This package provides commands to compose actuarial symbols of life contingencies and financial mathematics characterized by subscripts and superscripts on both sides of a principal symbol. The package also features commands to easily and consistently position precedence numbers above or below statuses in symbols for multiple lives contracts. Since the actuarial notation can get quite involved, the package defines a number of shortcut macros to ease entry of the most common elements.

The document aims to get you up and running with AMS-LaTeX as quickly as possible. These instructions are not a substitute for the full documentation, but they may get you started quickly enough so that you will only need to refer to the main documentation occasionally. In addition to AMS-LaTeX out of the box, the document contains a section describing how to draw commutative diagrams using Xy-pic and a section describing how to use amsrefs to create a bibliography.

This package provides \tabto<length>, which moves the typesetting position to <length> from the left margin of the paragraph. If the typesetting position is already further along, \tabto starts a new line; the command \tabto* will move position backwards if necessary, so that previous text may be overwritten. In addition, the command \TabPositions may be used to define a set of tabbing positions, after which the command \tab advances typesetting position to the next defined tab stop.

The main goal of this package is to provide means for typesetting checklists in a way that stipulates users to explicitly distinguish checklists for goals, for tasks, for artifacts, and for milestones --- i.e., the type of checklist entries. The intention behind this is that a user of the package is coerced to think about what kind of entries he/she adds to the checklist. This shall yield a clearer result and, in the long run, help with training to distinguish entries of different types.

The package enables the user to draw (using PSTricks) the diffraction patterns for different geometric forms of apertures for monochromatic light. The aperture stops can have rectangular, circular or triangular openings. The view of the diffraction may be planar, or three-dimensional. Options available are the dimensions of the aperture under consideration and of the particular optical setting, e.g., the radius in case of an circular opening. Moreover one can choose the wavelength of the light (the associated color will be calculated by the package).

The package provides two environments called filecontentsdef and filecontentshere. They are derived from the LaTeX filecontents environment. In addition to the file creation they either store the (verbatim) contents in a macro (filecontentsdef) or typeset them (verbatim) on the spot (filecontentshere). The author developed the package to display TeX code verbatim in documentation and the same time produce the corresponding files during the LaTeX run in order to embed them in the PDF as file attachment annotations (by using Scott Pakin's package attachfile).

This package can be used to generate a single master document that contains a set of individual student handouts. The package has two main functions. First, it provides a simple framework for organizing handout source code, and supplies a set of import management tools for selectively importing a subset of the handouts into the master document. Selective import is convenient when compilation of all of the handouts is unnecessary, for example when working on a new handout. As a secondary feature, the package defines a basic visual style for handouts. This style can be easily changed.

This (deprecated) package provides support for the manipulation and reference of small, or sub, figures and tables within a single figure or table environment. It is convenient to use this package when your subfigures are to be separately captioned, referenced, or are to be included in the List-of-Figures. A new \subfigure command is introduced which can be used inside a figure environment for each subfigure. An optional first argument is used as the caption for that subfigure. The package is now considered obsolete: it was superseded by subfig, but users may find the more recent subcaption package more satisfactory.

The package provides simple commands to allow authors (especially scholars in the humanities) to write with a focus on content rather than presentation. The commands are inspired by the XML elements of the Text Encoding Initiative. Commands like \term and \foreign are aliases for \emph. \quoted and \soCalled are aliases for quoting commands. These commands could be easily redefined for different formats. The package also provides a footnote environment so that long footnotes can be more cleanly separated from the main text. Eventually, the package also includes some macros for musical symbols and other basic notations for musical analysis.

When studying antic and medieval literature, we may find many different texts published with the same title, or, in contrary, the same text published with different titles. To avoid confusion, scholars have published claves, which are books listing ancient texts, identifying them by an identifier --- a number or a string of text. For example, for early Christianity, we have the Bibliotheca Hagiographica Graeca, the Clavis Apocryphorum Novi Testamenti and other claves. It could be useful to print the identifier of a texts in one specific clavis, or in many claves. The package allows us to create new field for different claves, and to present all these fields in a consistent way.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

This is a library to run Python code. Just like PerlTeX or PyLuaTeX, this only requires a single run, and variables are persistent throughout the run. Unlike PerlTeX or PyLuaTeX, there is no restriction on compiler or script required to run the code.

There are also debugging functionalities: TeX errors result in Python traceback, and Python errors result in TeX traceback. Errors in code executed with the pycode environment give the correct traceback point to the Python line of code in the TeX file. For advanced users, this package allows the user to manipulate the TeX state directly from within Python, so you don't need to write a single line of TeX code.

In addition to this LaTeX package you need the Python pythonimmediate-tex package.

This is the Babel style for Indonesian.

This collection includes music-related fonts and packages.

This collection includes setups for typesetting various games, including chess.