CommonMark
CommonMark is a rationalized version of Markdown syntax,
with a spec and BSD3-licensed reference
implementations in C and JavaScript.
Try it now!
The implementations
The C implementation provides both a shared library (libcmark
) and a
standalone program cmark
that converts CommonMark to HTML. It is
written in standard C99 and has no library dependencies. The parser is
very fast (see benchmarks).
It is easy to use libcmark
in python, lua, ruby, and other dynamic
languages: see the wrappers/
subdirectory for some simple examples.
The JavaScript implementation provides both an NPM package and a
single JavaScript file, with no dependencies, that can be linked into
an HTML page. For further information, see the
README in the js directory.
A note on security:
Neither implementation attempts to sanitize link attributes or
raw HTML. If you use these libraries in applications that accept
untrusted user input, you must run the output through an HTML
sanitizer to protect against
XSS attacks.
Installing (C)
Building the C program (cmark
) and shared library (libcmark
)
requires cmake. If you modify scanners.re
, then you will also
need re2c, which is used to generate scanners.c
from
scanners.re
. We have included a pre-generated scanners.c
in
the repository to reduce build dependencies.
If you have GNU make, you can simply make
, make test
, and make install
. This calls cmake to create a Makefile
in the build
directory, then uses that Makefile
to create the executable and
library. The binaries can be found in build/src
.
For a more portable method, you can use cmake manually. cmake knows
how to create build environments for many build systems. For example,
on FreeBSD:
mkdir build
cd build
cmake .. # optionally: -DCMAKE_INSTALL_PREFIX=path
make # executable will be created as build/src/cmark
make test
make install
Or, to create Xcode project files on OSX:
mkdir build
cd build
cmake -G Xcode ..
open cmark.xcodeproj
The GNU Makefile also provides a few other targets for developers.
To run a benchmark:
make bench
To run a "fuzz test" against ten long randomly generated inputs:
make fuzztest
To run a test for memory leaks using valgrind
:
make leakcheck
To reformat source code using astyle
:
make astyle
To make a release tarball and zip archive:
make archive
Compiling for Windows
To compile with MSVC and NMAKE:
nmake
You can cross-compile a Windows binary and dll on linux if you have the
mingw32
compiler:
make mingw
The binaries will be in build-mingw/windows/bin
.
Installing (JavaScript)
The JavaScript library can be installed through npm
:
npm install commonmark
This includes a command-line converter called commonmark
.
If you want to use it in a client application, you can fetch
a pre-built copy of commonmark.js
from
http://spec.commonmark.org/js/commonmark.js.
For further information, see the
README in the js directory.
The spec
The spec contains over 500 embedded examples which serve as conformance
tests. To run the tests using an executable $PROG
:
python3 test/spec_tests.py --program $PROG
If you want to extract the raw test data from the spec without
actually running the tests, you can do:
python3 test/spec_tests.py --dump-tests
and you'll get all the tests in JSON format.
The source of the spec is spec.txt
. This is basically a Markdown
file, with code examples written in a shorthand form:
.
Markdown source
.
expected HTML output
.
To build an HTML version of the spec, do make spec.html
. To build a
PDF version, do make spec.pdf
. (Creating a PDF requires pandoc
and a LaTeX installation. Creating the HTML version requires only
libcmark
and python3
.)
The spec is written from the point of view of the human writer, not
the computer reader. It is not an algorithm---an English translation of
a computer program---but a declarative description of what counts as a block
quote, a code block, and each of the other structural elements that can
make up a Markdown document.
Because John Gruber's canonical syntax
description leaves
many aspects of the syntax undetermined, writing a precise spec requires
making a large number of decisions, many of them somewhat arbitrary.
In making them, we have appealed to existing conventions and
considerations of simplicity, readability, expressive power, and
consistency. We have tried to ensure that "normal" documents in the many
incompatible existing implementations of Markdown will render, as far as
possible, as their authors intended. And we have tried to make the rules
for different elements work together harmoniously. In places where
different decisions could have been made (for example, the rules
governing list indentation), we have explained the rationale for
my choices. In a few cases, we have departed slightly from the canonical
syntax description, in ways that we think further the goals of Markdown
as stated in that description.
For the most part, we have limited ourselves to the basic elements
described in Gruber's canonical syntax description, eschewing extensions
like footnotes and definition lists. It is important to get the core
right before considering such things. However, we have included a visible
syntax for line breaks and fenced code blocks.
Differences from original Markdown
There are only a few places where this spec says things that contradict
the canonical syntax description:
-
It allows all punctuation symbols to be backslash-escaped,
not just the symbols with special meanings in Markdown. We found
that it was just too hard to remember which symbols could be
escaped.
-
It introduces an alternative syntax for hard line
breaks, a backslash at the end of the line, supplementing the
two-spaces-at-the-end-of-line rule. This is motivated by persistent
complaints about the “invisible” nature of the two-space rule.
-
Link syntax has been made a bit more predictable (in a
backwards-compatible way). For example, Markdown.pl
allows single
quotes around a title in inline links, but not in reference links.
This kind of difference is really hard for users to remember, so the
spec allows single quotes in both contexts.
-
The rule for HTML blocks differs, though in most real cases it
shouldn't make a difference. (See the section on HTML Blocks
for details.) The spec's proposal makes it easy to include Markdown
inside HTML block-level tags, if you want to, but also allows you to
exclude this. It is also makes parsing much easier, avoiding
expensive backtracking.
-
It does not collapse adjacent bird-track blocks into a single
blockquote:
> this is two
> blockquotes
> this is a single
>
> blockquote with two paragraphs
-
Rules for content in lists differ in a few respects, though (as with
HTML blocks), most lists in existing documents should render as
intended. There is some discussion of the choice points and
differences in the subsection of List Items entitled Motivation.
We think that the spec's proposal does better than any existing
implementation in rendering lists the way a human writer or reader
would intuitively understand them. (We could give numerous examples
of perfectly natural looking lists that nearly every existing
implementation flubs up.)
-
The spec stipulates that two blank lines break out of all list
contexts. This is an attempt to deal with issues that often come up
when someone wants to have two adjacent lists, or a list followed by
an indented code block.
-
Changing bullet characters, or changing from bullets to numbers or
vice versa, starts a new list. We think that is almost always going
to be the writer's intent.
-
The number that begins an ordered list item may be followed by
either .
or )
. Changing the delimiter style starts a new
list.
-
The start number of an ordered list is significant.
-
Fenced code blocks are supported, delimited by either
backticks (```
or tildes (~~~
).
Contributing
There is a forum for discussing
CommonMark; you should use it instead of
github issues for questions and possibly open-ended discussions.
Use the github issue tracker
only for simple, clear, actionable issues.
Authors
The spec was written by John MacFarlane, drawing on
- his experience writing and maintaining Markdown implementations in several
languages, including the first Markdown parser not based on regular
expression substitutions (pandoc) and
the first markdown parsers based on PEG grammars
(peg-markdown,
lunamark)
- a detailed examination of the differences between existing Markdown
implementations using BabelMark 2,
and
- extensive discussions with David Greenspan, Jeff Atwood, Vicent
Marti, Neil Williams, and Benjamin Dumke-von der Ehe.
John MacFarlane was also responsible for the original versions of the
C and JavaScript implementations. The block parsing algorithm was
worked out together with David Greenspan. Vicent Marti
optimized the C implementation for performance, increasing its speed
tenfold. Kārlis Gaņģis helped work out a better parsing algorithm
for links and emphasis, eliminating several worst-case performance
issues. Nick Wellnhofer contributed many improvements, including
most of the C library's API and its test harness. Vitaly Puzrin
has offered much good advice about the JavaScript implementation.