Skip to content

Latest commit

 

History

History
380 lines (302 loc) · 14.5 KB

DOCUMENTATION.md

File metadata and controls

380 lines (302 loc) · 14.5 KB

Documentation

Welcome to the "high-level documentation" of VimTeX. The goal of this document is to help developers (and curious users) to understand the structure of the plugin and how it works. That is, it should essentially provide a useful and quick overview of the most important files and directories. See also :help vimtex-code for some related information.

The table of contents has the same structure as the essential file structure of VimTeX. E.g., if you want to know something about vimtex/autoload/vimtex/somefile.vim, then you can lookup the path in the table of contents and click on it.

ftplugin

The main features of VimTeX are implemented as a filetype plugin for Vim and neovim. This is a specific concept that you can read about with :help filetype-plugins.

VimTeX provides a filetype plugin for the tex and bib filetypes. These scripts are the main entry points for the bulk functionalities of VimTeX. They are both very simple: they ensure that the user wants to load VimTeX, then they execute the function vimtex#init() from autoload/vimtex.vim.

syntax

VimTeX is also a syntax plugin and provides a tex syntax plugin script. The relevant Vim and neovim docs for this is :help :syn-files. Essentially, this is the entry point for loading the syntax highlighting.

indent

VimTeX also has an indentation script; this feature is also a special concept with an entry point under the indent/ directory, see :help indent-expression. The main purpose of indent/tex.vim and indent/bib.vim is to provide functions like VimtexIndent() that are used with the :help 'indentexpr' option.

after/ftplugin

The after/ directory is a simple Vim and neovim concept that allows to ensure that some scripts are loaded after the main scripts. For details of the concept, see :help after-directory.

Currently, there's only one script after/ftplugin/tex.vim. This is used to make sure that VimTeX loaded successfully and that there're no conflicts with other plugins such as LaTeX-Box.

autoload

The autoload directory is an important concept in Vimscript. It allows to avoid loading code until it is strictly necessary. This allows to substantially speed up the initialization phase, since the bulk VimTeX code is not sourced unless necessary. See :help autoload for more details. It may also be instructive to read this chapter of the well known Learn Vimscript the Hard Way by Steve Losh.

vimtex.vim

This file defines the main entry point vimtex#init(), which is responsible for loading all of the VimTeX functionalities, except:

  • syntax highlighting is loaded from syntax/tex.vim
  • indentation is loaded from indent/tex.vim

The main initialization function calls vimtex#mymodule#init_buffer() for each submodule, if it exists. This function should take care of defining buffer local mappings, commands, and autocommands for the respective submodule.

The initialization function also ensures that the current buffer is coupled with a corresponding state dictionary, see autoload/vimtex/state.vim.

vimtex

This directory holds the bulk of the VimTeX source code. Each .vim file represents a separate submodule that may provide one or more of the following:

  • a functional API that is used in other parts of VimTeX
  • buffer functionalities (mappings, commands, and/or autocommands)
  • state data

state.vim

The VimTeX state variable is a dictionary that contains data specific to a single LaTeX project. A project may consist of several buffers for different files, e.g. if the project is a multi-file project (see :help vimtex-multi-file). A submodule may add to the state during initialization with vimtex#mymodule#init_state(state), which takes the state object as a single argument.

delim.vim

This file defines an API and some buffer mappings for detecting and manipulating the surrounding delimiters.

The API is mostly based on the function vimtex#delim#get_surrounding(type). The following is a simple example to detect the surrounding environment. Let | denote the cursor position:

\begin{Environment}
  Some awesome | text
\end{Environment}

Example code for working with the environment delimiter:

" The return values are dictionaries
let [l:open, l:close] = vimtex#delim#get_surrounding('env_tex')

" Empty dicts mean we did not find a surrounding environment
if empty(l:open) | return | endif

" The dicts have several attributes, the most important are probably these:
echo l:open.name
echo l:open.lnum
echo l:open.cnum

cmd.vim

This file defines an API and some buffer mappings for detecting and manipulating LaTeX commands.

The main API relies on the functions vimtex#cmd#get_*(...), e.g. vimtex#cmd#get_current(). A simple example usage:

let l:cmd = vimtex#cmd#get_current()
if empty(l:cmd) | return | endif

echo l:cmd.name
echo l:cmd.pos_start
echo l:cmd.pos_end
echo l:cmd.args
echo l:cmd.opts

cache.vim

This file implements an API for creating and accessing caches that can be both volatile and persistent, as well as project and buffer local.

Here's an example of how to use a cache.

function VimTeXCacheExample()
  " create a new cache (if the name doesn't exist yet)
  " with an attribute 'number'. So the cache would be like that:
  "
  "   let l:test = {
  "   'number' = 10,
  "   }
  let l:my_cache = vimtex#cache#open('cache_name', {'number' : 10})

  " change the value in you cache
  let l:my_cache['number'] = 9001

  " will print '9001'
  echo l:my_cache['number']

  " save your changes
  " In general it'll be saved in your `$XDG_CACHE_HOME/vimtex/` directory
  " (normally '~/.cache/vimtex') in the appropriate tex-file where you accessed
  " cache file.
  call vimtex#cache#close('cache_name')
endfunction

compiler.vim

This submodule defines an API for interacting with LaTeX compiler backends. It also defines the main compiler mappings and commands (e.g. :VimtexCompile).

Each supported backend is defined in separated scripts under vimtex/autoload/vimtex/compiler/*.vim. These scripts provide vimtex#compiler#mycompiler#init(), which is used to initialize a particular backend - it should return a dictionary object that will be part of the VimTeX state.

The main compiler API essentially connects to the specified backend. E.g., if one uses the default latexmk backend, then the top level vimtex#compiler#start() function will essentially call the s:compiler_nvim.start_single() function from vimtex/autolaod/vimtex/compiler/latexmk.vim.

debug.vim

This standalone script defines a convenience function for internal debugging: vimtex#debug#stacktrace() parses the stacktrace from the v:throwpoint variable (see :h v:throwpoint for more information). If this does not exist, then we forcibly create it and remove the top element. You can try this code as an example:

" Save as test.py
function! Test() abort
  try
    throw "Nasty error message is here :D"
  catch
    call vimtex#debug#stacktrace(1)
  endtry
endfunction

Now type :call Test(), and the quickfix window should pop up with the specified error message and the location of the error.

complete.vim

This script defines the main completion API: vimtex#complete#omnifunc(...). See :help complete-functions for details on how omnifunctions work.

The function is relatively advanced and allows different completion mechanisms for different contexts.

The complete/ subdirectory contains simple files that lists keywords defined for specific packages or classes. These files are used by the command and environment completers.

The complete/tools directory includes a large map between LaTeX commands and unicode glyphs, like \alpha -> α and \beta -> β. This is used to enrich the keywords lists under complete/ to add more fancy completion menus.

context.vim

This script provides a context menu feature (:help :VimtexContextMenu). Each script under autoload/vimtex/context/*.vim defines a specific context and its related actions. See here for a more detailed description of how this is implemented.

For instance, the context context/cite.vim defines a citation context (see :help vimtex-context-citation).

fold.vim

This defines the fold functions for VimTeX. Folding is explained in :help folds. An example of how a folded document may look like: folding example

VimTeX defines a custom fold expression, see :help fold-expr. The vimtex#fold#init_state function will apply folding as per the related configuration (see :help vimtex-folding).

The fold expression is modularized to allow a relatively high degree of customizability. Each type is defined in its separate file, e.g. autoload/vimtex/fold/envs.vim for folding of environments.

parser.vim

A lot of VimTeX functionalities relies on some type of parsing. This module defines an API for various parsers, both for TeX files and other filetypes (e.g. aux and bib), as well as some specific types of parser (e.g. toc for parsing TeX files for a table of contents).

The code for each parser is defined in sub modules, e.g. parser/bib.vim.

The vimcomplete.bst file is used by parser/bib.vim in the s:parse_with_bibtex() function. It is used to convert a .bib file to a .bbl file with bibtex - this is useful because the .bbl file generated with this .bst file is very easy to parse.

toc.vim

Specifies a simple API and buffer mappings/commands for creating a convenient table of contents (TOC) to navigate and inspect a file (:h :VimtexTocToggle for more information).

toc example

qf.vim

This submodule defines functions and buffer mappings to parse log files and similar and put errors and warnings into the quickfix window (see :help quickfix). The functions are used e.g. by callbacks from the compilers, if supported and enabled, to automatically parse log files and display potential errors after compilation.

The files vimtex/autoload/vimtex/qf/*.vim define different types of log parsers. E.g., qf/bibtex.vim is used to parse .blg files for BibTeX related warnings and errors, and qf/latexlog.vim parses .log files for LaTeX warnings and errors. qf/pulp.vim defines an alternative log parser that can be used instead of latexlog.vim. See also :help g:vimtex_quickfix_method.

Here's an example of the quickfix list generated by the qf/latexlog.vim script:

quickfix example

syntax.vim

This script implements some convenience functions for the bulk VimTeX code. This may be counter intuitive, so be warned.

The idea is that other parts of VimTeX may rely on the syntax state, e.g. to determine if a position is within math mode (vimtex#syntax#in_mathzone(...)).

The actual syntax rules are defined in the scripts under syntax/*.vim.

syntax

This subdirectory contains the main syntax highlighting scripts. The entry point for the syntax scripts are, as mentioned previously, the top level syntax/tex.vim. However, as most of the code, the bulk source is defined in the autoloaded functions.

In short: syntax/core.vim implements the core syntax rules, whereas the scripts under syntax/p/ define package specific syntax rules.

text_obj.vim

This submodule defines text objects, see :help text-objects. Buffer local mappings are created during initialization.

The module allows to use different backends, including the popular targets.vim.

view.vim

This submodule defines the main view API and buffer mappings/commands. That is, mappings and commands to open a PDF viewer for the compiled LaTeX document.

The desired PDF viewer is specified with g:vimtex_view_method variable, and the specified viewer is initialized from view/VIEWER.vim (e.g. view/zathura.vim). This does essentially just the following for a given VimTeX state:

let a:state.viewer = vimtex#view#{g:vimtex_view_method}#new()

That is, if g:vimtex_view_method is zathura, then this calls vimtex#view#zathura#new(). The new() method should return a dictionary object with e.g. a .view() method that is used to open a file with the specified viewer.

health/vimtex.vim

VimTeX hooks into the health.vim framework provided by neovim (see :help health). This is a utility framework for performing health checks that may help users discover problems with e.g. configuration. VimTeX has a few checks for e.g. Vim versions and configuration validation.

Note: This is not relevant for regular Vim.

unite/sources/vimtex.vim

This script defines a VimTeX table-of-content source for the unite plugin. See :help vimtex-unite for more info.

rplugin/python3/denite/source/vimtex.py

This script defines a VimTeX table-of-content source for the denite.vim plugin. See also :help vimtex-denite.

test

This directory is used to, you guessed it, define tests for the VimTeX code. The tests are built on top of a Makefile based workflow. The test/Makefile runs all tests defined in sub directories named test-.... It is a fundamental requirement that all tests run with make from the top level test directory should pass for VimTeX to be deemed stable and fully functional.

The test/ directory also contains some simple LaTeX and VimTeX configuration examples under test/example-..., as well as some issue specific test files under issues/ISSUE-NUMBER.