed to typeset small amounts of aligned material (matrices, arrays, etc.). It provides a facility for typing alignment environments and macros with spaces as the alignment delimiter and semicolons (by default) as the end-of-row indicator. For instance, typeset a matrix using \spalignmat{1 12 -3; 24 -2 2; 0 0 1}, or a vector using \spalignvector{22 \frac{1}{2} -14}. This package also contains utility macros for typesetting augmented matrices, vectors, arrays, systems of equations, and more, and is easily extendable to other situations that use alignments. People who have to typeset a large number of matrices (like linear algebra teachers) should find this package to be a real time saver. %package -n texlive-spbmark Summary: Customize superscripts and subscripts Version: svn75778 License: CC-BY-4.0 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(xparse.sty) Provides: tex(spbmark.sty) = %{tl_version} %description -n texlive-spbmark Customize superscripts and subscripts This package provides three commands \super, \sub and \supersub to improve the layout of superscripts and subscripts which can be adjusted with respect to relative position and format, and can be used in text and math mode. %package -n texlive-stanli Summary: TikZ Library for Structural Analysis Version: svn54512 License: GPL-2.0-or-later AND LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(tikz.sty) Requires: tex(verbatim.sty) Requires: tex(xargs.sty) Provides: tex(stanli.sty) = %{tl_version} %description -n texlive-stanli TikZ Library for Structural Analysis stanli is a STructural ANalysis LIbrary based on PGF/TikZ. Creating new assignments and tests, at university, is usually a very time-consuming task, especially when this includes drawing graphics. In the field of structural engineering, those small structures are a key part for teaching. This package permits to create such 2D and 3D structures in a very fast and simple way. %package -n texlive-statex Summary: Statistics style Version: svn20306 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(bm.sty) Requires: tex(color.sty) Requires: tex(ifthen.sty) Requires: tex(shortvrb.sty) Provides: tex(statex.sty) = %{tl_version} %description -n texlive-statex Statistics style A package defining many macros for items of significance in statistical presentations. An updated, but incompatible, version of the package is available: statex2. %package -n texlive-statex2 Summary: Statistics style Version: svn23961 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(amssymb.sty) Requires: tex(bm.sty) Requires: tex(color.sty) Requires: tex(ifthen.sty) Requires: tex(shortvrb.sty) Provides: tex(statex2.sty) = %{tl_version} %description -n texlive-statex2 Statistics style The package defines many macros for items of significance in statistical presentations. It represents a syntax-incompatible upgrade of statex. %package -n texlive-statistics Summary: Compute and typeset statistics tables and graphics Version: svn67201 License: GPL-3.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(siunitx.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(statistics.sty) = %{tl_version} %description -n texlive-statistics Compute and typeset statistics tables and graphics The 'statistics' package can compute and typeset statistics like frequency tables, cumulative distribution functions (increasing or decreasing, in frequency or absolute count domain), from the counts of individual values, or ranges, or even the raw value list with repetitions. It can also compute and draw a bar diagram in case of individual values, or, when the data repartition is known from ranges, an histogram or the continuous cumulative distribution function. You can ask 'statistics' to display no result, selective results or all of them. Similarly 'statistics' can draw only some parts of the graphs. Every part of the generated tables or graphics is customizable. %package -n texlive-statistik Summary: Store statistics of a document Version: svn20334 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(babel.sty) Requires: tex(keyval.sty) Provides: tex(statistik.sty) = %{tl_version} %description -n texlive-statistik Store statistics of a document The package counts the numbers of pages per chapter, and stores the results in a separate file; the format of the file is selectable. %package -n texlive-statmath Summary: A LaTeX package for simple use of statistical notation Version: svn46925 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(bm.sty) Provides: tex(statmath.sty) = %{tl_version} %description -n texlive-statmath A LaTeX package for simple use of statistical notation The package offers anumber of notational conventions to be used in applied and theoretical papers in statistics which are currently lacking in the popular amsmath package. The seasoned LaTeX user will see that the provided commands are simple, almost trivial, but will hopefully offer less cluttered preambles as well as a welcome help for novice users. %package -n texlive-steinmetz Summary: Print Steinmetz notation Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(steinmetz.sty) = %{tl_version} %description -n texlive-steinmetz Print Steinmetz notation The steinmetz package provides a command for typesetting complex numbers in the Steinmetz notation used in electrotechnics as: ; The package makes use of pict2e. %package -n texlive-stmaryrd Summary: St Mary Road symbols for theoretical computer science Version: svn22027 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(stmaryrd.sty) = %{tl_version} %description -n texlive-stmaryrd St Mary Road symbols for theoretical computer science The fonts were originally distributed as Metafont sources only, but Adobe Type 1 versions are also now available. Macro support is provided for use under LaTeX; the package supports the "only" option (provided by the somedefs package) to restrict what is loaded, for those who don't need the whole font. %package -n texlive-string-diagrams Summary: Create string diagrams with LaTeX and TikZ Version: svn67363 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(string-diagrams.sty) = %{tl_version} %description -n texlive-string-diagrams Create string diagrams with LaTeX and TikZ This LaTeX package has been designed for effortless and aesthetically pleasing creation of string diagrams. %package -n texlive-structmech Summary: A TikZ command set for structural mechanics drawings Version: svn66724 License: GPL-3.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(kvoptions.sty) Requires: tex(tikz.sty) Requires: tex(xkeyval.sty) Requires: tex(xparse.sty) Requires: tex(xstring.sty) Provides: tex(structmech.sty) = %{tl_version} %description -n texlive-structmech A TikZ command set for structural mechanics drawings This package provides a collection of TikZ commands that allow users to draw basic elements in material/structural mechanics. It is thus possible to draw member forces, nodal forces/displacements, various boundary conditions, internal force distributions, etc. %package -n texlive-struktex Summary: Draw Nassi-Shneiderman charts Version: svn75565 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(cleveref.sty) Requires: tex(color.sty) Requires: tex(curves.sty) Requires: tex(hyperref.sty) Requires: tex(ifpdf.sty) Requires: tex(ifthen.sty) Requires: tex(url.sty) Requires: tex(varioref.sty) Provides: tex(strukdoc.sty) = %{tl_version} Provides: tex(struktex.sty) = %{tl_version} Provides: tex(struktxf.sty) = %{tl_version} Provides: tex(struktxp.sty) = %{tl_version} %description -n texlive-struktex Draw Nassi-Shneiderman charts Even in the age of OOP one must develop algorithms. Nassi-Shneiderman charts are a well known tool to describe an algorithm in a graphical way. The package offers some macros for generating those charts in a LaTeX document. The package provides the most important elements of a Nassi-Shneiderman charts, including processing blocks, loops, mapping conventions for alternatives, etc. The charts are drawn using the picture environment (using pict2e for preference). %package -n texlive-substances Summary: A database of chemicals Version: svn40989 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(chemfig.sty) Requires: tex(chemmacros.sty) Requires: tex(ghsystem.sty) Requires: tex(xparse.sty) Provides: tex(substances-default.def) = %{tl_version} Provides: tex(substances.sty) = %{tl_version} %description -n texlive-substances A database of chemicals The package provides the means to create a database-like file that contains data of various chemicals. These data may be retrieved in the document; an index of the chemicals mentioned in the document can be created.. %package -n texlive-subsupscripts Summary: A range of sub- and superscript commands Version: svn16080 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(subsupscripts.sty) = %{tl_version} %description -n texlive-subsupscripts A range of sub- and superscript commands The package provides a comprehensive and flexible set of commands for combinations of left and right sub- and superscripts. %package -n texlive-subtext Summary: Easy text-style subscripts in math mode Version: svn51273 License: GPL-3.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Provides: tex(subtext.sty) = %{tl_version} %description -n texlive-subtext Easy text-style subscripts in math mode This LaTeX package gives easy access to text-style subscripts in math mode by providing an optional argument to _. This is implemented by using the \text{} command from the amstext package. %package -n texlive-susy Summary: Macros for SuperSymmetry-related work Version: svn19440 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(susy.sty) = %{tl_version} %description -n texlive-susy Macros for SuperSymmetry-related work The package provides abbreviations of longer expressions. %package -n texlive-syllogism Summary: Typeset syllogisms in LaTeX Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amssymb.sty) Requires: tex(calc.sty) Requires: tex(ifthen.sty) Requires: tex(xspace.sty) Provides: tex(syllogism.sty) = %{tl_version} %description -n texlive-syllogism Typeset syllogisms in LaTeX The package provides a simple, configurable, way for neatly typesetting syllogisms and syllogistic-like arguments, composed of two premises and a conclusion. %package -n texlive-sympytexpackage Summary: Include symbolic computation (using sympy) in documents Version: svn57090 License: GPL-2.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(graphicx.sty) Requires: tex(ifpdf.sty) Requires: tex(ifthen.sty) Requires: tex(makecmds.sty) Requires: tex(verbatim.sty) Provides: tex(sympytex.sty) = %{tl_version} %description -n texlive-sympytexpackage Include symbolic computation (using sympy) in documents The bundle supports inclusion of symbolic-python (sympy) expressions, as well as graphical output from the sympy plotting module (or from matplotlib). %package -n texlive-synproof Summary: Easy drawing of syntactic proofs Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Requires: tex(keyval.sty) Requires: tex(pst-node.sty) Requires: tex(pstricks.sty) Provides: tex(synproof.sty) = %{tl_version} %description -n texlive-synproof Easy drawing of syntactic proofs The package provides a set of macros based on PSTricks that will enable you to draw syntactic proofs easily (inspired by the Gamut books). Very few commands are needed, however fine tuning of the various parameters (dimensions) can still be achieved through "key=value" pairs. %package -n texlive-t-angles Summary: Draw tangles, trees, Hopf algebra operations and other pictures Version: svn71991 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifpdf.sty) Provides: tex(t-angles.sty) = %{tl_version} %description -n texlive-t-angles Draw tangles, trees, Hopf algebra operations and other pictures A LaTeX2e package for drawing tangles, trees, Hopf algebra operations and other pictures. It is based on emTeX or TPIC \specials. Therefore, it can be used with the most popular drivers, including emTeX drivers, dviwin, xdvi and dvips, and (using some code from ConTeXt) it may also be used with pdfLaTeX. %package -n texlive-tablor Summary: Create tables of signs and of variations Version: svn31855 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(babel.sty) Requires: tex(fancyvrb.sty) Requires: tex(filecontents.sty) Requires: tex(fontenc.sty) Requires: tex(graphicx.sty) Requires: tex(ifpdf.sty) Requires: tex(ifthen.sty) Requires: tex(ifxetex.sty) Requires: tex(pst-eps.sty) Provides: tex(tablor-xetex.sty) = %{tl_version} Provides: tex(tablor.sty) = %{tl_version} %description -n texlive-tablor Create tables of signs and of variations The package allows the user to use the computer algebra system XCAS to generate tables of signs and of variations (the actual plotting of the tables uses the MetaPost macro package tableauVariations). Tables with forbidden regions may be developed using the package. A configuration file permits some configuration of the language to be used in the diagrams. The tablor package requires that shell escape be enabled. %package -n texlive-temporal-logic Summary: Symbols for Temporal Logics Version: svn72575 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(tikz.sty) Requires: tex(xparse.sty) Provides: tex(temporal-logic.sty) = %{tl_version} %description -n texlive-temporal-logic Symbols for Temporal Logics This package defines functions for rendering temporal operators defined in Linear Temporal Logic (LTL), Metric Temporal Logic (MTL), Metric First-order Temporal Logic (MFOTL), and the Counting Metric First-order Temporal Binding Logic (CMFTBL). The package defines various functions with variants in order to include or omit optional parameters of the operators like the optional interval. %package -n texlive-tensind Summary: Typeset tensors Version: svn51481 License: MIT Requires: texlive-base Requires: texlive-kpathsea Provides: tex(tensind.sty) = %{tl_version} %description -n texlive-tensind Typeset tensors Typesets tensors with dots filling gaps and fine tuning of index placement. %package -n texlive-tensor Summary: Typeset tensors Version: svn67667 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Provides: tex(tensor.sty) = %{tl_version} %description -n texlive-tensor Typeset tensors A package which allows the user to set tensor-style super- and subscripts with offsets between successive indices. It supports the typesetting of tensors with mixed upper and lower indices with spacing, also typset preposed indices. This is a complete revision and extension of the original 'tensor' package by Mike Piff. %package -n texlive-tensormatrix Summary: Matrix representations of tensors Version: svn76005 License: GPL-3.0-only Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(tensormatrix.sty) = %{tl_version} %description -n texlive-tensormatrix Matrix representations of tensors This LaTeX package defines an environment tmat for visualizing the structure of matrix representations of tensors. It requires the TikZ package. %package -n texlive-tex-ewd Summary: Macros to typeset calculational proofs and programs in Dijkstra's style Version: svn15878 License: BSD-3-Clause Requires: texlive-base Requires: texlive-kpathsea Provides: tex(dotnot.tex) = %{tl_version} %description -n texlive-tex-ewd Macros to typeset calculational proofs and programs in Dijkstra's style Edsger W. Dijkstra and others suggest a unique style to present mathematical proofs and to construct programs. This package provides macros that support calculational proofs and Dijkstra's "guarded command language". %package -n texlive-textgreek Summary: Upright greek letters in text Version: svn44192 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: texlive-greek-fontenc Provides: tex(textgreek.sty) = %{tl_version} %description -n texlive-textgreek Upright greek letters in text Use upright greek letters as text symbols, e.g. \textbeta. %package -n texlive-textopo Summary: Annotated membrane protein topology plots Version: svn23796 License: GPL-2.0-or-later Requires: texlive-base Requires: texlive-kpathsea Requires: tex(color.sty) Requires: tex(graphics.sty) Requires: tex(texshade.sty) Provides: tex(biotex.sty) = %{tl_version} Provides: tex(textopo.def) = %{tl_version} Provides: tex(textopo.sty) = %{tl_version} %description -n texlive-textopo Annotated membrane protein topology plots A LaTeX package for setting shaded and annotated membrane protein topology plots and helical wheels. %package -n texlive-thermodynamics Summary: Macros for multicomponent thermodynamics documents Version: svn71522 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amstext.sty) Provides: tex(thermodynamics.sty) = %{tl_version} %description -n texlive-thermodynamics Macros for multicomponent thermodynamics documents This package makes typesetting quantities found in thermodynamics texts relatively simple. The commands are flexible and intended to be relatively intuitive. It handles several sets of notation for total, specific, and molar quantities; allows changes between symbols (e.g., A vs. F for Helmholtz free energy); and greatly simplifies the typesetting of symbols and partial derivatives commonly encountered in mixture thermodynamics. Changes of one's notes from one textbook to another can be achieved relatively easily by changing package options. The package offers a collection of macros and environments which are intended to make typesetting thermodynamics documents faster, more convenient, and more reliable. Macros include symbols for extensive, molar, specific, and partial molar properties; excess and residual (departure) properties; partial derivatives; heat capacities, compressibilities, and expansivities; saturation, mixture, and pure-component properties; Henry's Law parameters and activity coefficients; changes on mixing, fusion, reaction, sublimation, and vaporization; and sets of all moles/mole fractions/masses/etc. being held constant in derivatives. Conversion of notes between textbooks is trivial for textbooks supported by the package, and more general changes in notation are also possible through package options. %package -n texlive-thmbox Summary: Decorate theorem statements Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(keyval.sty) Provides: tex(thmbox.sty) = %{tl_version} %description -n texlive-thmbox Decorate theorem statements The package defines an environment thmbox that presents theorems, definitions and similar objects in boxes decorated with frames and various aesthetic features. The standard macro \newtheorem may be redefined to use the environment. %package -n texlive-thmtools Summary: Extensions to theorem environments Version: svn67018 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etex.sty) Requires: tex(keyval.sty) Requires: tex(kvsetkeys.sty) Requires: tex(mdframed.sty) Requires: tex(remreset.sty) Requires: tex(shadethm.sty) Requires: tex(thmbox.sty) Provides: tex(aliasctr.sty) = %{tl_version} Provides: tex(parseargs.sty) = %{tl_version} Provides: tex(thm-amsthm.sty) = %{tl_version} Provides: tex(thm-autoref.sty) = %{tl_version} Provides: tex(thm-beamer.sty) = %{tl_version} Provides: tex(thm-kv.sty) = %{tl_version} Provides: tex(thm-listof.sty) = %{tl_version} Provides: tex(thm-llncs.sty) = %{tl_version} Provides: tex(thm-ntheorem.sty) = %{tl_version} Provides: tex(thm-patch.sty) = %{tl_version} Provides: tex(thm-restate.sty) = %{tl_version} Provides: tex(thmdef-mdframed.sty) = %{tl_version} Provides: tex(thmdef-shaded.sty) = %{tl_version} Provides: tex(thmdef-thmbox.sty) = %{tl_version} Provides: tex(thmtools.sty) = %{tl_version} Provides: tex(unique.sty) = %{tl_version} %description -n texlive-thmtools Extensions to theorem environments The bundle provides several packages for commonly-needed support for typesetting theorems. The packages should work with kernel theorems (theorems 'out of the box' with LaTeX), and the theorem and amsthm packages. Features of the bundle include: a key-value interface to \newtheorem; a \listoftheorems command; hyperref and autoref compatibility; a mechanism for restating entire theorems in a single macro call. %package -n texlive-tiscreen Summary: Mimic the screen of older Texas Instruments calculators Version: svn62602 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(array.sty) Requires: tex(lcd.sty) Requires: tex(tcolorbox.sty) Requires: tex(textgreek.sty) Requires: tex(tikz.sty) Requires: tex(tipa.sty) Requires: tex(wasysym.sty) Requires: tex(xcolor.sty) Provides: tex(tiscreen.sty) = %{tl_version} %description -n texlive-tiscreen Mimic the screen of older Texas Instruments calculators This package mimics the screen of older Texas Instruments dot matrix display calculators, specifically the TI-82 STATS. It relies on the lcd and xcolor packages. %package -n texlive-turnstile Summary: Typeset the (logic) turnstile notation Version: svn64967 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(ifthen.sty) Provides: tex(turnstile.sty) = %{tl_version} %description -n texlive-turnstile Typeset the (logic) turnstile notation Among other uses, the turnstile sign is used by logicians for denoting a consequence relation, related to a given logic, between a collection of formulas and a derived formula. %package -n texlive-unitsdef Summary: Typesetting units in LaTeX Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Requires: tex(fontenc.sty) Requires: tex(textcomp.sty) Requires: tex(units.sty) Requires: tex(xspace.sty) Provides: tex(unitsdef.sty) = %{tl_version} %description -n texlive-unitsdef Typesetting units in LaTeX Many packages for typesetting units have been written for use in LaTeX2e. Some define macros to typeset a lot of units but do not suit to the actual font settings, some make the characters needed available but do not predefine any unit. This package tries to comply with both requirements. It predefines common units, defines an easy to use interface to define new units and changes the output concerning to the surrounding font settings. %package -n texlive-venn Summary: Creating Venn diagrams with MetaPost Version: svn15878 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea %description -n texlive-venn Creating Venn diagrams with MetaPost MetaPost macros for venn diagrams. %package -n texlive-witharrows Summary: "Aligned" math environments with arrows for comments Version: svn72594 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz.sty) Provides: tex(witharrows.sty) = %{tl_version} Provides: tex(witharrows.tex) = %{tl_version} %description -n texlive-witharrows "Aligned" math environments with arrows for comments This package provides an environment WithArrows which is similar to the environment aligned of amsmath (and mathtools), but gives the possibility to draw arrows on the right side of the alignment. These arrows are usually used to give explanations concerning the mathematical calculus presented. The package requires the following other LaTeX packages: expl3, footnote, l3keys2e, tikz, and xparse. %package -n texlive-xymtex Summary: Typesetting chemical structures Version: svn32182 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(epic.sty) Requires: tex(pgfcore.sty) Requires: tex(pst-coil.sty) Requires: tex(pstricks.sty) Requires: tex(tikz.sty) Requires: tex(xcolor.sty) Provides: tex(aliphat.sty) = %{tl_version} Provides: tex(assurechemist.sty) = %{tl_version} Provides: tex(assurelatexmode.sty) = %{tl_version} Provides: tex(bondcolor.sty) = %{tl_version} Provides: tex(carom.sty) = %{tl_version} Provides: tex(ccycle.sty) = %{tl_version} Provides: tex(chemist.sty) = %{tl_version} Provides: tex(chemstr.sty) = %{tl_version} Provides: tex(chemtimes.sty) = %{tl_version} Provides: tex(chmst-pdf.sty) = %{tl_version} Provides: tex(chmst-ps.sty) = %{tl_version} Provides: tex(fusering.sty) = %{tl_version} Provides: tex(hcycle.sty) = %{tl_version} Provides: tex(hetarom.sty) = %{tl_version} Provides: tex(hetaromh.sty) = %{tl_version} Provides: tex(lewisstruc.sty) = %{tl_version} Provides: tex(locant.sty) = %{tl_version} Provides: tex(lowcycle.sty) = %{tl_version} Provides: tex(methylen.sty) = %{tl_version} Provides: tex(polymers.sty) = %{tl_version} Provides: tex(sizeredc.sty) = %{tl_version} Provides: tex(steroid.sty) = %{tl_version} Provides: tex(xymtex.sty) = %{tl_version} Provides: tex(xymtexpdf.sty) = %{tl_version} Provides: tex(xymtexps.sty) = %{tl_version} Provides: tex(xymtx-pdf.sty) = %{tl_version} Provides: tex(xymtx-ps.sty) = %{tl_version} %description -n texlive-xymtex Typesetting chemical structures XyMTeX is a set of packages for drawing a wide variety of chemical structural formulas in a way that reflects their structure. The package provides three output modes: 'LaTeX', 'PostScript' and 'PDF'. XyMTeX's commands have a systematic set of arguments for specifying substituents and their positions, endocyclic double bonds, and bond patterns. In some cases there are additional arguments for specifying hetero-atoms on the vertices of heterocycles. It is believed that this systematic design allows XyMTeX to operate as a practical (device-independent) tool for use with LaTeX. %package -n texlive-yhmath Summary: Extended maths fonts for LaTeX Version: svn54377 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(amsmath.sty) Provides: tex(yhmath.sty) = %{tl_version} %description -n texlive-yhmath Extended maths fonts for LaTeX The yhmath bundle contains fonts (in Metafont and type 1 format) and a LaTeX package for using them. %package -n texlive-youngtab Summary: Typeset Young-Tableaux Version: svn73766 License: LPPL-1.0 Requires: texlive-base Requires: texlive-kpathsea Provides: tex(youngtab.sty) = %{tl_version} %description -n texlive-youngtab Typeset Young-Tableaux A package for typesetting Young-Tableaux, mathematical symbols for the representations of groups, providing two macros, \yng(1) and \young(1) to generate the whole Young-Tableau. %package -n texlive-yquant Summary: Typesetting quantum circuits in a human-readable language Version: svn76181 License: LPPL-1.3c Requires: texlive-base Requires: texlive-kpathsea Requires: tex(etoolbox.sty) Requires: tex(tikz.sty) Requires: tex(trimspaces.sty) Requires: tex(xkeyval.sty) Provides: tex(yquant-circuit.tex) = %{tl_version} Provides: tex(yquant-config.tex) = %{tl_version} Provides: tex(yquant-draw.tex) = %{tl_version} Provides: tex(yquant-env.tex) = %{tl_version} Provides: tex(yquant-lang.tex) = %{tl_version} Provides: tex(yquant-langhelper.tex) = %{tl_version} Provides: tex(yquant-prepare.tex) = %{tl_version} Provides: tex(yquant-registers.tex) = %{tl_version} Provides: tex(yquant-shapes.tex) = %{tl_version} Provides: tex(yquant-tools.tex) = %{tl_version} Provides: tex(yquant.sty) = %{tl_version} Provides: tex(yquantlanguage-groups.sty) = %{tl_version} Provides: tex(yquantlanguage-qasm.sty) = %{tl_version} %description -n texlive-yquant Typesetting quantum circuits in a human-readable language This LaTeX package allows to quickly draw quantum circuits. It bridges the gap between the two groups of packages that already exist: those that use a logic-oriented custom language, which is then translated into TeX by means of an external program; and the pure TeX versions that mainly provide some macros to allow for an easier input. yquant is a pure-LaTeX solution -- i.e., it requires no external program -- that introduces a logic oriented language and thus brings the best of both worlds together. It builds on and interacts with TikZ, which brings an enourmous flexibility for customization of individual circuit. %package -n texlive-ytableau Summary: Many-featured Young tableaux and Young diagrams Version: svn73766 License: LPPL-1.2 Requires: texlive-base Requires: texlive-kpathsea Requires: tex(pgfkeys.sty) Requires: tex(pgfopts.sty) Requires: tex(xcolor.sty) Provides: tex(ytableau.sty) = %{tl_version} %description -n texlive-ytableau Many-featured Young tableaux and Young diagrams The package provides several functions for drawing Young tableaux and Young diagrams, extending the young and youngtab packages but providing lots more features. Skew and coloured tableaux are easy, and pgfkeys-enabled options are provided both at package load and configurably. %package -n texlive-zx-calculus Summary: A library to typeset ZX Calculus diagrams Version: svn70647 License: MIT Requires: texlive-base Requires: texlive-kpathsea Requires: tex(tikz-cd.sty) Requires: tex(tikz.sty) Provides: tex(tikzlibraryzx-calculus.code.tex) = %{tl_version} Provides: tex(zx-calculus.sty) = %{tl_version} %description -n texlive-zx-calculus A library to typeset ZX Calculus diagrams This library (based on the great TikZ and TikZ-cd packages) allows you to typeset ZX-calculus directly in LaTeX. It comes with many pre-built wire shapes, a highly customizable node style (with multiple flavours for putting labels inside or outside nodes), and a "debugging" mode to avoid getting lost in big diagrams. %prep # Extract license files tar -xf %{SOURCE1} %build # Nothing to build %install mkdir -p %{buildroot}%{_texmf_main} tar -xf %{SOURCE2} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE3} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE4} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE5} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE6} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE7} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE8} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE9} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE10} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE11} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE12} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE13} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE14} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE15} -C 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%{buildroot}%{_texmf_main} tar -xf %{SOURCE564} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE565} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE566} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE567} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE568} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE569} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE570} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE571} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE572} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE573} -C %{buildroot}%{_texmf_main} tar -xf %{SOURCE574} -C %{buildroot}%{_texmf_main} # Remove tlpobj files rm -rf %{buildroot}%{_texmf_main}/tlpkg/tlpobj/*.tlpobj # Apply sympytexpackage patch pushd %{buildroot}%{_texmf_main} patch -p0 < %{_sourcedir}/texlive-bz#1442706-python-path.patch popd # Fix Python shebangs %py3_shebang_fix %{buildroot}%{_texmf_main}/* # Compile Python bytecode %py_byte_compile %{python3} %{buildroot}%{_texmf_main}/scripts/sympytexpackage # Main collection metapackage 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