LiterateX
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Overview
LiterateX transforms literate source code to Markdown. Write documentation in
Markdown format in the comments of source code, and LiterateX can transform
the file to Markdown, optionally including the source code with syntax
highlighting and line numbers. Many source formats are
supported, and the following target formats are supported:
LiterateX can be used to document code that is particularly important or
difficult to understand. For example, documentation can be written in the SQL
file that defines the schema for a complex database. LiterateX can translate
the .sql
file to a Markdown file, which can then be converted to HTML, PDF,
or even EPUB with Pandoc.
LiterateX can also be used in the publishing of blog entries, magazine
articles, or books. Use the command-line utility or integrate the
Haskell library into your own software.
LiterateX has support for source code rules, comment lines that are used
to visually separate sections of source code. Since source code rules are
only used to make the source code easier to scan quickly, they are ignored
(treated as a blank line) when translating to Markdown.
LiterateX also has support for shebang lines at the start of the file.
They can be ignored so that they do not precede the documentation.
LiterateX supports a number of source formats. With the exception of
literate Haskell, documentation is written in line
comments in the source language. Note that multi-line comments are treated as
code, not documentation.
Documentation is parsed from lines that begin with two dashes immediately
followed by a space (--
). Lines that only contain two dashes are treated
as blank lines in the documentation. Lines that contain three or more dashes
are treated as source code rules and are ignored.
-- # Haskell Example
--
-- Executables are implemented using a `Main` module that exposes a function
-- named `main`.
module Main (main) where
-- The `main` function is run when the program is executed.
main :: IO ()
main = putStrLn "Hello!"
-- This simple example just prints "Hello!" to the screen.
Languages that use double-dash comments include the following:
Documentation is parsed from lines that begin with two slashes immediately
followed by a space (//
). Lines that only contain two slashes are treated
as blank lines in the documentation. Lines that contain three or more slashes
are treated as source code rules and are ignored.
// # Rust Example
//
// The `main` function is run when the program is executed.
fn main() {
println!("Hello!");
}
// This simple example just prints "Hello!" to the screen.
Languages that use double-slash comments include the following:
Documentation is parsed from lines that begin with a hash character
immediately followed by a space (#
). Lines that only contain a hash
character are treated as blank lines in the documentation. Lines that contain
two or more hash characters are treated as source code rules and are ignored.
# # Python Example
#
# A quick-and-dirty Python script can include commands at the top level!
print("Hello!")
# This simple example just prints "Hello!" to the screen.
Languages that use hash comments include the following:
Lisp languages use a semicolon (;
) for line comments, but there is a
special convention to use a different number of semicolons according to the
context. Documentation is parsed from lines that begin with one to four
semicolons immediately followed by a space (;
, ;;
, ;;;
, or ;;;;
).
Lines that only contain one to four semicolons are treated as blank lines in
the documentation. Lines that contain more than four semicolons are treated
as source code rules and are ignored.
; # Racket Example
;
; Racket programs must declare the language to use.
#lang racket/base
; Racket can also include commands at the top level!
(println "Hello!")
; This simple example just prints "Hello!" to the screen.
Languages that use Lisp semicolon comments include the following:
Literate Haskell
GHC has special support for
literate programming. With
this source format, documentation is not written in comments. Instead, lines
that contain source code are prefixes with a greater-than sign and a space
(>
).
Note that this source format does not support source code rules.
# Literate Haskell Example
Executables are implemented using a `Main` module that exposes a function
named `main`.
> module Main (main) where
The `main` function is run when the program is executed.
> main :: IO ()
> main = putStrLn "Hello!"
This simple example just prints "Hello!" to the screen.
Documentation is parsed from lines that begin with a percent character
immediately followed by a space (%
). Lines that only contain a percent
character are treated as blank lines in the documentation. Lines that contain
two or more percent characters are treated as source code rules and are
ignored.
% # Erlang Example
%
% Programs are implemented using a `main` module that exports a `start/0`
% function.
-module(main).
-export([start/0]).
% The `start` function is run when the program is executed.
start() -> io.fwrite("Hello!\n").
% This simple example just prints "Hello!" to the screen.
Languages that use percent comments include the following:
CLI
LiterateX may be used via a command-line utility named literatex
.
Requirements
literatex
has only been tested on Linux. It might work on Windows and
macOS.
Installation
Installation From Source
literatex
can be built from source using Stack. For example, you can
install the latest release (to /usr/local
on Linux) as follows:
$ git clone https://github.com/ExtremaIS/literatex-haskell.git
$ cd literatex-haskell
$ make
$ sudo make install
.deb
Package Installation
Check the Releases page for .deb
packages.
.rpm
Package Installation
Check the Releases page for .rpm
packages.
Usage
See the literatex
man page for usage information.
Library
The LiterateX Haskell library provides an API for integrating LiterateX
functionality in your own software.
Literate programming is a style of programming introduced by
Donald Knuth in which the main idea is "to regard a program as a
communication to human beings rather than as a set of instructions to a
computer." LiterateX is faithful to this idea in that it is used for
communication to human beings. Note, however, that LiterateX does not
support another core aspect of Knuth's literate programming: the ability to
write source code in the order best for human understanding. Since LiterateX
transforms actual source code files, the source code has to be written in
whatever order is required by the language. Those interested in writing code
in different order are encouraged to check out noweb and CWEB.
The lhs2tex utility is used to work with literate Haskell and LaTeX.
The src2md utility, written in Common Lisp, also supports multiple source
formats. It outputs Markdown that includes HTML, which limits the usefulness
of the Markdown.
The extract-documentation-comments utility, written in JavaScript,
extracts documentation from multi-line JavaScript comments.
mlp.clj, written in Clojure, is a babashka script that transforms
literate Clojure source code to Markdown, including HTML. The author uses it
to implement a live preview of literate Clojure documentation while using
the Notepad++ (Windows editor).
Project
Links
Releases
All releases are tagged in the main
branch. Release tags are signed using
the
security@extrema.is
GPG key.
Contribution
Issues and feature requests are tracked on GitHub:
https://github.com/ExtremaIS/literatex-haskell/issues
Issues may also be submitted via email to bugs@extrema.is.
License
This project is released under the
MIT License as specified in the
LICENSE
file.