This bundle provides a collection of model .ini files for creating TeX formats. These files are commonly used to introduced distribution-dependent variations in formats. They are also used to allow existing format source files to be used with newer engines, for example to adapt the plain e-TeX source file to work with XeTeX and LuaTeX.

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.

The package supports those who publish articles in peer-reviewed journals. In the final stages of the review process, the authors typically have to provide an additional document (such as a letter to the editors), in which they provide a list of modifications that they made to the manuscript. The package automatically provides line numbers and quotations from the manuscript, for this letter.

The package defines a handful of commands for typesetting mathematical symbols of various kinds, ranging from large operators to extensible arrow-like relations and growing arrow-like math accents that all draw from the classic Halloween-related iconography (pumpkins, witches, ghosts, cats, and so on) while being, at the same time, seamlessly integrated within the rest of the mathematics produced by (AmS-)LaTeX.

This package simplifies working with folder structures that match the chapter/section/subsection structure. It provides macros to define a folder that contains the file for a chapter/section/subsection, and provides macros that allow inclusion without using the full path, rather the path relative to the current folder of the chapter/section/subsection. It makes easy changing the name of a folder, for example.

This package augments the fancyvrb and listings packages to allow the source code they contain to be checked by an external tool (like a compiler). The external tool's messages can be automatically reincorporated into the original document. The package does not focus on a specific programming language, but it is designed to work well with languages and compilers in the ML family.

This package enables (La)TeX users to typeset words or phrases (e-TeX extensions are needed) in Syriac (Aramaic) using the Serto-alphabet. The package includes a preprocessor written in Python in order to deal with right-to-left typesetting for those who do not want to use e-LaTeX and to choose the correct letter depending on word context (initial/medial/final form).

The package was inspired by the cooltooltips package. In contrast to cooltooltips, fancytooltips allows inclusion of tooltips which contain arbitrary TeX material or a series of TeX materials (animated graphics) from an external PDF file. To see the tooltips, you have to open the files in Adobe Reader. The links and JavaScripts are inserted using eforms package from the AcroTeX bundle.

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 easily adapting notation if a user prefers to. The semantic layer is split into topics.

Creation of title pages is something most authors should not have to do. But reality is not perfect, so a lot of authors have to do it. This package not only provides several pages for the title instead of only one --- at least five are typical for a thesis! ---, it also provides a bunch of predefined titlepage styles with several standard elements, and optionally additional elements.

This package provides an easy way for generating truth tables of boolean values in LuaLaTeX. The time required for operations is no issue while compiling with LuaLaTeX. The package supports nesting of commands for multiple operations. It can be modified or extended by writing custom lua programs. There is no need to install lua on users system as TeX distributions (TeX Live or MikTeX) come bundled with LuaLaTeX.

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 sub-formulas.

This package is intended for package authors who patch code from other packages. To improve reliability, the verifycommand package provides a way to verify that macros or environments have not changed. This allows a package author to check before patching a definition. If a definition is not as expected, a warning is issued. At the end of the compile, a list of all changed definitions is displayed.

The package patches a few commands of the LaTeX2e kernel and the amsmath and mathtools packages to be more compatible with the LuaTeX engine. It is only meaningful for LuaLaTeX documents containing mathematical formulas, and does not exhibit any new functionality. The fixes are mostly moved from the unicode-math package to this package since they are not directly related to Unicode mathematics typesetting.

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.

This is a LaTeX style for producing author self-archiving copies of (academic) papers. The following layout-styles are pre-defined: ACMfor the two-column layout used by many ACM conferences, IEEE for the two-column layout used by many IEEE conferences, LNCS for the LNCS layout (as used by Springer), and LNI for the Lecture Notes in Informatics, published by the GI ENTCS for the Elsevier ENTCS layout

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 tikz-karnaugh package is a LaTeX package used to draw Karnaugh maps. It uses TikZ to produce high quality graph from 1 to 12 variables, but this upper limit depends on the TeX memory usage and can be different for you. You can control colour, styles and distances. It can be considered as an upgrade and extension of Andreas W. Wieland's karnaugh package towards TikZ supporting.

The package provides the environments footnoterange and footnoterange*. Multiple footnotes inside these environments are not referenced as (e.g.) 1 2 3 but as 1-3, i.e., the range (from first to last referred footnote at that place) is given. If the hyperref package is loaded with enabled hyperfootnotes option, then the references are hyperlinked. (References to footnotes in footnoterange* environments are never hyperlinked.)

This package offers a collection of macros to help in the process of writing a paper. You may add comments, todo notes, etc.,during revision, in a colourful way. The package also summarizes the inserted notes at the end of the document. There are some predefined note commands as well as a way of defining new ones to suit the user's needs. You may safely remove this package once the paper is finished.

TeX-Gyre-Math is a collection of maths fonts to match the text fonts of the TeX-Gyre collection. The collection is available in OpenType format, only; fonts conform to the developing standards for OpenType maths fonts. TeX-Gyre-Math-Bonum (to match TeX-Gyre-Bonum), TeX-Gyre-Math-Pagella (to match TeX-Gyre-Pagella), TeX-Gyre-Math-Schola (to match TeX-Gyre-Schola) and TeX-Gyre-Math-Termes (to match TeX-Gyre-Termes) fonts are provided.

The package provides mid-level access to Tengwar fonts, providing good quality output. Each tengwar sign is represented by a command, which will place the sign nicely in relation to previous signs. A transcription package is available from the package's home page: writing all those tengwar commands would quickly become untenable. The package supports the use of a wide variety of tengwar fonts that are available from the net; metric and map files are provided for all the supported fonts.

This is a fairly complete BibLaTeX style (citations and references) for APA (American Psychological Association) 6th Edition conformant publications. It implements and automates most of the guidelines in the APA 6th edition style guide for citations and references. An example document is also given which typesets every citation and reference example in the APA 6th edition style guide. This is a legacy style for 6th Edition documents. Please use the BibLaTeX-apa style package for the latest APA edition conformance.

This package allows you to create and print scrambled environments for purposes such as randomized hint environments. You can mark a location with a series of hints, and then print the hints at the end in a pseudo-random order. The general structure follows: there is an outer environment which creates the label, an inner environment that creates the references, and a print command that prints out all of the hints. This generalizes beyond hints; one can create scrambled solutions as well, etc.