GNU Source-highlight 3.1.9

Table of Contents

GNU Source-highlight

GNU Source-highlight, given a source file, produces a document with syntax highlighting.

This is Edition 3.1.9 of the Source-highlight manual.

This file documents GNU Source-highlight version 3.1.9.

This manual is for GNU Source-highlight (version 3.1.9, 2 June 2019), which given a source file, produces a document with syntax highlighting.

Copyright © 2005-2008 Lorenzo Bettini, http://www.lorenzobettini.it.

Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled “GNU Free Documentation License.”

1 Introduction

GNU Source-highlight, given a source file, produces a document with syntax highlighting. The colors and the styles can be specified (bold, italics, underline) by means of a configuration file, and some other options can be specified at the command line.

The program already recognizes many programming languages (e.g., C++, Java, Perl, etc.) and file formats (e.g., log files, ChangeLog, etc.), and some output formats (e.g., HTML, ANSI color escape sequences, LaTeX, etc.). Since version 2.0, it allows you to specify your own input source language via a simple syntax described later in this manual (Language Definitions). Since version 2.1, it allows you to specify your own output format language via a simple syntax described later in this manual (Output Language Definitions). Since version 2.2, it is able to generate cross references (e.g., to variable names, field names, etc.) by relying on the program ctags, http://ctags.sourceforge.net (Generating References).

Since version 3.0, GNU Source-highlight also provides a C++ library (which is used by the main program itself), that can be used by C++ programmers to add highlighting functionalities to their programs. See (source-highlight-info)Introduction.

1.1 Supported languages

The complete list of languages (indeed, file extensions) natively supported by this version of Source-highlight (3.1.9), as reported by --lang-list, is the following:

C = cpp.lang
F77 = fortran.lang
F90 = fortran.lang
H = cpp.lang
ac = m4.lang
ada = ada.lang
adb = ada.lang
am = makefile.lang
applescript = applescript.lang
asm = asm.lang
autoconf = m4.lang
awk = awk.lang
bash = sh.lang
bat = bat.lang
batch = bat.lang
bib = bib.lang
bison = bison.lang
c = c.lang
caml = caml.lang
cbl = cobol.lang
cc = cpp.lang
changelog = changelog.lang
clipper = clipper.lang
cls = latex.lang
cobol = cobol.lang
coffee = coffeescript.lang
coffeescript = coffeescript.lang
conf = conf.lang
cpp = cpp.lang
cs = csharp.lang
csh = sh.lang
csharp = csharp.lang
css = css.lang
ctp = php.lang
cxx = cpp.lang
d = d.lang
desktop = desktop.lang
diff = diff.lang
dmd = d.lang
docbook = xml.lang
dtx = latex.lang
el = lisp.lang
eps = postscript.lang
erl = erlang.lang
erlang = erlang.lang
errors = errors.lang
f = fortran.lang
f77 = fortran.lang
f90 = fortran.lang
feature = feature.lang
fixed-fortran = fixed-fortran.lang
flex = flex.lang
fortran = fortran.lang
free-fortran = fortran.lang
glsl = glsl.lang
go = go.lang
groovy = groovy.lang
h = cpp.lang
haskell = haskell.lang
haxe = haxe.lang
hh = cpp.lang
hpp = cpp.lang
hs = haskell.lang
htm = html.lang
html = html.lang
hx = haxe.lang
hxx = cpp.lang
in = makefile.lang
ini = desktop.lang
ipxe = ipxe.lang
islisp = islisp.lang
java = java.lang
javalog = javalog.lang
javascript = javascript.lang
js = javascript.lang
json = json.lang
kcfg = xml.lang
kdevelop = xml.lang
kidl = xml.lang
ksh = sh.lang
l = flex.lang
lang = langdef.lang
langdef = langdef.lang
latex = latex.lang
ldap = ldap.lang
ldif = ldap.lang
lex = flex.lang
lgt = logtalk.lang
lhs = haskell_literate.lang
lilypond = lilypond.lang
lisp = lisp.lang
ll = flex.lang
log = log.lang
logtalk = logtalk.lang
lsm = lsm.lang
lua = lua.lang
ly = lilypond.lang
m4 = m4.lang
makefile = makefile.lang
manifest = manifest.lang
mf = manifest.lang
ml = caml.lang
mli = caml.lang
moc = cpp.lang
opa = opa.lang
outlang = outlang.lang
oz = oz.lang
pas = pascal.lang
pascal = pascal.lang
patch = diff.lang
pc = pc.lang
perl = perl.lang
php = php.lang
php3 = php.lang
php4 = php.lang
php5 = php.lang
pkgconfig = pc.lang
pl = prolog.lang
pm = perl.lang
po = po.lang
postscript = postscript.lang
pot = po.lang
prg = clipper.lang
prolog = prolog.lang
properties = properties.lang
proto = proto.lang
protobuf = proto.lang
ps = postscript.lang
py = python.lang
python = python.lang
r = r.lang
rb = ruby.lang
rc = xml.lang
rs = rust.lang
ruby = ruby.lang
s = s.lang
scala = scala.lang
scheme = scheme.lang
scm = scheme.lang
scpt = applescript.lang
sh = sh.lang
shell = sh.lang
sig = sml.lang
sl = slang.lang
slang = slang.lang
slsh = slang.lang
sml = sml.lang
spec = spec.lang
sql = sql.lang
sty = latex.lang
style = style.lang
syslog = log.lang
tcl = tcl.lang
tcsh = sh.lang
tex = latex.lang
texi = texinfo.lang
texinfo = texinfo.lang
tk = tcl.lang
tml = tml.lang
txt = nohilite.lang
ui = xml.lang
upc = upc.lang
vala = vala.lang
vbs = vbscript.lang
vbscript = vbscript.lang
vim = vim.lang
xhtml = xml.lang
xml = xml.lang
xorg = xorg.lang
y = bison.lang
yacc = bison.lang
yy = bison.lang
zsh = zsh.lang

The complete list of output formats natively supported by this version of Source-highlight (3.1.9), as reported by --outlang-list, is the following:

docbook = docbook.outlang
esc = esc.outlang
esc256 = esc256.outlang
groff_man = groff_man.outlang
groff_mm = groff_mm.outlang
groff_mm_color = groff_mm_color.outlang
html = html.outlang
html-css = htmlcss.outlang
html5 = html5.outlang
htmltable = htmltable.outlang
javadoc = javadoc.outlang
latex = latex.outlang
latexcolor = latexcolor.outlang
mediawiki = mediawiki.outlang
odf = odf.outlang
sexp = sexp.outlang
texinfo = texinfo.outlang
xhtml = xhtml.outlang
xhtml-css = xhtmlcss.outlang
xhtmltable = xhtmltable.outlang

The meaning of the suffix -css is explained in Output Language map¹.

Please, keep in mind, that I haven’t tested personally all these language definitions: I actually checked that the definition files are syntactically correct (with the command line option --check-lang and --check-outlang, Invoking source-highlight), but I’m not sure their definition actually respects that language syntax (e.g., I’ve put up together some language definitions by searching for information in the Internet, but I’ve never programmed in that language). So, if you find that a language definition is not precise, please let me know. Moreover, if you have a program example in a language that’s not included in the tests directory, please send it to me so that I can include it in the test suite.

1.2 The program source-highlight-settings

Since version 3.0, GNU Source-highlight includes also the program source-highlight-settings, which can be used to check whether source-highlight will be able find its language definition files, and other configuration files, and in case, to store the correct settings in a configuration file, in the user home directory.

In particular, the stored configuration file will be called source-highlight.conf and stored in $HOME/.source-highlight/.

For the moment, this file only stores the default value for the --data-dir option.

The user can always override the contents of this configuration file, and the default hardcoded value, by using the environment variable SOURCE_HIGHLIGHT_DATADIR.

1.3 Notes on some languages

In this section I’d like to go into details on the highlighting of some specific programming languages. These notes might be useful when the highlighted language has some “dialects” that might require some further specification at the command line (e.g., to select a specific dialect).

1.3.1 Fortran

As Toby White explained to me, Fortran comes into different “flavors”: a fixed-format, where some characters have a different semantics depending on their column position in the source file, and a free-format where this is not true. For instance, in the former, * and c start a command line, but only if they are specified in the first column (while this is not true in the free-format).

By default, the free-format is assumed for Fortran files; if you want to use the fixed-format, you need to specify fortran-fixed at the --src-lang command line option.

1.3.2 Perl

Perl syntax forms, especially its regular expression specifications, are quite a nightmare ;-) I tried to specify as much as possible in the perl.lang but some particular regular expressions might not be highlighted correctly. Actually, I never programmed in Perl, so, if you see that some parts of your Perl programs are not highlighted correctly, please do not hesitate to contact me, so that I can improve Perl highlighting.

Moreover, although the standard extension for Perl files is .pl, since the Prolog language definition was implemented in source-highlight before Perl, this extension is assigned, by default, to Prolog files. However, you can use --infer-lang command line option, so that source-highlight can try to detect the language by inspecting the first lines of the input file (How the input language is discovered); you can also use --src-lang=perl command line specification to explicitly require Perl highlighting.

1.4 Using source-highlight as a simple formatter

You can also use source-highlight as a simple formatter of input file, i.e., without performing any highlighting².

You can achieve this by using, as the language definition file for input sources the file nohilite.lang, using the command line option --lang-def (Invoking source-highlight). Since that language definition is empty, no highlighting will be performed; however, source-highlight will transform the input file in the output format. Note, in the input language associations in Supported languages, that nohilite.lang is also associated to txt files.

This, for instance, makes source-highlight useful in cases you want to transform a text file into HTML or LaTeX. During the output, in fact, source-highlight will correctly generate characters that have a specific meanings in the output format.

For instance, in this Texinfo manual, if I want to insert a @ or a { I have to “escape” them to make them appear literally since they have a special meaning in Texinfo. The same holds, e.g., for <, > or & in HTML. If you use source-highlight, it will take care of this, automatically for you.

This is the Texinfo source of the above sentence:

For instance, in this Texinfo manual, 
if I want to insert a @@ or a @{
I have to ``escape'' them to make them appear literally
since they have a special meaning in Texinfo.  
The same holds, e.g., 
for @code{<}, @code{>} or @code{&} in HTML.  
If you use source-highlight,
it will take care of this, automatically for you.

This was processed by source-highlight as a simple text file, without no highlighting; however since it was formatted in Texinfo, all the necessary escaping was automatically performed. This way, it is very easy to insert, in the same document, a code, and its result (as in this example).

This is actually the formatting performed by source-highlight; except for the comment, this is basically what you should have written yourself to do all the escaping stuff manually:

@c Generator: GNU source-highlight, by Lorenzo Bettini, http://www.gnu.org/software/src-highlite
@example
For instance, in this Texinfo manual, 
if I want to insert a @@@@ or a @@@{
I have to ``escape'' them to make them appear literally
since they have a special meaning in Texinfo.  
The same holds, e.g., 
for @@code@{<@}, @@code@{>@} or @@code@{&@} in HTML.  
If you use source-highlight,
it will take care of this, automatically for you.
@end example

In case source-highlight does not handle a specific input language, you can still use the option --failsafe (Invoking source-highlight) and also in that case no highlighting will be performed, but source-highlight will transform the input file in the output format.

Note, however, that if the input language cannot be established, the default.lang will be used: an empty language definition file which you might want to customize.

1.5 Related Software and Links

Here we list some software related to source-highlight in the sense that it uses it as a backend (i.e., provides an interface to source-highlight) or it uses some of its features (e.g., definition files):

• Source-highlight-qt is a library for performing syntax highlighting in Qt documents by relying on GNU Source-Highlight library. This library provides an implementation of the qt abstract class QSyntaxHighlighter class, and it deals both with Qt3 and Qt4.

  http://srchiliteqt.sourceforge.net.

• QSource-Highlight is a Qt4 front-end for GNU Source-Highlight (it relies on the library Source-Highlight-Qt). You can highlight your code on the fly, and have the highlighted output in all the formats supported by source-highlight (e.g., HTML, LaTeX, Texinfo, etc.). You can then copy the formatted output and paste it (e.g., in your blog), or save it to a file. A preview of the highlighted output is available for some output formats (e.g., HTML, XHTML, etc.).

  http://qsrchilite.sourceforge.net.

• SourceHighlightIDE is a small IDE (based on Qt4 and Source-highlight-qt) I wrote for developing and debugging new language definitions for source-highlight:

  http://srchighliteide.sourceforge.net.

• Martin Gebert implemented a KDE interface to source-highlight programs (and he did a wonderful job!), and it is called Ksrc2highlight; if you want to test it:

  http://www.mgebert.de/Ksrc2highlight.

• There’s also a Java version of java2html, you can find it at

  http://www.generationjava.com/projects/Java2Html.shtml.

• This web site provides a web interface to source-highlight so that you can highlight your code on-line:

  http://www.alaide.com/outils_colorsyntaxe.php

• SHJS is a JavaScript program that highlights source code passages in HTML documents. Documents using SHJS are highlighted on the client side by the web browser. SHJS uses language definitions from Source-highlight.

  http://shjs.sourceforge.net

• Code2blog is a pyGTK front-end to source-highlight for easy conversion from source code to HTML.

  http://code.google.com/p/code2blog

• Andy Buckley wrote a wrapper around source-highlight, which can be used as an Apache filter to highlight source code in Web pages on the fly.

  http://www.insectnation.org/projects/filter-src-highlight

• Roger Nilsson wrote a frontend for source-highlight that is used in a popular webdesign app for OSX called RapidWeaver. The frontend is called High-Light and allows users to easily add syntax-colored code inside RapidWeaver.

  http://nilrogsplace.se/webdesign/rapidweaver/plugins/high-light/index_en.html

• Mauricio Zepeda published in his blog an article with a script to automatically highlight a file and show it in Firefox:

  http://chillorb.com/?p=122

• Jason Blevins made a plugin for Ikiwiki that enables syntax highlighting of source code fragments and whole files via source-highlight.

  http://jblevins.org/projects/ikiwiki/code

• Pascal Bleser created a PHP extension that uses the GNU source-highlight library directly from PHP, instead of relying on spawning a process or using the source-highlight CGI.

  http://code.google.com/p/php-source-highlight/

• Roberto Alsina made a partial python binding using SIP so that you can use Source-Highlight-Qt in PyQt programs.

  http://marave.googlecode.com/svn/trunk/marave/highlight/

• A perl binding for source-highlight is available at CPAN:

  http://search.cpan.org/perldoc?Syntax::SourceHighlight

• Danijel Tasov wrote a pastebin service based on perl source-highlight binding:

  http://pb.rbfh.de

2 Installation

See the file INSTALL for detailed building and installation instructions; anyway if you’re used to compiling Linux software that comes with sources you may simply follow the usual procedure, i.e., untar the file you downloaded in a directory and then:

cd <source code main directory>
./configure
make
make install

We strongly suggest to use shadow builds, thus, create a build directory, say build and run configuration and make in that directory:

cd <source code main directory>
mkdir build
cd build
../configure
make
make install

However, before you do this, please check that you have everything that is needed to build source-highlight, What you need to build source-highlight.

Note: unless you specify a different install directory by --prefix option of configure (e.g. ./configure --prefix=<your home>), you must be root to run make install.

You may want to run ./configure --help to see all the possible options that can be passed to the configuration script.

Files will be installed in the following directories:

Executables

prefix/bin

docs and output examples

prefix/share/doc/source-highlight

library examples

prefix/share/doc/source-highlight/examples

library API documentation

prefix/share/doc/source-highlight/api

conf files

prefix/share/source-highlight

Default value for prefix is /usr/local but you may change it with --prefix option to configure. For further configure options, you can run configure --help.

Tiziano Muller wrote a bash completion configuration file for source-highlight; this will be installed by default in the directory sysconfdir/bash_completion.d, where sysconfdir defaults to prefix/etc; however, typically, the directory where the bash completion script searches for configuration file is /etc/bash_completion.d. Thus, we suggest you explicitly specify this directory with the configuration script command line option --with-bash-completion.

If you want to build and install the API documentation of Source-highlight library, you need to run configure with the option --with-doxygen, but you need the program Doxygen, http://www.doxygen.org, to build the documentation. The documentation will be installed in the following directory:

Library API documentation

prefix/share/doc/source-highlight/api

NOTE: Originally, instead of Source-highlight, there were two separate programs, namely GNU java2html and GNU cpp2html. There are two shell scripts with the same name that will be installed together with Source-highlight in order to facilitate the migration (however their use is not advised and it is deprecated).

2.1 Building with qmake

Since version 3.1.2, Source-highlight can be built also using qmake, the build tool from Qt libraries (http://qt.nokia.com). This was made available to build Source-highlight on Windows based systems without using a Unix shell, and in particular to build Source-highlight with Microsoft MSVC compiler. You should use this method only if you don’t have a Unix shell or if you really need to use the MSVC compiler (e.g., if you want to build Source-highlight library to be used in MSVC based programs). You still need the boost regex library, and if you use MSVC, you can find installation packages for this library at http://www.boostpro.com.

This build mechanism is still experimental, and, when using MSVC, only a static version of Source-highlight library can be built (not a .dll). You can also use this method if you have the MinGW compiler, http://www.mingw.org, (e.g., the one that comes with Qt Windows distribution) and you don’t have Msys (http://www.mingw.org/wiki/MSYS). Otherwise, you should still use the configure based mechanims.

Using qmake, only a few options can be specified during the building (besides the ones you usually use with qmake), and these options can be specified only using environment variables:

BOOST_REGEX

By default, boost_regex will be used to link the boost library (i.e., -lboost_regex); if your boost regex library has a different name you must specify this name using this environment variable; e.g., if the library file is called libboost_regex-mt.lib or boost_regex-mt.dll you must set this variable to boost_regex-mt.

INCPATH

Specify the path of the boost header files.

LIBS

Specify the path of the boost lib files.

Please, take into consideration that specifying the boost library include and library paths is completely up to you, using INCPATH and LIBS, if they’re not in the system path directories.

Also remember to always use the option -recursive when running qmake.

If you then want to run make install, you can use the variable INSTALL_ROOT to prefix the installation path, which, otherwise, is the root directory.

2.2 Download

You can download it from GNU’s ftp site: ftp://ftp.gnu.org/gnu/src-highlite or from one of its mirrors (see http://www.gnu.org/prep/ftp.html).

I do not distribute Windows binaries anymore; since, they can be built by using Cygnus C/C++ compiler, available at http://www.cygwin.com. However, if you don’t feel like downloading such compiler or you experience problems with the Boost Regex library (see also Tips on installing Boost Regex library; please also keep in mind that if you don’t have these libraries installed, and your C/C++ compiler distribution does not provide a prebuilt package, it might take some time, even hours, to build the Boost libraries from sources), you can request such binaries directly to me, by e-mail (find my e-mail at my home page) and I’ll be happy to send them to you. An MS-Windows port of Source-highlight is available from http://gnuwin32.sourceforge.net; however, I don’t maintain those binaries personally, and they might be out of date.

Archives are digitally signed by me (Lorenzo Bettini) with GNU gpg (http://www.gnupg.org). My GPG public key can be found at my home page (http://www.lorenzobettini.it).

You can also get the patches, if they are available for a particular release (see below for patching from a previous version).

2.3 Anonymous Git Checkout

This project’s git repository can be checked out through the following clone instruction³:

git clone git://git.savannah.gnu.org/src-highlite.git

Further instructions can be found at the address:

http://savannah.gnu.org/projects/src-highlite.

And the git repository can also browsed on-line at

http://git.savannah.gnu.org/cgit/src-highlite.git.

Please note that this way you will get the latest development sources of Source-highlight, which may also be unstable. This solution is the best if you intend to correct/extend this program: you should send me patches against the latest git repository sources.

If, on the contrary, you want to get the sources of a given release, through git, say, e.g., version X.Y.Z, you must specify the tag rel_X_Y_Z.

When you compile the sources that you get from the git repository, before running the configure and make commands, for the first time, you must run the command:

autoreconf -i

This will run the autotools commands in the correct order, and also copy possibly missing files. You should have installed recent versions of automake, autoconf and libtool in order for this to succeed.

We strongly suggest to use shadow builds, thus, create a build directory, say build and run configuration and make in that directory:

cd <source code main directory>
mkdir build
cd build
../configure
make
make install

To summarize, the steps to get the sources from git and make the first build are:

git clone git://git.savannah.gnu.org/src-highlite.git
cd src-highlite
autoreconf -i
mkdir build
cd build
../configure
make

2.4 What you need to build source-highlight

Since version 2.0 Source-highlight relies on regular expressions as provided by boost (http://www.boost.org), so you need to install at least the regex library from boost.

Most GNU/Linux distributions provide this library already in a compiled form. If you use your distribution packages, please be sure to install also the development package of the boost libraries.

If you experience problems in installing Boost Regex library, or in compiling source-highlight because of this library, please take a look at Tips on installing Boost Regex library.

If you want to use a specific version of the Boost regex library (because you have many versions of it), you can use the configure option --with-boost-regex to specify a particular suffix. For instance,

./configure --with-boost-regex=boost_regex-gcc-1_31

Source-highlight has been developed under GNU/Linux, using gcc (C++), and bison (yacc) and flex (lex), and ported under Win32 with Cygwin C/C++compiler, available at http://www.cygwin.com.

I use the excellent GNU Autoconf⁴, GNU Automake⁵ and GNU Libtool⁶. Since version 2.6 I also started to use Gnulib - The GNU Portability Library⁷, “a central location for common GNU code, intended to be shared among GNU packages” (for instance, I rely on Gnulib for checking for the presence and correctness of getopt_long function).

Finally I used GNU gengetopt (http://www.gnu.org/software/gengetopt), for command line parsing.

I started to use also doublecpp (http://doublecpp.sourceforge.net) that permits achieving dynamic overloading.

Actually, apart from the boost regex library, you don’t need the other tools above to build source-highlight (indeed I provide the output sources generated by the above mentioned tools), unless you want to develop source-highlight.

However, if you obtained sources through Git, you need some other tools, see Anonymous Git Checkout.

2.5 Tips on installing Boost Regex library

If you experience no problem in compiling source-highlight, you can happily skip this section⁸ :-)

I created this section because many users reported some problems after installing Boost Regex library from sources; other users had problems in compiling source-highlight even if this library was already correctly installed (especially windows users, using cygwin). I hope this section sheds some light in installing/using the Boost Regex library. Please, note that this section does not explain how to compile the Boost libraries (the documentation you’ll find on http://www.boost.org is well done); it explains how to tweak things if you have problems in compiling source-highlight even after a successful installation of Boost libraries.

First of all, if your distribution provides packages for the Boost regex library, please be sure to install also the development package of the boost libraries, i.e., those providing also the header files needed to compile a program using these libraries. For instance, on my Debian system I had to install the package libboost-regex-dev, besides the package libboost-regex.

If your distribution does not provide these packages then you have to download the sources of Boost libraries from http://www.boost.org and follow the instructions for compilation and installation. However, I suggest you specify /usr as prefix for installation, instead of relying on the default prefix /usr/local (unless /usr/local/include is already in the inclusion path of your C++ compiler), since this will make things easier when compiling source-highlight. I suggest this, since /usr/include is usually the place where C++ searches for header files during compilation.

If you successfully compiled and installed the Boost Regex library, or you installed the package from your distribution, but you STILL experience problems in compiling source-highlight, then you simply have to adjust some things as described in the following.

If the ./configure command of source-highlight reports this error:

ERROR! Boost::regex library not installed.

then, the compiler cannot find the header files for this library. In this case, check that the directory /usr/include/boost actually exists; if it does not, then probably you’ll find a similar directory, e.g., /usr/include/boost-1_33/boost, depending on the version of the library you have installed. Then, all you have to do is to create a symbolic link as follows:

ln -s /usr/include/boost-1_33/boost /usr/include/boost

Alternatively, you might run source-highlight’s configure as follows:

./configure CXXFLAGS=-I/usr/include/boost-1_33/

If you install (or build) the Boost Regex library in a non standard path, e.g., somewhere in your home directory, say /home/myhome/boost-1_33, you’ll have to update the CXXFLAGS variable accordingly on the configure command line; in this particular case, you might also have to specify the path of actual library files (CXXFLAGS will only specify the path of header files). In particular, you’ll have to know where the lib files are within the boost installation (or build directory); for instance, if they are in /home/myhome/boost-1_33/stage/lib, while the header files (i.e., the boost header files directory) are in /home/myhome/boost-1_33, the complete configure command should be

./configure CXXFLAGS=-I/home/myhome/boost-1_33 \
            LDFLAGS=-L/home/myhome/boost-1_33/stage/lib

If then ./configure command of source-highlight reports this other error:

ERROR! Boost::regex library is installed, but you
must specify the suffix with --with-boost-regex at configure
for instance, --with-boost-regex=boost_regex-gcc-1_31

then, there’s still another thing to fix: you must find out the exact names of the files of your installed Boost Regex libraries; you can do this by using the command:

$ ls -l /usr/lib/libboost_regex*

that, for instance, on one of my cygwin installation reports:

-rwxr-x---+ Nov  9 23:29 /usr/lib/libboost_regex-gcc-mt-s-1_33.a
-rwxr-x---+ Nov 22 09:22 /usr/lib/libboost_regex-gcc-mt-s.a 
-rwxr-x---+ Nov  9 23:29 /usr/lib/libboost_regex-gcc-mt-s-1_33.so
-rwxr-x---+ Nov 22 09:22 /usr/lib/libboost_regex-gcc-mt-s.so

Now, you have all the information to correctly run the source-highlight’s configure command:

./configure --with-boost-regex=boost_regex-gcc-mt-s-1_33

or, if you solved the first problem in the second way⁹,

./configure CXXFLAGS=-I/usr/include/boost-1_33/ \
            --with-boost-regex=boost_regex-gcc-mt-s-1_33

Of course, you have to modify this command according to the names of your Boost Regex library installed files.

These instructions managed to let many users, who were experiencing problems, to compile source-highlight If you still have problems, please send me an e-mail.

2.6 Patching from a previous version

If you downloaded a patch, say source-highlight-1.3-1.3.1-patch.gz (i.e., the patch to go from version 1.3 to version 1.3.1), cd to the directory with sources from the previous version (source-highlight-1.3) and type:

gunzip -cd ../source-highlight-1.3-1.3.1.patch.gz | patch -p1 

and restart the compilation process (if you had already run configure a simple make should do).

2.7 Using source-highlight with less

This was suggested by Konstantine Serebriany. The script src-hilite-lesspipe.sh will be installed together with source-highlight. You can use the following environment variables:

export LESSOPEN="| /path/to/src-hilite-lesspipe.sh %s"
export LESS=' -R '

This way, when you use less to browse a file, if it is a source file handled by source-highlight, it will be automatically highlighted.

Xavier-Emmanuel Vincent recently provided an alternative version of ANSI color scheme, esc256.style: some terminals can handle 256 colors. Xavier also provided a script which checks how many colors your terminal can handle, and in case, uses the 256 variant. The script is called source-highlight-esc.sh and it will be installed together with the other binaries.

2.8 Using source-highlight as a CGI

CGI support was enabled thanks to Robert Wetzel; I haven’t tested it personally. If you want to use source-highlight as a CGI program, you have to use the executable source-highlight-cgi. You can build such executable by issuing

make source-highlight-cgi

in the src directory.

2.9 Building .rpm

Christian W. Zuckschwerdt added support for building an .rpm and an .rpm.src. You can issue the following command

rpmbuild -tb source-highlight-3.1.9.tar.gz

for building an .rpm with binaries and

rpmbuild -ts source-highlight-3.1.9.tar.gz

for building an .rpm.src with sources.

3 Copying Conditions

GNU Source-highlight is free software; you are free to use, share and modify it under the terms of the GNU General Public License that accompanies this software (see COPYING).

GNU source-highlight was written and maintained by Lorenzo Bettini http://www.lorenzobettini.it.

4 Simple Usage

Here are some realistic examples of running source-highlight¹⁰.

Source-highlight only does a lexical analysis of the source code, so the program source is assumed to be correct!

Here’s how to run source-highlight (for this example we will use C/C++ input files, but this is valid also for other source-highlight input languages):

source-highlight --src-lang cpp --out-format html \
    --input <C++ file> \
    --output <html file> \
    --style-file <style file> \
    options

For input files, apart from the -i (--input) option and the standard input redirection, you can simply specify some files at the command line and also use regular expressions (for instance *.java). In this case the name for the output files will be formed using the name of the source file with a .<ext> appended, where <ext> is the extension chosen according to the output format specified (in this example it would be .html). The style file (Output format style) contains information on how to format specific language parts (e.g., keywords in blue and boldface, etc.).

IMPORTANT: you must choose one of the above two invocation modes: either you use -i (--input), -o (--output) (possibly replacing them with standard input/output redirection), or you specify one or many files without -i (--input); if you try to mix them you’ll get an error:

source-highlight -o main.html main.cpp
Please, use one of the two syntaxes for invocation:
source-highlight [OPTIONS]... -i input_file -o output_file
source-highlight [OPTIONS]... [FILES]...

If STDOUT string is passed as -o (--output) option, then the output is forced to the standard output anyway.

If -s (--src-lang) is not specified, the source language is inferred by the extension of the input file or from the file name itself (possibly using also lower case versions); this, of course, does not work with standard input redirection. For further details, see How the input language is discovered.

If -f (--out-format) is not specified, the output will be produced in HTML.

If --style-file is not specified, the default.style, which is included in the distribution, will be used (see Output format style for further information).

4.1 HTML and XHTML output

The default output format for HTML and XHTML uses fixed width fonts by inserting all the formatted output between <tt> and </tt>. Thus, for instance, specification for fixed width and not fixed width (see Output format style) will have no effect: every character will have fixed width. If you don’t like this default behavior and would like to have not fixed fonts by default (as it happens, e.g., with LaTeX output) you can use the file html_notfixed.outlang with the command line argument --outlang-def. For XHTML output, the corresponding file is xhtml_notfixed.outlang

Furthermore, the file htmltable.outlang can be used to generate HTML output enclosed in an HTML table (which will use also a background color if specified in the style file). The file xhtmltable.outlang does the same but for XHTML output.

4.2 LaTeX output

When using LaTeX output format you can choose between monochromatic output (by using -f latex) or colored output (by using -f latexcolor). When using colored output, you need the color package (again this should be present in your system). Of course, you are free to define your own LaTeX output format, see Output Language Definitions.

4.3 Texinfo output

When using the Texinfo output format, you may want to use a dedicated style file, texinfo.style, which comes with the source-highlight distribution, with the option --style-file. For instance, the example in Examples is formatted with this style file.

4.4 DocBook output

DocBook output is generated using the <programlisting> tag. If the --doc command line option is given, an <article> document is generated.

4.5 ANSI color escape sequences

If you’re using this output format, for instance together with less (see Using source-highlight with less), you may want to use the esc.style (or esc256.style if your terminal can handle 256 colors), which comes with the source-highlight distribution, with the option --style-file. This should result in a more pleasant coloring output.

4.6 Odf output

The ODF language output for GNU source-highlight enables the user to generate color-highlighted ODF output of source code files. Or to generate ODF color-highlighted snippets to be used by ODF back-ends (like asciidoc-odf). We create an .fodt file, which is a Text document that newer versions of LibreOffice can open.

4.7 Groff output

The Groff language output for GNU source-highlight enables the user to generate black and white or color-highlighted Groff output using using groff’s Memorandum Macros (the output formats to specify on the command line are groff_mm and groff_mm_color, respectively) or for Man pages (output format to specify on the command line: groff_man). Such formats have been contributed by this project https://github.com/papoanaya/emacs_utils.

5 Configuration files

During execution, source-highlight needs some files where it finds directives on how to recognize the source language (if not specified explicitly with --src-lang or --lang-def), on which output format to use (if not specified explicitly with --out-format or --outlang-def), on how to format specific source elements (e.g., keywords, comments, etc.), and source and output language definitions. These files will be explained in the next sections.

If the directory for such files is not explicitly specified with the command line option --data-dir, these files are searched for in the following order:

• the current directory;
• the installation directory for conf files, see Installation (please keep in mind that this directory is hard-coded into source-highlight during compilation).
• if the source-highlight command is specified with an explicit path name, the installation directory name is still used, but relative to the explicit path name.

In particular, the user can set the value also with the environment variable SOURCE_HIGHLIGHT_DATADIR (see also The program source-highlight-settings).

If you want to be sure about which file is used during the execution, you can use the command line option --verbose.

5.1 Output format style

You must specify your options for syntax highlighting in the file default.style¹¹. You can specify formatting options for each element defined by a language definition file (you can get the list of such elements, by using --show-lang-elements, see Listing Language Elements).

Since version 2.6, you can also specify the background color for the output document, using the keyword bgcolor (this might be visible only when the --doc command line option is used).

If many elements share the same formatting options, you can specify these elements in the same line, separated by a comma¹².

Here’s the default.style that comes with this distribution (this is formatted by using the style.lang that is shown in Tutorials on Language Definitions):

bgcolor "white"; // the background color for documents
context gray; // the color for context lines (when specified with line ranges)

keyword blue b ; // for language keywords
type darkgreen ; // for basic types
usertype teal ; // for user defined types
string red f ; // for strings and chars
regexp orange f ; // for strings and chars
specialchar pink f ; // for special chars, e.g., \n, \t, \\
comment brown i, noref; // for comments
number purple ;       // for literal numbers
preproc darkblue b ; // for preproc directives (e.g. #include, import)
symbol darkred ; // for simbols (e.g. <, >, +)
function black b; // for function calls and declarations
cbracket red; // for block brackets (e.g. {, })
todo bg:cyan b;       // for TODO and FIXME
code bg:brightgreen b; // for code snippets

//Predefined variables and functions (for instance glsl)
predef_var darkblue ;
predef_func darkblue b ;

// for OOP
classname teal ; // for class names, e.g., in Java and C++

// line numbers
linenum black f;

// Internet related
url blue u, f;

// other elements for ChangeLog and Log files
date blue b ;
time, file darkblue b ;
ip, name darkgreen ;

// for Prolog, Perl...
variable darkgreen ;

// explicit for Latex
italics darkgreen i;
bold darkgreen b;
underline darkgreen u;
fixed green f;
argument darkgreen;
optionalargument purple;
math orange;
bibtex blue;

// for diffs
oldfile orange;
newfile darkgreen;
difflines blue; 

// for css
selector purple;
property blue;
value darkgreen i;

// for oz
atom orange;
meta i;

// for file system
path orange;

// for C (or other language) labels
label teal b;

// for errors
error purple;
warning darkgreen;

// for feature (Cucumber) files
cuketag green ;
gherken blue ;
given red ;
when cyan ;
then yellow ;
and_but pink ;
table gray ;

This file tries to define a style for most elements defined in the language definition files that comes with Source-highlight distribution.

You can specify your own file (it doesn’t have to be named default.style) with the command line option --style-file¹³, see Invoking source-highlight.

You can also specify the color of normal text by adding this line

normal darkblue ;

As you might see the syntax of this file is quite straightforward: after the element (or elements, separated by commas) you can specify the color, and the background color¹⁴ by using the prefix bg: (for instance, in the default.style above the background color is specified for the todo element).

Note that the background color might not be available for all output formats: it is available for XHTML and LaTeX but not for HTML¹⁵.

Then, you can specify further formatting options such as bold, italics, etc.; these are the keywords that can be used:

b = bold
i = italics
u = underline
f = fixed
nf = not fixed
noref = no reference information is generated for these elements

Since version 2.2, the color specification is not required. For instance, the texinfo.style is as follows (we avoid colors for Texinfo outputs):

keyword, type b ;
variable f, i ;
string f ;
regexp f ;
comment nf, i, noref ;
preproc b ;

// line numbers
linenum f;

// Internet related
url f;

// for diffs
oldfile, newfile i;
difflines b; 

// for css
selector, property b;
value i;

You may also specify more than on of these options separated by commas, e.g.

keyword blue u, b ;

Please keep in mind that in this case the order of these specified options is kept during the generation of the output; for instance, depending on the specific output format, the sequences u, b and b, u may lead to different results. In particular, the style that comes first is used after the ones that follow. For instance, in the case of HTML, the sequence u, b will lead to the following formatting: <u><b>...</b></u>.

The noref option specifies that for this element reference information are not generated (see Generating References). For instance, this is used for the comment element, since we do not want that elements in a comment are searched for cross-references.

These are all possible color logical names handled by source-highlight¹⁶:

black 
red 
darkred 
brown 
yellow 
cyan 
blue 
pink 
purple 
orange 
brightorange 
green 
brightgreen 
darkgreen 
teal 
gray 
darkblue
white

You can also use the direct color scheme for the specific output format, by using double quotes, such as, e.g., "#00FF00" in HTML¹⁷ or even string colors in double quotes¹⁸, such as "lightblue". Of course, the double quotes will be discarded during the generation.

For instance, this is the syslog.style used in the tests directory. This uses direct color schemes.

date, keyword yellow b ;
time "#9999FF" ;
ip "lightblue" b ;

type cyan b ;
string "brown" b ;
comment teal ;
number red ;
preproc cyan ;
symbol green ;
function "#CC66CC" b ;
cbracket green b ;
twonumbers green b ;
port green b ;
webmethod teal ;

// foo option
foo red b ; // foo entry

Note that, if you use direct color schemes, source-highlight will perform no transformation, and will output exactly the color scheme you specified. For instance, the specification "brown" is different from brown: the former will be output as it is, while the latter will be translated in the corresponding color of the output format (for HTML the visible result is likely to be the same).

It is up to you to specify a color scheme string that is handled by the specific output format. Thus, direct color schemes might not be portable in different output formats; for instance, "#00FF00" is valid in HTML but not in LaTeX.

5.2 Output format style using CSS

Since version 2.6 you can specify the output format style also using a limited CSS syntax. Please, note that this has nothing to do with output produced by source-highlight using the --css option.

By using a CSS file as the style file (i.e., passing it to the --style-css-file command line option) you will only specify the output format style using the same syntax of CSS. This means that you can use a css syntax for specifying the output format style independently from the actual output (this is what the output format style is for). Thus, you can use a css file as the output format style also for LaTeX output (just like you would do with a source-highlight output format style, Output format style).

This feature is provided basically for code re-use: you can specify the output format style using a css file, and then re-use the same css file as the actual style sheet of other HTML pages (or even output files produced by source-highlight using the --css option).

Note that this feature is quite primordial, so only a limited subset of CSS syntax is recognized. In particular, selectors are always intended as CSS class selectors, so they must start with a dot. /* */ comments are handled. Properties (and their values) not handled by source-highlight are simply (and silently) discarded).

This is an example of CSS specification handled correctly by source-highlight as a style format specification:

body { 
  background-color: <color specification>;
 }

.selector { 
  color: <color specification>;
  background-color: <color specification>;
  font-weight: bold; /* this is a comment */
  font-family: monospace;
  font-style: italic;
  text-decoration: underline;
 }

Finally, this is the default.css that corresponds to default.style presented in Output format style:

body {  background-color: white;  }

/* the color for context lines (when specified with line ranges) */
.context {  color: gray; }

.keyword { color: blue; font-weight: bold; }
.type { color: darkgreen; }
.usertype, .classname { color: teal; }
.string { color: red; font-family: monospace; }
.regexp { color: orange; }
.specialchar { color: pink; font-family: monospace; }
.comment { color: brown; font-style: italic; }
.number { color: purple; }
.preproc { color: darkblue; font-weight: bold; }
.symbol { color: darkred; }
.function { color: black; font-weight: bold; }
.cbracket { color: red; }
.todo { font-weight: bold; background-color: cyan; }

/* line numbers */
.linenum { color: black; font-family: monospace; }

/* Internet related */
.url { color: blue; text-decoration: underline; font-family: monospace; }

/* other elements for ChangeLog and Log files */
.date { color: blue; font-weight: bold; }
.time, .file { color: darkblue; font-weight: bold; }
.ip, .name { color: darkgreen; }

/* for Prolog, Perl */
.variable { color: darkgreen; }
.italics { color: darkgreen; font-style: italic; }
.bold { color: darkgreen; font-weight: bold; }

/* for LaTeX */
.underline { color: darkgreen; text-decoration: underline; }
.fixed { color: green; font-family: monospace; }
.argument, .optionalargument { color: darkgreen; }
.math { color: orange; }
.bibtex { color: blue; }

/* for diffs */
.oldfile { color: orange; }
.newfile { color: darkgreen; }
.difflines { color: blue; }

/* for css */
.selector { color: purple; }
.property { color: blue; }
.value { color: darkgreen; font-style: italic; }

/* for Oz */
.atom { color: orange; }
.meta { font-style: italic; }

/* for feature/cucumber files */
.cuketag { color: green; }
.gherken { color: blue; }
.given { color: red; }
.when { color: cyan; }
.then { color: yellow; }
.and_but { color: pink; }
.table { color: gray; }

If you pass this file to the --style-css-file command line option and you produce an output file, you will get the same result of using default.style.

Source-highlight comes with a lot of CSS files that can be used either as standard CSS files for HTML documents, or as style files to pass to --style-css-file. In the documentation installation directory (see Installation) you will find the file style_examples.html which shows many output examples, each one with a different CSS style.

5.3 Default Styles

This file¹⁹ (the default file is style.defaults) lists the default style for a language element whose output style is not specified in the style file; in particular the following line (comment lines start with #):

elem1 = elem2

tells that, if the style for an element, say elem1, is not specified in the style file, then elem1 will have the same style of elem2.

For instance, this is the style.defaults that comes with Source-highlight:

# defaults for styles
# the format is:
# elem1 = elem2
# meaning that if the style for elem1 is not specified, 
# then it will have the same style as elem2

classname = normal
usertype = normal
preproc = keyword
section = function
paren = cbracket
attribute = type
value = string
predef_var = type
predef_func = function
atom = regexp
meta = function
path = regexp
label = preproc
error = string
warning = type
code = preproc

In this case the style for the element preproc will default to the style of the element keyword.

This file is useful when you want to create your own style file and you don’t want to specify styles for all the elements that will have the same output style in your style (e.g., the default style formats preproc elements differently from keywords, but if in your style you don’t specify a style for it, a preproc element will still be formatted as a keyword).

5.4 Language map

This configuration file associates a file extension to a specific language definition file. You can also use such file extension to specify the --src-lang option (see Simple Usage). Source-highlight comes with such a file, called lang.map.

Of course, you can override the settings of this file by writing your own language map file and specify such file with the command line option --lang-map). Moreover, as explained above, if a file lang.map is present in the current directory, such version will be used. The format of such file is quite simple (comment lines start with #):

extension = language definition file

The default language definition file is shown in Introduction.

5.5 Language definition files

These files are crucial for source-highlight since they specify the source elements that have to be highlighted. These files also allow to specify your own language definitions in order to deal with a language that is not handled by source-highlight²⁰. The syntax for these files is explained in Language Definitions.

5.6 Output Language map

This configuration file associates an output format to a specific output language definition file. You can use the name of that output format to specify the --out-format option (see Simple Usage). Source-highlight comes with such a file, called outlang.map.

Of course, you can override the settings of this file by writing your own output language map file and specify such file with the command line option --outlang-map). Moreover, as explained above, if a file outlang.map is present in the current directory, such version will be used. The format of such file is quite simple:

output format name = language definition file

The default language definition file is shown in Introduction.

In particular, there is a convention for the output format name in the output language map: the one with -css suffix is the one used when --css command line option is given

5.7 Output Language definition files

These files are crucial for source-highlight since they specify how the source elements are highlighted. These files also allow to specify your own output format definitions in order to deal with an output format that is not handled by source-highlight²¹. The syntax for these files is explained in Output Language Definitions.

These files are part of source-highlight distribution, but they can also be downloaded, independently, from here:

http://www.gnu.org/software/src-highlite/outlang_files/

5.8 Developing your own definition files

I encourage those who write new language definitions or correct/modify existing language definitions to send them to me so that they can be added to the source-highlight distribution!

Since these files require more explanations (that, however, are not necessary to the standard usage of source-highlight), they are carefully explained in separate parts: Language Definitions and Output Language Definitions.

These files are part of source-highlight distribution, but they can also be downloaded, independently, from here:

http://www.gnu.org/software/src-highlite/lang_files/

6 Invoking source-highlight

The format for running the source-highlight program is:

source-highlight option …

source-highlight supports the following options, shown by the output of source-highlight --detailed-help:

source-highlight 

Highlight the syntax of a source file (e.g. Java) into a specific format (e.g.
HTML)

Usage:  [OPTIONS]... < INPUT_FILE > OUTPUT_FILE
       source-highlight [OPTIONS]... -i INPUT_FILE -o OUTPUT_FILE
       source-highlight [OPTIONS]... [FILES]...

  -h, --help                    Print help and exit
      --detailed-help           Print help, including all details and hidden
                                  options, and exit
  -V, --version                 Print version and exit
  -i, --input=FILENAME          Input file (default=stdin)
  -o, --output=FILENAME         Output file (default=stdout, when the third
                                  invocation form is used). If 'STDOUT' is
                                  specified, the output is directed to standard
                                  output

You can simply specify some files at the command line and also use regular
expressions (for instance *.java).  In this case the name for the output files
will be formed using the name of the source file with a .EXT appended, where
EXT is the extension chosen according to the output format specified (for
instance .html).

  -s, --src-lang=STRING         source language (use --lang-list to get the
                                  complete list).  If not specified, the source
                                  language will be guessed from the file
                                  extension.
      --lang-list               list all the supported language and associated
                                  language definition file
      --outlang-list            list all the supported output language and
                                  associated language definition file
  -f, --out-format=STRING       output format (use --outlang-list to get the
                                  complete list)  (default=`html')
  -d, --doc                     create an output file that can be used as a
                                  stand alone document (e.g., not to be
                                  included in another one)
      --no-doc                  cancel the --doc option even if it is implied
                                  (e.g., when css is given)
  -c, --css=FILENAME            the external style sheet filename.  Implies
                                  --doc
  -T, --title=STRING            give a title to the output document.  Implies
                                  --doc
  -t, --tab=INT                 specify tab length.  (default=`8')
  -H, --header=FILENAME         file to insert as header
  -F, --footer=FILENAME         file to insert as footer
      --style-file=FILENAME     specify the file containing format options
                                  (default=`default.style')
      --style-css-file=FILENAME specify the file containing format options (in
                                  css syntax)
      --style-defaults=FILENAME specify the file containing defaults for format
                                  options  (default=`style.defaults')
      --outlang-def=FILENAME    output language definition file
      --outlang-map=FILENAME    output language map file
                                  (default=`outlang.map')
      --data-dir=PATH           directory where language definition files and
                                  language maps are searched for.  If not
                                  specified these files are searched for in the
                                  current directory and in the data dir
                                  installation directory
      --output-dir=PATH         output directory
      --lang-def=FILENAME       language definition file
      --lang-map=FILENAME       language map file  (default=`lang.map')
      --show-lang-elements=FILENAME
                                prints the language elements that are defined
                                  in the language definition file
      --infer-lang              force to infer source script language
                                  (overriding given language specification)

Lines:
  -n, --line-number[=PADDING]   number all output lines, using the specified
                                  padding character  (default=`0')
      --line-number-ref[=PREFIX]
                                number all output lines and generate an anchor,
                                  made of the specified prefix + the line
                                  number  (default=`line')

Filtering output:

 Mode: linerange
  specifying line ranges
      --line-range=STRING       generate only the lines in the specified
                                  range(s)
  each range can be of the shape: 
  	single line (e.g., --line-range=50)
  	full range (e.g., --line-range=2-10)
  	partial range (e.g., --line-range=-30, first 30 lines, 
  	--line-range=40- from line 40 to the end

      --range-separator=STRING  the optional separator to be printed among
                                  ranges (e.g., "...")
      --range-context=INT       number of (context) lines generated even if not
                                  in range
  The optional --range-context specifies the number of lines that are not in
  	range that will be printed anyway (before and after the lines in range);
  	These lines will be formatted according to the "context" style.


 Mode: regexrange
  specifying regular expression delimited ranges
      --regex-range=STRING      generate only the lines within the specified
                                  regular expressions
  when a line containing the specified regular expression is found, then
  the lines after this one are actually generated, until another line, 
  containing the same regular expression is found (this last line is not
  generated).
  More than one regular expression can be specified.

reference generation:
      --gen-references=STRING   generate references  (possible
                                  values="inline", "postline", "postdoc"
                                  default=`inline')
      --ctags-file=FILENAME     specify the file generated by ctags that will
                                  be used to generate references
                                  (default=`tags')
      --ctags=CMD               how to run the ctags command.  If this option
                                  is not specified, ctags will be executed with
                                  the default value.  If it is specified with
                                  an empty string, ctags will not be executed
                                  at all  (default=`ctags --excmd=n
                                  --tag-relative=yes')

testing:
  -v, --verbose                 verbose mode on
  -q, --quiet                   print no progress information
      --binary-output           write output files in binary mode
  This is useful for testing purposes, since you may want to make
  sure that output files are always generated with a final newline character
  only
      --statistics              print some statistics (i.e., elapsed time)
      --gen-version             put source-highlight version in the generated
                                  file  (default=on)
      --check-lang=FILENAME     only check the correctness of a language
                                  definition file
      --check-outlang=FILENAME  only check the correctness of an output
                                  language definition file
      --failsafe                if no language definition is found for the
                                  input, it is simply copied to the output
  -g, --debug-langdef[=TYPE]    debug a language definition.  In dump mode just
                                  dumps all the steps; in interactive, at each
                                  step, waits for some input (press ENTER to
                                  step)  (possible values="interactive",
                                  "dump" default=`dump')
      --show-regex=FILENAME     show the regular expression automaton
                                  corresponding to a language definition file

Let us explain some options in details (apart from those that should be clear from the --help output itself, and those already explained in Simple Usage).

--data-dir

Source-highlight, during the execution, will need some files, such as, e.g., language definition files, output format definition files, etc. These files are installed in prefix/share/source-highlight where prefix is chosen at compilation time (see See Installation). Thus, source-highlight should be able to find all the files it needs independently. However, if you want to override this setting, e.g., because you have your own language definition files, or simply because you installed a possible source-highlight binary in a different directory from the one used during the compilation, you can use the command line option --data-dir.

--doc

-d

If you want a stand alone output document (i.e., an output file that is not thought to be included in another document), specify this option (otherwise you just get some text that you can paste into another document). If you choose this option and do not provide a --title, the your source file name will be used as the title.

--no-doc

The --doc option above is actually implied by other command line options (e.g., --css). If you do not want this (e.g., you want to include the output in an existing document containing the global style sheet), you can disable this by using --no-doc.

--css

-c

Specify the style sheet file (e.g., a .css for HTML²²) for the output document. Note that source-highlight will not use this file: it will simply use this file name when generating the output file, so to specify that the output file uses this file as the style sheet (e.g., if the generated HTML relies on this file as the CSS file).

--tab

-t

With this options, tab characters will be converted into specified number of space characters (tabulation points will be preserved). This option is automatically selected when generating line numbers.

--style-file

--style-css-file

Specify the file that source-highlight will use to produce (i.e., format) the output (e.g., colors and other styles for each language element). The formats of these files are detailed in Output format style and in Output format style using CSS, respectively.

--style-defaults

Specify the file that contains the default styles for elements whose styles are not found in the style file (see Default Styles for further details).

--output-dir

You can pass to source-highlight more than one input file (see Simple Usage). In this case you cannot specify the output file name. In such cases the output files will be automatically generated into the directory where you invoked the command from; if you want the output files to be generated into a different directory you can use this option.

--infer-lang

Force the inference mechanism for detecting the input language. This is detailed in How the input language is discovered.

--line-number

Line numbers will be generated in the output, using the (optional) specified padding character²³ (the default padding character is 0).

--line-number-ref

As --line-number, this option numbers all the output lines, and, additionally, generates an anchor for each line. The anchor consists of the specified prefix (default is line) and the line number (e.g., line25). For instance, as prefix, if you deal with many files, you can use the file name. Note that some output languages might not support this feature (e.g., esc, since it makes no sense in such case). See Anchors and References for defining how to generate an anchor in a specific output language.

--line-range

--range-context

--range-separator

Since version 2.11, you can specify multiple line ranges: only the lines in the source that are in these ranges will be output. For instance, by specifying

--line-range="-5","10","20-25","50-"

Only the following lines will be output: the first 5 lines, line 10, lines 20 to 25 and from line 50 to the end of input. (See also the examples in Line ranges).

Together with --line-range, you can also specify --range-context: this is the number of lines that will be printed before and after the lines of a range (i.e., the surrounding “context”). These lines will not be highlighted: they will be printed according to the style context. For instance, extending the previous example,

--line-range="-5","10","20-25","50-" --range-context=1

Also the following lines will be output: 6, 9, 11, 19, 26, 49. (See also the examples in Line ranges (with context)).

Finally, you can specify a range separator line string with --range-separator that will be printed between ranges (See also the examples in Line ranges (with context)). The separator string is preformatted automatically, so, e.g., you don’t have to escape special output characters, such as the { } in texinfo output.

--regex-range

Ranges can be expressed also using regular expressions, with the command line option --regex-range. In this case the beginning of the range will be detected by a line containing (in any point) a string matching the specified regular expression; the end will be detected by a line containing a string matching the same regular expression that started the range. This feature is very useful when we want to document some code (e.g., in this very manual) by showing only specific parts, that are delimited in a ad-hoc way in the source code (e.g., with specific comment patterns). You can see some usage examples in See Regex ranges.

The specified strings (this option accepts multiple occurrences) must be valid regular expressions (thus you must escape special characters accordingly), otherwise you will get an error.

Furthermore, --line-range and --regex-range cannot coexist in the same command line.

--failsafe

If no language specification is found, an error will be printed and the program exits. With this option, instead, in such situations, the input is simply formatted in the output format. This is useful when source-highlight is used with many input files, and it is also used in the src-hilite-lesspipe.sh script. Actually I failed to find a good reason why one should not always use this option. So my suggestion is to always use it when you run source-highlight (and indeed, in the future, this option might become the default one). See also Using source-highlight with less, Using source-highlight as a simple formatter.

When using --failsafe, if no input language can be established, source-highlight will use the input language definition file default.lang, which is an empty file. You might want to customize such file, though.

--debug-lang

--show-regex

Allows to debug a language definition file, Debugging.

The other command line options dealing with references are explained in more details in Generating References.

6.1 How the input language is discovered

As already explained, Simple Usage, source-highlight uses a language definition file according the language specified with the option --src-lang, or --lang-def, or by using the input file extension.

Since version 2.5, source-highlight can use an inference mechanism to deduce the input language. For the moment, it can detect script languages based on the “sha-bang” mechanism, i.e., when the first line of a script contains a line such as, e.g.,

#!/bin/sh

It detects script languages specified by using the env program²⁴:

#!/usr/bin/env perl

It recognizes the Emacs convention, of declaring the Emacs major mode using the format -*- lang -*-.

For instance, a script starting as the following one:

#!/bin/bash
# -*- Tcl -*-

will be interpreted as a Tcl script, and not as bash script.

Finally, it recognizes <? specifications (e.g., <?php and <?xml) and <!doctype (in that case, it infers it is an xml file)²⁵.

This inference mechanism is performed, by default, in case the input language is neither explicitly specified nor found in the language map file by using the input file extension or the filename itself, possibly also the lowercase version (the input file may also have no extension at all, but, for instance, a ChangeLog input file will be highlighted using changelog.lang).

Furthermore, this mechanism can be given priority with the command line option --infer-lang. For instance, this is used in the script src-hilite-lesspipe.sh (Using source-highlight with less) when running source-highlight, in order to avoid the problem of formatting a Perl script as a Prolog program (since the extension .pl is associated to Prolog programs in the language map file, Perl).

7 Language Definitions

Since version 2.0 source-highlight uses a specific syntax to specify source language elements (e.g., keywords, strings, comments, etc.). Before version 2.0, language elements were scanned through Flex. This had the drawback of writing a new flex file to deal with a new language; even worse, a new language could not be added “dynamically”: you had to recompile the whole source-highlight program.

Instead, now, language elements are specified in a file, loaded dynamically, through a (hopefully) simple syntax. Then, these definitions are used internally to create, on-the-fly, regular expressions that are used to highlight the elements (see also How source-highlight works). In particular, we use the regular expressions provided by the Boost library (see Installation). Thus, when writing a language definition file you will surely have to deal with regular expressions. Don’t be scared: for most of the languages you may never have to deal with difficult regular expressions, and you can also specify language keywords (such as, e.g., “if”, “while”, etc., see Simple definitions); moreover, for defining delimited language elements you will not have to write a regular expression, but just the delimiters (see Delimited definitions). However, there might be some language definitions that may require heavy use of more involved regular expressions (e.g., Perl, just to mention one).

Of course, we use the Boost regex library regular expression syntax. We refer to Boost documentation for such syntax, http://www.boost.org/libs/regex/doc/syntax.html, however, in Notes on regular expressions, we provide some notes on regular expressions that might be helpful for those who never dealt with them. By default, Boost regex library uses Perl regular expression syntax, and, at the moment, this is the only syntax supported by source-highlight.

Here, we see such syntax in details, by relying on many examples. This allows a user to easily modify an existing language definition and create a new one. These files have, typically, extension .lang.

Each definition basically associates a regular expression to a language element and defines a name for the language element. Such name will be used to associate a particular style (e.g., bold face, color, etc.) when highlighting such elements. You cannot use names that are the same of keywords used in the language definition syntax (e.g., start, as shown later, is a reserved word).

Comments can be given by using #; the rest of the line is considered as a comment.

Source-highlight will scan each line of the input file separately. So a regular expression that tries to match new line characters is destined to fail. However, the language definition syntax provides means to deal with multiple lines (see Delimited definitions and State/Environment Definitions).

7.1 Ways of specifying regular expressions

Before getting into details of language definition syntax, it is crucial to describe the 3 possible ways of specifying a regular expression string. These 3 different ways, basically differ in the way they handle regular expression special characters, such, e.g., parenthesis. For this reason, one mechanism can be more powerful than another one, but it could also require more attention; furthermore, there can be situations where you’re forced to use only one mechanism, since the other ones cannot accomplish the required goal.

"expression"

If you use double quotes (note, " and not `` or '') to specify a regular expression, then basically all the characters, but the alternation symbol, i.e., the pipe symbol |, are considered literally, and thus will be automatically escaped (e.g., a dot . is interpreted as the character . not as the regular expression wild card). Thus, for instance, if you specify

"my(regular)ex.pre$$ion{*}"

source-highlight will automatically transform it into

my\(regular\)ex\.pre\$\$ion\{\*\}

The special character |, unless it is meant to separate two alternatives (Simple definitions), must be escaped with the character \, e.g., \|. Also the character \, if it is intended literally, must be escaped, e.g., \\.

'expression'

If you want to enjoy (almost) the full power of regular expressions, you need to use single quoted strings ('), instead of double quoted strings. This way, you can specify special characters with their intended meaning.

However, marked subexpressions are automatically transformed in non marked subexpressions, i.e., the parts in the expression of the shape (...) will be transformed into (?:...) (as explained in Notes on regular expressions, (?:...) lexically groups part of a regular expression, without generating a marked sub-expression).

Thus, for instance, if you specify

'my(regular)ex.pre$ion*'

source-highlight will automatically transform it into

my(?:regular)ex.pre$ion*

Since marked subexpressions cannot be specified with this syntax, then backreferences (see Notes on regular expressions) are not allowed.

`expression`

This syntax²⁶ (note the difference, this one uses the backtick ` while the previous one uses ') for specifying a regular expression was introduced to overcome the limitations of the other two syntaxes. With this syntax, the marked subexpressions are not transformed, and so you can use regular expressions mechanisms that rely on marked subexpressions, such as backreferences and conditionals (see Notes on regular expressions).

This syntax is also crucial for highlighting specific program parts of some programming languages, such as, e.g., Perl regular expressions (e.g., in substitution expressions) that can be expressed in many forms, in particular, separators for the part to be replaced and the part to replace which can be any non alphanumerical characters²⁷, for instance,

s/foo/bar/g
s|foo|bar|g
s#foo#bar#g
s@foo@bar@g

Using this syntax, and backreferences, we can easily define a single language element to deal with these expressions (without specifying all the cases for each possible non alphanumerical character):

regexp = `s([^[:alnum:][:blank:]]).*\1.*\1[ixsmogce]*`

Since version 2.11, in all kinds of regular expression specification, you can insert newline characters, which will simply be ignored. Thus, e.g., the file:

# test_newlines.lang
# test that newlines in expressions are simply discarded

keyword = "foo
|
lang"

(keyword,normal,classname) = 
  `(\<struct)
([[:blank:]]+)
([[:alnum:]_]+)`

preproc = '^[[:blank:]]*
#([[:blank:]]*
[[:word:]]*)'

and the file:

# test_nonewlines.lang
# test that newlines in expressions are simply discarded
# see the corresponding test_newlines.lang

keyword = "foo|lang"

(keyword,normal,classname) = `(\<struct)([[:blank:]]+)([[:alnum:]_]+)`

preproc = '^[[:blank:]]*#([[:blank:]]*[[:word:]]*)'

are equivalent. However, the former is surely more readable.

Note however, that space characters are NOT ignored in regular expression definitions.

7.2 Simple definitions

The simplest way to specify language elements is to list the possible alternatives. This is the case, for instance, for keywords. For instance, in java.lang you have:

keyword = "abstract|assert|break|case|catch|class|const",
          "continue|default|do|else|extends|false|final",
          "finally|for|goto|if|implements|instanceof|interface"
keyword = "native|new|null|private|protected|public|return",
          "static|strictfp|super|switch|synchronized|throw",
          "throws|true|this|transient|try|volatile|while"

You can separate quoted definitions with commas. Alternatively, within a quoted definition, alternatives can be separated with the pipe symbol |. The above definition defines the language element keyword. Each time an element is found in the source file, it is highlighted with the style for the element with the same name in the output format style file (note that all elements shown in the example are taken from the language definition files that come with source-highlight and there is a style for each of such elements, see Configuration files). If such an element is not specified in the output format style file, it is simply not highlighted (actually, it is highlighted with style normal, Configuration files) (so pay attention to typos :-).

From the above example you may have noted that language element definitions are cumulative, so the second keyword definition does not replace the first one. (Indeed, in some cases you may want to actually redefine a language element; this is possible as explained in Redefinitions and Substitutions).

Note that words specified in double quotes have to match exactly in a source file, and they must be isolated (not surrounded by anything but spaces). Thus for instance class is matched as a keyword, but in my_class the substring class is not matched as keyword. From the point of view of regular expressions a string such as class in a double quote simple definition is intended as \<(class)\>.

Special characters have to be escaped with the character \. So for instance if you want to specify the character |, which is normally used to separate alternatives in double quoted strings, you have to specify \|.

As explained in Ways of specifying regular expressions, definitions in double quotes are interpreted literally (thus, e.g., a dot . is interpreted as the character . not as the regular expression wild card). If you want to enjoy the full power of regular expressions to specify a language alternative, you have to use single quoted strings ('), instead of double quoted strings, or strings quoted with backticks (`).

For instance, the following is the definition for a preprocessor directive in C/C++:

preproc = '^[[:blank:]]*#([[:blank:]]*[[:word:]]*)'

Note that the definition 'class' is different from "class", as explained above. Thus, for instance 'class' matches also the sub-expression class inside my_class.

Furthermore, you are not allowed to specify, in the same list, double quoted strings and single quoted strings: you need to split such list definitions. Thus, for instance, the following definition is wrong:

preproc = "#define",'^[[:blank:]]*#([[:blank:]]*[[:word:]]*)'

while the following one is correct:

preproc = "#define"
preproc = '^[[:blank:]]*#([[:blank:]]*[[:word:]]*)'

Finally, at the end of a list of definitions, one can specify the keyword nonsensitive; in that case, the specified strings will be interpreted in a non case sensitive way. For instance, we use this feature in Pascal language definition, pascal.lang where keywords are parsed in a non sensitive way:

keyword = "alfa|and|array|begin|case|const|div",
      "do|downto|else|end|false|file|for|function|get|goto|if|in",
      "label|mod|new|not|of|or|pack|packed|page|program",
      "put|procedure|read|readln|record|repeat|reset|rewrite|set",
      "text|then|to|true|type|unpack|until|var|while|with|writeln|write"
  nonsensitive

7.3 Line wide definitions

It is often useful to define a language element that affects all the remaining characters up to the end of the line. For such definitions, instead of the = you must use the keyword start. For instance, the following is the definition of a single line comment in C++:

comment start "//"

This means that when the two characters // are encountered in the source file, everything from these characters on, up to the end of the line, will be highlighted according to the style comment.

7.4 Order of definitions

It is important to observe that the order of language definitions is important since it will be used during regular expression matching (this will be detailed in How source-highlight works). You then have to make sure that, if there are definitions that start with same characters, the longest expression is specified first in the file. For instance if you write

symbol = "/"
comment start "//"

The first expression will always be matched first, and the second expression will never be matched. The right order is

comment start "//"
symbol = "/"

7.5 Delimited definitions

Many elements are delimited by specific character sequences. For instance, strings and multiline comments. The syntax for such an element definition is

<name> delim <left delimited> <right delimiter> \
        {escape <escape character>} \
        {multiline} {nested}

The escape statement specifies the escape character that may precede one of the delimiters inside the element. This is optional.

For instance, this is the definition of C-like strings:

string delim "\"" "\"" escape "\\"

Note that \ is a special characters in definitions so it has to be escaped. If the escape specification was omitted, the C string "write \"hello\" string" would have been highlight incorrectly (it would have been highlighted as the string "write \", the normal character sequence hello\ and the string " string").

The option multiline specifies that the element can spawn multiple lines. For instance, PHP strings are defined as follows:

string delim "\"" "\"" escape "\\" multiline

The option nested instructs to count possible multiple occurrences of delimited characters and to match relative multiple occurrences (using a stack). For instance, if we wanted to highlight C-like multiline comments in a nested way²⁸, we could use the following definition:

comment delim "/*" "*/" multiline nested 

If nested was not used, then the closing */ of the following nested comment would conclude the comment (and the second */ would not be highlighted as a comment):

/*
   This is a /* nested comment */
*/

Note that, in order for a delimited language element to be nested, its starting and ending elements must be different; thus, for instance, the following definition is not correct:

string delim "\"" "\"" nested # WRONG!

As said above, definitions are cumulative, and they are also cumulative even when using different syntactic forms. Thus, for instance, the complete definition for C++-style comments are the following (actually, the definition of C-style comment is more involved, see the file c_comment.lang):

comment start "//"
comment delim "/*" "*/" multiline

7.6 Variable definitions

It is possible to define variables to be re-used in many parts in a language definition file. A variable is defined by using

vardef <name of the variable> = <list of definitions>

Once defined, a variable can be used by prepending the symbol $ to its name. For instance,

vardef FUNCTION = '(?:[[:alpha:]]|_)[[:word:]]*(?=[[:blank:]]*\()'
function = $FUNCTION

The capital letters are used only for readability.

It is also possible to concatenate variables and expressions, and reuse variables inside further variable definitions:

vardef basic_time = '[[:digit:]]{2}:[[:digit:]]{2}:[[:digit:]]{2}'
vardef time = '\<' + $basic_time + '\>'

7.7 Dynamic Backreferences

With dynamic backreferences you can refer to a string matched by the regular expression of the first element of a delim specification²⁹. I called these backreferences dynamic in order to distinguish them by the backreferences of regular expression syntax, Ways of specifying regular expressions. This is crucial in cases when the right delimiter depends on a subexpression matched by the left delimiter; for instance, Lua comments can be of the shape --[[ comment ]] or --[=[ comment ]=], but not --[=[ comment ]] neither --[[ comment ]=] (furthermore, they can be nested)³⁰. Thus, the regular expression of the right element depends on the one of the left element.

A dynamic backreference is similar to a variable (Variable definitions), but there’s no declaration, and have the shape of

@{number}

where number is the number of the marked subexpression in the left delimiter (source-highlight will actually check that such a marked subexpression exists in the left delimiter).

For instance, this is the definition of Lua comments (see also lua.lang):

environment comment delim `--\[(=*)\[` "]" + @{1} + "]" 
            multiline nested begin
  include "url.lang"
  ...
end

Note how the left delimiter can match an optional =, as a marked subexpression, and the right delimiter refers to that with @{1}.

Source-highlight will take care of escaping possible special characters during dynamic backreference substitutions. For instance, suppose that you must substitute | for @{1}, because we matched | with the subexpression [^[:alnum:]] in a delim element like the following one:

comment delim `([^[:alnum:]])` @{1} 

Since | is a special character in regular expression syntax source-highlight will actually replace @{1} with \|.

IMPORTANT: the right delimiter can only refer to subexpressions of its left delimiter; thus, in case of nested delim element definitions (e.g., in states or environment, State/Environment Definitions), the left delimiter acts as a binder and hides possible subexpressions defined in outer delim elements.

This is crucial to correctly match nested delimited elements with backreferences: source-highlight will correctly recognize this nested (and syntactically correct) Lua comment:

--[[
  first level comment
  --[=[
    second level
     --[[
       third level
    ]]
  ]=]
]]

7.8 File inclusion

It is possible to include other language definition files into another file. This is inclusion actually physically includes the contents of the included file into the current file during parsing, at the exact point of inclusion (just like the #include in C/C++). This is useful for re-using definitions in many files. For instance, C++ comment definitions are given in a file c_comment.lang, and this file is included in the Java and C++ definition files. The same happens for number and functions. For instance, the file java.lang contains the following include instructions:

include "c_comment.lang"

include "number.lang"

keywords ...

include "function.lang"

Note that the order of inclusion is crucial since the order of definition is crucial. If function definition was included before keyword definitions, then the sentence if (exp) would be highlighted as a function invocation (see Order of definitions and How source-highlight works).

7.9 State/Environment Definitions

Sometimes you want some source element to be highlighted only if they are surrounded by other elements. Source-highlight language definitions provides also this feature.

state|environment <standard definition> begin
  <other definitions>
end

This structure is recursive (so other state/environment definitions can be given within a state/environment). The meaning of a state/environment is that the definitions within the begin ... end are matched only if the definitions that define the state/environment have been matched. When entering a state/environment, however, the definitions given outside the state/environment are not matched. The difference between state and environment is that in the latter, normal parts of the source language (i.e., those that do not match any definition) are highlighted according to the style of the definition that defines the environment.

As an example, the following defines the multiline nested C comment, and highlights URL and e-mail addresses only when they appear inside a comment (note that this uses file inclusion):

environment comment delim "/*" "*/" multiline nested begin
      include "url.lang"
end

Note that we used environment because everything else inside a comment has to be formatted according to the comment style.

While for programming language definitions states/environments can be avoided (although they allow to highlight some parts only if inside a specific environment, e.g., URLs inside comments, or documentation tags in Javadoc comments), they are pretty important for highlighting files such as logs and ChangeLog files, since elements have to be highlighted when they appear in a specific position. For instance, for ChangeLog (see changelog.lang), we use a state for highlighting the date, name, e-mail or URL (taken from url.lang):

state date start '[[:digit:]]{2,4}-?[[:digit:]]{2}-?[[:digit:]]{2}' begin
  include "url.lang"
  name = '([[:word:]]|[[:punct:]])+'
end

Note that definitions that appear inside a state/environment have the same scope of the expressions that define the environment. While this makes sense for start and delim definitions, it may make less sense for simple definitions (i.e., those that simply lists all possible expressions): in fact, in this case, such expressions do not define a scope. For such definitions, the semantics of state/environment is that the state/environment starts after matching one of the alternatives. And where will it end? In this case you must explicitly exit the environment. For instance, you can say that, when inside a state/environment, a specific language definition, when encountered also exits the environment, with the keyword exit (you can also specify the number of states to exit). You can even exit all the environments with exitall. For instance, the following definition, highlights a non empty string following a web method:

vardef non_empty = '[^[:blank:]]+'

state webmethod = "OPTIONS|GET|HEAD|POST|PUT|DELETE",
          "TRACE|CONNECT|PROPFIND|MKCOL|COPY|MOVE|LOCK|UNLOCK" begin
  string = $non_empty exit
end

If you ever need such advanced features, you may want to take a look at the log.lang definition file that defines highlighting for several log files (access logs, Apache logs, etc.). Moreover, there might be cases, and the above one is one of such cases, explicit subexpressions with names will be enough (see Explicit subexpressions with names).

We conclude this section with an interesting example: comments in M4 files can start with the dnl keyword (up to the end of line), e.g.,

dnl @synopsis AC_CTAGS_FLAGS

Now if we want to highlight the dnl as a keyword, and the rest of line as a comment, we cannot simply rely on an environment, since this would highlight all the line with the same style. Moreover, we want to highlight elements starting with @ differently, so we actually need a state (this would allow us also to highlight urls inside a comment just like in C++ comments in the example above). Thus, we need to simulate an environment with a state, and we do this for M4 as follows (see the file m4.lang):

state keyword start "dnl" begin
  # avoid spaces in front of urls or @[[:alpha:]]+ be captured as prefixes
  comment = '[[:blank:]]+'
  include "url.lang"
  include "html_simple.lang"
  type = '@[[:alpha:]]+'
  # avoid non-word characters not include in urls etc in front of urls etc
  # be captured prefixes
  comment = '[^[:word:]]'
  # everything else is a comment
  comment = '[[:word:]]+'
end

Once entered the state, every isolated space character is highlighted as a comment; then we have rules for URLs and @ elements; then ([^[:word]]+) not include in URLs and @ elements is highlighted as comment; then everything else ([[:word:]]+) is highlighted as a comment.

One might think that a smarter way would be to have simply the following definition (after all, why bothering highlighting spaces as comments):

state keyword start "dnl" begin
  include "url.lang"
  include "html.lang"
  type = '@[[:alpha:]]+'
  # avoid non-word characters not include in urls etc in front of urls etc
  # be captured prefixes
  comment = '[^[:word:]]'
  # everything else is a comment
  comment = '[[:word:]]+'
end

Well, with this definition spaces in front of matched URLs or @ elements would be highlighted as normal, being considered as prefixes. This is due to how source-highlight searches for matching rules; we refer to How source-highlight works for further details.

7.10 Explicit subexpressions with names

Often, you need to specify two program elements in the same regular expressions, because they are tightly related, but you also need to highlight them differently.

For instance, you might want to highlight the name of a class (or interface) in a class (or interface) definition (e.g., in Java). Thus, you can rely on the preceding class keyword which will then be followed by an identifier.

A definition such as

keyword = '(\<(?:class|interface))([[:blank:]]+)([$[:alnum:]]+)'

will not produce a good final result, since the name of the class will be highlighted as a keyword, which is not what you might have wanted: for instance, the class name should be highlighted as a type.

Up to version 2.6, the only way to do this was to use state or environments (State/Environment Definitions) but this tended to be quite difficult to write.

Since version 2.7, you can specify a regular expression with marked subexpressions and bind each of them to a specific language element (the regular expression must be enclosed in `, see Ways of specifying regular expressions):

(elem1,...,elemn) = `(subexp1)(...)(subexpn)`

Now, with this syntax, we can accomplish our previous goal:

(keyword,normal,type) = 
  `(\<(?:class|interface))([[:blank:]]+)([$[:alnum:]]+)`

This way, the class (or interface) will be highlighted as a keyword, the separating blank characters are formatted as normal, and the name of the class as a type.

Note that the number of element names must be equal to the number of subexpressions in the expression; furthermore, at least in the current version, the expression can contain only marked subexpressions (no character outside is allowed) and no nested subexpressions are allowed.

Thus, the following specifications are NOT correct:

(keyword,symbol) = `(...)(...)(...)` # number of elements doesn't match
(keyword,symbol) = `(...(...)...)(...)` # contains nested subexpressions
(keyword,symbol) = `...(...)...(...)` # outside characters

This mechanism permits expressing regular expressions for some situation in a much more compact and probably more readable way. For instance, for highlighting ChangeLog parts (the optional * as a symbol, the optional file name and the element specified in parenthesis as a file element, and the rest as normal) such as

  * src/Makefile.am (source_highlight_SOURCES): correctly include
  changelog_scanner.ll

  * this is a comment without a file name

before version 2.6, we used to use these two language definitions:

state symbol start '^(?:[[:blank:]]+)\*[[:blank:]]+' begin
  state file start '[^:]+\:' begin
    normal start '.'
  end
end

state normal start '^(?:[[:blank:]]+)' begin
  state file start '[^:]+\:' begin
    normal start '.'
  end
end

which can be hard to read after having written them. Now, we can write them more easily (see changelog.lang):

(normal,symbol,normal,file)= 
  `(^[[:blank:]]+)(\*)([[:blank:]]+)((?:[^:]+\:)?)` 
(normal,file)= `(^[[:blank:]]+)((?:[^:]+\:)?)` 

Since a language element definition using explicit subexpressions with names consists of more than one element, and thus of more than one formatting style, it cannot be used to start an environment (what would the default element be?); while, as seen above, they can be used to start a state.

7.11 Redefinitions and Substitutions

These two features are useful when you want to define a language by re-using an existing language definition with some changes. Typically you include another language definition file and you redefine/substitute some elements.

When you use redef you erase all the previous definitions of that language elements with the new one. The new language element definition will be placed exactly in the point of the new definition. We use this feature, for instance, when we define the sml language by re-using the caml one: they differ only for the keywords³¹. In fact, the contents of sml.lang is summarized as follows:

include "caml.lang"

redef keyword = "abstraction|abstype|and|andalso..."

redef type = "int|byte|boolean|char|long|float|double|short|void"

Since the new language element definition appears in the exact point of the redefinition, this means that such a regular expression will be matched only if all the previous ones (the ones of the included file) cannot be matched. This may lead to unwanted results in some cases (not in the sml case though). In other words the following code

keyword = "foo"
keyword = "bar"
type = "int"
redef keyword = "myfoo"

is equivalent to the following one

type = "int"
keyword = "myfoo"

If this is not what you want, you can use subst, which is similar to redef apart from that it replaces the previous first definition of that language element in the exact point of that first definition (all other possible definitions are simply erased). That is to say that the following code

keyword = "foo"
keyword = "bar"
type = "int"
subst keyword = "myfoo"

is equivalent to the following one

keyword = "myfoo"
type = "int"

It is up to you to decide which one fits best your needs. We could use this feature to define javascript in terms of java, e.g.:

include "java.lang"

subst keyword = "abstract|break|case|catch|class|if..."

Here using redef would have led to the unwanted behavior that if (exp) would have been highlighted as a function call, since the function element definition would have come first (and then matched first) than the redefinition of if as a keyword. Another example is the language definition for C# by reusing the one for C/C++, Highlighting C/C++ and C#.

7.12 How source-highlight works

As hinted at the beginning of Language Definitions, source-highlight uses the definitions in the language definition file to internally create, on-the-fly, regular expressions that are used to highlight the tokens of an input file. Here we provide some internal details that are crucial to understand how to write language definition files correctly³².

First of all, for each element definition an highlighting rule is created by source-highlight (even if they correspond to the same language element); thus, each language definition file will correspond to a list of highlighting rules. For each line of the input file, source-highlight will try to match all these rules against the whole line (more formally, against the part of the line that has not been highlighted yet). It will not stop as soon as an highlighting rule matched, since there might be another rule that matches “better”. Now, everything basically reduces to the semantics of that better match.

The strategy used by source-highlight is to select the first matching rule

• with empty prefix (or prefix containing only space characters, i.e., spaces or tabs) or
• with the smallest prefix,

where the prefix of a matched rule is the part of the examined string that did not match³³. Thus, for instance, if we try to match the simple regular expression = against the string

i = 10;

then the prefix is i , including the space. Following the terminology of regular expression, the remaining part that did not match, i.e., 10;, is the suffix. When source-highlight finds a matching rule, according to the above strategy, it formats the matched part (and the prefix as normal), and then it starts again searching for a matching rule on the suffix, until it processed the whole line.

Let us explain this strategy a little bit further with an example. Consider the following language definition file:

# an example for explaining the strategy of source-highlight
type = "int"
keyword = "null"
symbol = "="

and the following line to be highlighted:

int i = null

Then source-highlight performs these steps:

1. The first matching rule is the one for type; since it has an empty prefix, there’s no need to look any further: it highlights int as type; the remaining part to be processed is now i = null;
2. the first matching rule is the one for keyword, with the prefix i = ; since the prefix is not empty (nor it contain only spaces), we inspect other rules;
3. the next matching rule is the one for symbol, with prefix i , which is smaller than the one for keyword, and since there are no other matching rules, the one for symbol is better, and we highlight = as symbol; the remaining part to be processed is now null;
4. the first matching rule is the one for keyword, and, since it has a prefix with only spaces, we look no further, and we highlight null as keyword.

We conclude this section by showing the following language definition, which summarizes what we said about the highlighting strategy:

keyword = "if|class"

type = 'int'

comment delim "/*" "*/"

# thus this won’t catch "/* */ /" as a regexp,
# since comment elem definition comes first
regexp = '/.*/.*/'

# this won’t match if ( ) as a function,
# since keyword elem definition comes first
function = '([[:alpha:]]|_)[[:word:]]*[[:blank:]]*\(*[[:blank:]]*\)'

# the following order is conceptually wrong,
# since "//" won’t be highlighted as a comment, but as two symbols
symbol = "/"
comment start "//"

7.13 Notes on regular expressions

Although we refer to Boost documentation for such syntax³⁴, we want to provide here some explanations of some forms of regular expressions that might be unknown but that are pretty useful in language definitions.

Typically, when you need to group sub-expressions with parenthesis, but you don’t want the parenthesis to spit out another marked sub-expression, you can use a non-marking parenthesis (?:expression). This is not necessary in the language definition syntax: even though you use standard parenthesis, source-highlight will transform it into a non-marking parenthesis.

Source-highlight translates possible marked subexpressions, i.e., those enclosed in ( and ), into non-marked subexpressions (i.e., those explained above). Since version 2.7, if you specify the expression inside ` the marked subexpressions are left as such (see also Ways of specifying regular expressions). This is useful for backreferences and conditionals.

An escape character followed by a digit n, where n is in the range 1-9, is a backreference matches the same string that was matched by sub-expression n. For example the expression ^(a*).*\1$ will match the string: aaabbaaa but not the string aaabba. Backreferences are useful to write compact language elements, such as in the case of Perl’s substitution modifiers; thus

regexp = `s([^[:alnum:][:blank:]]).*\1.*\1[ixsmogce]*`

will match all these forms

s/foo/bar/g
s|foo|bar|g
s#foo#bar#g
s@foo@bar@g

A useful regular expression form is the Forward Lookahead Asserts that come in two forms, one for positive forward lookahead asserts, and one for negative lookahead asserts:

(?=abc)

matches zero characters only if they are followed by the expression “abc”.

(?!abc)

matches zero characters only if they are not followed by the expression “abc”.

For instance, in the definition of a function (function.lang) we use the following regular expression:

([[:alpha:]]|_)[[:word:]]*(?=[[:blank:]]*\()

Thus after the name of a function we test, with the regular expression (?=\() whether an open parenthesis ( can be matched. If it can be matched, however, we leave that part in the input, so that the parenthesis will not be formatted the same way of a function name (see also How source-highlight works to understand better this language element definition).

Please, be careful when using such regular expression forms: since part of the input is not actually removed you may end up always scanning the same input part (thus looping) if you do not write the regular expressions well. For instance, consider this language definition

state foo = '(?=foo)' begin
  foo = '(?=foo)'
end

and the following input file:

hello
foo
bar

As soon as we match the word foo we leave it in the input and we enter a state where we try to match the word foo still leaving it in the input. As you might have guess this will make source-highlight loop forever. Probably one might have wanted to write this language definition:

state foo = '(?=foo)' begin
  foo = 'foo'
end

but a cut-and-paste error had its way ;-)

You can also use Lookbehind Asserts:

(?<=pattern)

consumes zero characters, only if pattern could be matched against the characters preceding the current position (pattern must be of fixed length).

(?<!pattern)

consumes zero characters, only if pattern could not be matched against the characters preceding the current position (pattern must be of fixed length).

Another advanced regular expression mechanism is the one of conditional expressions

(?(condition)yes-pattern|no-pattern)

attempts to match yes-pattern if the condition is true, otherwise attempts to match no-pattern.

(?(condition)yes-pattern)

attempts to match yes-pattern if the condition is true, otherwise fails.

Condition may be either a forward lookahead assert, or the index³⁵ of a marked sub-expression (the condition becomes true if the sub-expression has been matched). For instance, the following expression³⁶, that we wrote on more lines to try to make it more readable

(?:
  (\()
  |(\[)
  |(\{)
)
[[:alpha:]]*
(?:
  (?(1)
    \)
    |(?:(?(2)
      \]
      |(?:\}
)))))

will match (foo), [foo] and {foo} but not (foo], {foo] or {foo).

7.14 The program check-regexp

Since version 2.7, the source-highlight package comes with a small additional program, check-regexp, that permits testing regular expressions on the command line.

You simply pass as the first command line argument the regular expression and then the strings you want to try to match (actually, the program searches the string for the given regular expression, so it is not required to match the whole string). It is crucial, in order to avoid shell substitutions, to enclose both the expression and the strings in single quotes.

The program then prints some information about the (possibly successful matching). The what[0] part represents the whole match, and what[i] part represents the i-th marked subexpression that matched. The program also prints possible prefix and suffix.

Here’s an example of output of the program:

check-regexp '(a+)(.*)\1' 'aabcdaa' 'babbbacc'

searching      : aabcdaa
for the regexp : (a+)(.*)\1
what[0]: aabcdaa
  what[1]: aa
  length: 2
  what[2]: bcd
  length: 3
total number of matches: 1

searching      : babbbacc
for the regexp : (a+)(.*)\1
prefix: b
what[0]: abbba
  what[1]: a
  length: 1
  what[2]: bbb
  length: 3
suffix: cc
total number of matches: 1

And here’s the example of matching parenthesis we saw in Notes on regular expressions:

check-regexp \
   '(?:(\()|(\[)|(\{))[[:alnum:]]*(?:(?(1)\)|(?:(?(2)\]|(?:\})))))' \
   '{ciao}' '(foo]' '[hithere]'

searching      : {ciao}
for the regexp : (?:(\()|(\[)|(\{))[[:alnum:]]*(?:(?(1)\)|(?:(?(2)\]|(?:\})))))
what[0]: {ciao}
  what[3]: {
  length: 1
total number of matches: 1

searching      : (foo]
for the regexp : (?:(\()|(\[)|(\{))[[:alnum:]]*(?:(?(1)\)|(?:(?(2)\]|(?:\})))))
total number of matches: 0

searching      : [hithere]
for the regexp : (?:(\()|(\[)|(\{))[[:alnum:]]*(?:(?(1)\)|(?:(?(2)\]|(?:\})))))
what[0]: [hithere]
  what[2]: [
  length: 1
total number of matches: 1

7.15 Listing Language Elements

In order for language definitions to be really useful they must be used in proper combination with formatting styles (see Output format style). However, these different files might not be developed by the same person, or simply some one may want to customize one of these. In order to define good output formatting style files you should be aware of each language element defined by a language definition file. Instead of having to look inside the language definition file itself (and recursively in each included file) you can use the command line option --show-lang-elements³⁷, that simply prints to the standard output all the language elements that can be highlighted with a specific language definition file.

For instance, for cpp.lang you get:

cbracket
classname
comment
function
keyword
label
normal
number
preproc
specialchar
string
symbol
todo
type
url
usertype

while for log.lang you get:

cbracket
comment
date
function
ip
normal
number
port
string
symbol
time
twonumbers
webmethod

7.16 Concluding Remarks

By mixing all these features you can unleash your imagination and define highlighting for complex source languages such as Flex and Bison by writing few lines of code and re-use existing ones. For instance, Flex and Bison have their own syntax and lets you write C/C++ code in specific parts of the source language, e.g., the code between the outmost brackets, in the following example, is C++ code, and should be highlighted following C++ language definitions (apart from variables that are prefixed with $):

globaltags : options { if (...) { setTags( $1 ); } }

This is easy to do (taken from flex.lang):

state cbracket delim "{" "}" multiline nested begin
  variable = '\$.'
  include "cpp.lang"
end

Note that, since we used nested we can be sure that the C++ language definitions are not considered anymore when we matched the last closing }.

7.17 Debugging

When writing a language definition file, it is quite useful to be able to debug it (by using complex regular expressions one may experience unwanted behaviors). Since version 2.1 the command line option --debug-lang is available. When using this option, some additional information are printed to the standard output.

Since version 2.5 this option also accepts the a sub specification (see Invoking source-highlight). When using dump (the default) all the additional information explained below will be dumped without interaction with the user. When using interactive, for each formatted string the program will stop waiting for a command from the user. In this very primordial version of interactive debug, the user will only have to press ENTER to make the program continue until the next formatted string. This way, the programmer will have the chance to step the highlighting of each part of the input file. Moreover, when debugging is enabled, no buffering will be performed by the program, thus each formatted element will be immediately available in the output. For instance, you can use the command tail -f to see the modifications on the output file on-the-fly.

When using this command line option the additional information produced has the following format:

<.lang filename>:<line number>
expression: <matched subexpression>
formatting: <source file string to be formatted>
entering: <next state's id>
exiting state, level: <number of states> 

The lines starting with entering, exiting and exitingall are related to entering a new state/environment and exiting one and all states/environments (current state, if shown, comes after entering and prints the same state’s regular expression but after the substitution of dynamic backreferences, Dynamic Backreferences). The first line shows a link to the .lang definition file and the line number, i.e., and the sub-expression that matched and the line starting with formatting shows the source file string that matched with that expression. If a line starting with formatting is not preceded by a line with the link to the sub-expression, it means that no particular regular expression has matched, and thus the style normal will be used to format that string.

Consider the following (simplified) Java source file:

01: /*
02:   This is to demonstrate –debug-lang
03:   http://www.lorenzobettini.it
04: */
05: 
06: package hello;
07: 
08: public class Hello {
09:         // just some greetings ;-)  /*
10:     int i = 10;
11:     System.out.println("Hello World!");
12: }
13: 

Now you can debug the java.lang file by using the --debug-lang command line option. And the output is as follows:

c_comment.lang:24
expression: "/\*"
formatting "/*" as comment
entering state: 23
formatting "  This is to demonstrate --debug-lang" as default
formatting "  " as default
url.lang:3
expression: "(?:(?:<?)[[:word:]]+://[[:word:]\./\-_]+(?:>?))"
formatting "http://www.lorenzobettini.it" as url
c_comment.lang:24
expression: "\*/"
formatting "*/" as comment
exiting state, level: 1
java.lang:1
expression: "\<(?:import|package)\>"
formatting "package" as preproc
formatting " hello" as default
symbols.lang:1
expression: "(?:~|!|%|\^|\*|\(|\)|-|\+|=|\[|\]|\\|:|;|,|\.|/|\?|&|<|>|\|)"
formatting ";" as symbol
... omissis ...
c_comment.lang:13
expression: "//"
formatting "//" as comment
entering state: 12
formatting " just some greetings ;-)  /*" as default
c_comment.lang:13
expression: "\z"
formatting "" as comment
exiting state, level: 1
... omissis ...

This should provide enough information to understand how the regular expressions are used and how the states/environments are entered and exited. Please note that the sub-expressions that are shown may differ from the original ones specified in the .lang file. This is due to the preprocessing that is performed by Source-highlight. Moreover, some sub-expressions are not defined at all in the .lang file: for instance, this is the case for line wide definitions, i.e., those that are defined with the keyword start, Line wide definitions. The last lines above, showing expression: "\z", means that we matched the end of a line.

Another useful feature in debugging is the option --show-regex that shows, on the standard output, the regular expression automaton that source-highlight creates.

For instance, consider this language definition (comment-show.lang):

vardef TODO = '(TODO|FIXME)([:]?)'

environment comment delim "/**" "*/" multiline begin
  type = '@[[:alpha:]]+'
  todo = $TODO
end

state cbracket delim "{" "}" escape "\\" multiline nested begin
  keyword = "if|then|else|endif"
end

string delim "<" ">"

string2 delim "<<" ">>" multiline

If you now execute the following command:

source-highlight --show-regex=comment-show.lang

you will get, on the standard output, the following output³⁸:

STATE 1 default: normal
  rule (comment) "/\*\*" (exit level: 0, next: 2)
    STATE 2 default: comment
      rule (comment) "\*/" (exit level: 1, next: 0)
      rule (type) "(?:\@[[:alpha:]]+)" (exit level: 0, next: 0)
      rule (todo) "(?:(?:TODO|FIXME)(?:[:]?))" (exit level: 0, next: 0)
  rule (cbracket) "\{" (exit level: 0, next: 3)
    STATE 3 default: normal
      rule (cbracket) "\}" (exit level: 1, next: 0)
      rule (cbracket) "\\." (exit level: 0, next: 0)
      rule (cbracket) "\{" (exit level: 0, next: 0, nested)
      rule (keyword) "\<(?:if|then|else|endif)\>" (exit level: 0, next: 0)
  rule (string) "<(?:[^<>])*>" (exit level: 0, next: 0)
  rule (string2) "<<" (exit level: 0, next: 4)
    STATE 4 default: string2
      rule (string2) ">>" (exit level: 1, next: 0)

This shows the states and highlight rules of the regular expression automaton that source-highlight creates and will use to format an input source.

Each state is associated a unique number in order to identify it; moreover, the default element of the state is shown (i.e., if none of the state’s rule match, then that part is highlighted with the default element style). For instance, in the initial state the default style is normal. Then for each state it shows the rules for that state. For each rule you can see the corresponding element of the rule, the regular expression for the rule and some other information, that we explain in the following.

We can see that if we match a /** (it is shown as a string with escaped special characters, /\*\*) we enter a new state, in this case the state 2 (next: 2). This corresponds to the delimited element defining a new environment (State/Environment Definitions). The fact that it is actually an environment and not a state³⁹ can be seen by the fact that the default element is the same of the environment itself. If we match a */, i.e., the end of the delimited element, we exit one level (exit level: 1) meaning that we go back to state 1. Then we have the state for cbracket, which is not an environment, in fact its default state is normal. The second rule of this state, \\. represents the escape string of the state definition. Since the delimited element is defined as nested, we have a third rule { which has the nested information; thus, if we match it, we simply enter a new instance of state 3 itself.

The string and string2 show the difference implied by the multiline option: since source-highlight handles a line of input separately, the first delimited definition can be handled with a single regular expression while the multiline version cannot.

Note that the states/environments are indented so that it’s easier to understand the outer and the inner states.

Let us now consider a variation of the previous example:

vardef TODO = '(TODO|FIXME)([:]?)'

environment comment delim "/**" "*/" multiline nested begin
  type = '@[[:alpha:]]+'
  todo = $TODO
end

regexp = `([^[:alnum:]]).*(\1)`

string delim "<" ">"

string2 delim "<<" ">>" multiline

(paren,normal,paren) = `(\[)(.*)(\])`

and let us see the output of --show-regex

STATE 1 default: normal
  rule (comment) "/\*\*" (exit level: 0, next: 2)
    STATE 2 default: comment
      rule (comment) "\*/" (exit level: 1, next: 0)
      rule (comment) "/\*\*" (exit level: 0, next: 0, nested)
      rule (type) "(?:\@[[:alpha:]]+)" (exit level: 0, next: 0)
      rule (todo) "(?:(?:TODO|FIXME)(?:[:]?))" (exit level: 0, next: 0)
  rule (regexp) "(?:([^[:alnum:]]).*(\1))" (exit level: 0, next: 0)
  rule (string) "<(?:[^<>])*>" (exit level: 0, next: 0)
  rule (string2) "<<" (exit level: 0, next: 3)
    STATE 3 default: string2
      rule (string2) ">>" (exit level: 1, next: 0)
  rule (paren normal paren) "(\[)(.*)(\])" (exit level: 0, next: 0)

Since in the rule regexp we used the ` regular expression (see Ways of specifying regular expressions), then, the marked subexpressions are not translated in order to make backreferences work correctly.

The last rule uses explicit subexpressions with names (see Explicit subexpressions with names); although that expression is made up of different elements, the expression is matched as a whole.

7.18 Tutorials on Language Definitions

Now we provide some examples of language definitions. In the previous sections we have already provided some code snippets, while here we provide complete examples of language definitions that are included in the source-highlight distribution itself.

In particular we will first show the language definition for the language definition syntax itself (file langdef.lang). This will be used to highlight the examples of language definitions that we will show in this section (the highlighting will not be visible if you are viewing this manual with the info command). Of course, this example is highlighted itself.

# this is the language definition for the
# language definition syntax itself
comment start "#"

preproc = "include"

string delim "\"" "\"" escape "\\" multiline
regexp delim "'" "'" escape "\\" multiline
regexp delim "`" "`" escape "\\" multiline

keyword = "state|environment|begin|end|delim|escape|start",
          "multiline|nested|vardef|exitall|exit",
          "redef|subst|nonsensitive"

symbol = "=|+|,|(|)"

vardef ID = '[[:word:]]+'

variable = '\$' + $ID

variable = $ID

The style that is used to highlight these examples in Texinfo is texinfo.style that is shown in Output format style. The language definition for the style syntax (file style.lang) is even simpler:

# this is the language definition for the
# style definition syntax
comment start "//"

string delim "\"" "\"" escape "\\"

keyword = "bgcolor|purple|orange|brightorange|brightgreen|darkgreen",
          "green|darkred|red|brown|pink|yellow|cyan",
          "black|teal|gray|darkblue|blue",
          "normal|linenum",
          "noref|nf|f|u|i|b"
keyword = 'bg\:'

symbol = ",|;"

variable = '[[:word:]]+'

Note that this definition is pretty simple since the language definition syntax is simple. In the next examples we will see how to use more complex features to highlight more complex language syntaxes.

7.18.1 Highlighting C/C++ and C#

This is the language definition for C, included in the file c.lang:

# definitions for C

include "c_comment.lang"

label = '^[[:blank:]]*[[:alnum:]]+:[[:blank:]]*\z'

(keyword,normal,classname) = 
  `(\<(?:enum|struct|union))([[:blank:]]+)([[:alnum:]_]+)`

include "c_preprocessor.lang"

include "number.lang"

include "c_string.lang"

keyword = "__asm|__cdecl|__declspec|__export|__far16",
  "__fastcall|__fortran|__import",
  "__pascal|__rtti|__stdcall|_asm|_cdecl",
  "__except|_export|_far16|_fastcall",
  "__finally|_fortran|_import|_pascal|_stdcall|__thread|__try|asm|auto",
  "_Alignas|_Alignof|_Atomic|_Generic|_Noreturn|_Static_assert|_Thread_local",
  "break|case|catch|cdecl|const|continue|default",
  "do|else|enum|extern|for|goto",
  "if|pascal",
  "register|restrict|return|sizeof|static",
  "struct|switch",
  "typedef|union",
  "volatile|while"

type = "bool|char|double|float|int|long",
  "short|signed|unsigned|void|wchar_t",
  "_Bool|_Complex|_Imaginary"

include "symbols.lang"

cbracket = "{|}"

include "function.lang"

include "clike_vardeclaration.lang"

Note that this makes use of lots of includes since these parts are reused in other language definitions (e.g., Java has lots of parts that are in common with C/C++ so we wrote these parts in separate files). In particular the comments definitions:

# c_comment.lang

# comments with documentation tags
environment comment start "///" begin
  include "url.lang"
  include "html_simple.lang"
  type = '@[[:alpha:]]+'
  include "todo.lang"
end

comment start "//"

# comments with documentation tags
environment comment delim "/**" "*/" multiline begin
  include "url.lang"
  include "html_simple.lang"
  type = '@[[:alpha:]]+'
  include "todo.lang"
end

# standard comments
environment comment delim "/*" "*/" multiline begin
  include "url.lang"
  include "todo.lang"
end

Here we have the definitions for line-wide comments (//) and for multi line comments where we highlight also URL addresses and e-mail addresses (defined in the file url.lang not shown here). Moreover, for comments that are used in automatic documentation generation tools (such as Doxygen or Javadoc), i.e., those that start with /** or ///) we also highlight the complete HTML syntax (defined in the file html.lang not shown here).

Going back to c.lang we see that we use subexpressions with names (see Explicit subexpressions with names) for highlighting the struct name (when preceded by struct, highlighted as a keyword).

For preprocessor directives #include we use a state definition since in this case the file included with the <file> syntax must be formatted as strings (and only in this context the <> must be considered as strings, anywhere else they are operators). Since a state erases definitions defined outside the state we must include c_comment.lang again in order to highlight comments also in this context⁴⁰. Then we have a definition of preproc that catches all the other preprocessor directives.

The included file number.lang defines the regular expression that catches number constants (not shown here), then we include the file c_string.lang that define strings (again shared by Java):

vardef SPECIALCHAR = '\\.'

environment string delim "\"" "\"" begin
  specialchar = $SPECIALCHAR
end

environment string delim "'" "'" begin
  specialchar = $SPECIALCHAR
end

inside a string we want to highlight in a different way the special characters (such as, e.g., \n, \t, etc.) and in general escaped characters, matched by the regular expression ‘\\.’.

The included file symbols.lang defines all the symbols (shared also by other languages):

symbol = "~","!","%","^","*","(",")","-","+","=","[",
        "]","\\",":",";",",",".","/","?","&","<",">","\|"

This has nothing interesting but the fact that it shows that the character \ and | have to be escaped.

The included file function.lang defines the regular expression to match a function definition or invocation:

vardef FUNCTION = '([[:alpha:]]|_)[[:word:]]*(?=[[:blank:]]*\()'
function = $FUNCTION

that shows an example of forward lookahead assert for the opening parenthesis (see Notes on regular expressions). As noted in File inclusion, it is crucial that this file is included after the keyword definition.

Finally, c.lang includes the file clike_vardeclaration.lang:

(usertype,usertype,normal) = 
`([[:alpha:]_](?:[^[:punct:][:space:]]|[_])*)
((?:<.*>)?)
(\s+(?=[*&]*[[:alpha:]_][^[:punct:][:space:]]*\s*[[:punct:]\[\]]+))`

This definition, using subexpressions with names (see Explicit subexpressions with names), tries⁴¹ to match user types (e.g., struct names) in function parameter and variable declarations. It basically tries to match a type identifier, then a possible template specification⁴² and then we have a complete lookahead assert (Notes on regular expressions) that tries to match the variable identifier, possibly with & and * reference and pointer specification, followed by an assignment = or a ;, more generally a [:punct:] or [] (for array specifications). This should catch the user types in the correct contexts, as in the following (where we intentionally highlighted usertype in italics):

Integer i = 10;
Boolean b;
String args[];
const MyType args[];
const My_Type args[];
List<Integer> mylist;
List<List<Integer> > mylist;
myspace::InputStream iStream ;
MyType *t;
MyType **t;
const MyType &t;
if (argc > 0) { }
__mytype _i;
typedef _mytype __i;

Note that since for the third group we use a lookahead assert, what is matched is not actually formatted but it is put back in the input stream so that it can be formatted using other rules (e.g., symbol for * and =).

Since, at least syntactically, C++ is an extension of C, the language definition for C++, included in the file cpp.lang, relies on c.lang⁴³:

# definitions for C++

include "c_comment.lang"

(keyword,normal,classname) = 
  `(\<(?:enum|class|struct|typename|union))([[:blank:]]+)([[:alnum:]_]+)`

include "c_preprocessor.lang"

include "number.lang"

include "c_string.lang"

keyword = "__asm|__cdecl|__declspec|__export|__far16",
  "__fastcall|__fortran|__import",
  "__pascal|__rtti|__stdcall|_asm|_cdecl",
  "__except|_export|_far16|_fastcall",
  "__finally|_fortran|_import|_pascal|_stdcall|__thread|__try|asm|auto",
  "break|case|cdecl|const|continue|default",
  "do|else|enum|extern|for|goto",
  "if|pascal",
  "register|restrict|return|sizeof|static",
  "struct|switch",
  "typedef|union",
  "volatile|while",
  "catch|class|const_cast|constexpr|decltype|delete",
  "dynamic_cast|explicit|export|false|final|friend",
  "inline|mutable|namespace|new|noexcept|operator|override",
  "private|protected|public|reinterpret_cast|static_cast",
  "static_assert|template|this|throw|true",
  "try|typeid|typename",
  "using|virtual"

label = '^[[:blank:]]*[[:alnum:]]+:[[:blank:]]*\z'

type = "bool|char|double|float|int|long",
  "short|signed|unsigned|void|wchar_t",
  "char16_t|char32_t"

include "symbols.lang"

cbracket = "{|}"

include "function.lang"

include "clike_vardeclaration.lang"

In particular, it extends the set of keywords. Moreover, note that we use subexpressions with names (see Explicit subexpressions with names) for highlighting the class (or struct) name (when preceded by class, struct or typename, highlighted as a keyword). A similar rule was also present in c.lang, but it concerned only struct.

Now that we wrote the language definition for C/C++, writing the one for C# is straightforward, since we only need to add the keyword using as a preprocessor element, and redefine (or better, “substitute”, Redefinitions and Substitutions) the keywords and types:

# definitions for C-sharp
# by S. HEMMI, updated by L. Bettini.
preproc = "using"

number = 
'\<[+-]?((0x[[:xdigit:]]+)|(([[:digit:]]*\.)?
[[:digit:]]+([eE][+-]?[[:digit:]]+)?))([FfDdMmUulL]+)?\>'

include "cpp.lang"

subst keyword = "abstract|event|new|struct",
 "as|explicit|null|switch",
 "base|extern|this",
 "false|operator|throw",
 "break|finally|out|true",
 "fixed|override|try",
 "case|params|typeof",
 "catch|for|private",
 "foreach|protected",
 "checked|goto|public|unchecked",
 "class|if|readonly|unsafe",
 "const|implicit|ref",
 "continue|in|return",
 "virtual",
 "default|interface|sealed|volatile",
 "delegate|internal",
 "do|is|sizeof|while",
 "lock|stackalloc",
 "else|static",
 "enum|namespace",
 "get|partial|set",
 "value|where|yield"

subst type = "bool|byte|sbyte|char|decimal|double",
 "float|int|uint|long|ulong|object",
 "short|ushort|string|void"

7.18.2 Highlighting Diff files

Now we want to highlight files that are generated by diff (typically used to create patches). This program can generate outputs in three different formats (at least at best of my knowledge).

With the option -u|--unified the differences among files are shown in the same context, for instance (the examples of the diff files shown here are manually modified so that they can fit in the page width):

diff -ruP source-highlight-2.1.1/source-highlight.spec ...
— source-highlight-2.1.1/source-highlight.spec ...
+++ source-highlight-2.1.2/source-highlight.spec ...
@@ -6,8 +6,8 @@
 
 Summary:   syntax highlighting for source documents
 Name:      source-highlight
-Version:   2.1.1
-Release:   2.1.1
+Version:   2.1.2
+Release:   2.1.2
 License:   GPL
 Group:     Utilities/Console
 Source:    ftp://ftp.gnu.org/gnu/source-highlight/%{name}-%{version}.tar.gz

With the option -c--context the differences are shown into two different parts:

diff -rc2P source-highlight-2.1.1/source-highlight.spec ...
*** source-highlight-2.1.1/source-highlight.spec ...
— source-highlight-2.1.2/source-highlight.spec ...
***************
*** 7,12 ****
  Summary:   syntax highlighting for source documents
  Name:      source-highlight
! Version:   2.1.1
! Release:   2.1.1
  License:   GPL
  Group:     Utilities/Console
— 7,12 —-
  Summary:   syntax highlighting for source documents
  Name:      source-highlight
! Version:   2.1.2
! Release:   2.1.2
  License:   GPL
  Group:     Utilities/Console
diff -rc2P source-highlight-2.1.1/src/latex.outlang ...
*** source-highlight-2.1.1/src/latex.outlang ...
— source-highlight-2.1.2/src/latex.outlang ...
***************
*** 35,37 ****
— 35,38 —-
  "--" "-\\/-"
  "---" "-\\/-\\/-"
+ "\"" "\"{}" # avoids problems with some inputenc
  end

Without options it generates only the essential difference information without any addition context lines:

diff -rP source-highlight-2.1.1/source-highlight.spec ...
9,10c9,10
< Version:   2.1.1
< Release:   2.1.1
---
> Version:   2.1.2
> Release:   2.1.2

Summarizing, we would like to be able to handle all these three different syntaxes; note that the first format and the second format have something conflicting: the first one uses the --- to indicate the new version of a file while the second format uses it to indicate the old version of a file. Since we want to highlight differently the old parts and the new parts (this is not visible in the Texinfo highlighting due to the lack of enhanced formatting features, but it is visible for instance in HTML output where we use two different colors), this behavior adds some difficulties. Of course, we could define three different language definitions, one for each diff output format. However, we prefer to handle them all in the same file!

This is the language definition for diff files:

# language definition for files created with ’diff’

# diff created with -u option
state oldfile = '(?=^[-]{3})' begin
  oldfile start '^[-]{3}'
  oldfile start '^[-]'
  newfile start '^[+]'
  difflines start '^@@'
end

# diff created with -c option
state oldfile = '(?=^[*]{3})' begin
  environment oldfile = '^[*]{3}[[:blank:]]+[[:digit:]]' begin
    normal start '^[[:space:]]'
    newfile = '(?=^[-]{3})' exit
  end
  oldfile start '^[*]{3}'

  environment newfile = '^[-]{3}[[:blank:]]+[[:digit:]]' begin
    normal start '^[[:space:]]'
    newfile = '(?=^[*]{3})' exit
    normal start '^diff' exit
  end
  newfile start '^[-]{3}'
end

# otherwise, created without options
state difflines = '(?=^[[:digit:]])' begin
  difflines start '^[[:digit:]]'
  oldfile start '^[<]'
  newfile start '^[>]'
end

Since we can safely assume that when we process a diff file it contains only information created with the same diff command line switch, we define three different states that correspond to the three diff output formats. Note that these states are entered with a simple definition; as noted in State/Environment Definitions, this means that no automatic exit means are provided, and since no explicit exit condition is specified, this means that once one of this state is entered it will never be exited. This is consistent with our goal. Of course, the expression that makes us enter a state must be defined correctly, and in particular we first search for an initial --- sequence since this is used as the first difference specification by the -u|--unified option, so this is a distinguishing feature to be used to infer which diff format file we are processing.

Another interesting thing, is that we use the forward lookahead assert for the opening parenthesis (see Notes on regular expressions), since we only want to see which file format we are processing. Once we entered the right state we can define the regular expressions for the elements of the specific diff file format.

For the files created with the option -c|--context we define two inner environments, one for the new file part and one for the old file part (these are delimited by a --- or *** and line number information). Note that these are environments, so anything that is not matched by any expression is formatted according to the style of the element that defines the environment. Thus, we provide an expression for text that must be formatted as normal. For diff files this corresponds to a line that start with a space or with diff (take a look at the examples above). In particular the latter case can take place only during the new file part. In both environments we must define the exit conditions. In both cases these correspond to the beginning of the complementary part; also in this case we use forward lookahead assertions, since we use it only to exit the environment. The outer definitions for oldfile and newfile are used to match the lines with source file information information.

The third state, corresponding to the normal diff output format, should be straightforward by now.

7.18.3 Pseudo semantic analysis

Source-highlight, by means of regular expressions can only perform lexical analysis of the input source. In particular, it is based on the assumption that the input source is syntactically correct with respect to the input language. However, by using the language definition syntax and by writing the right regular expression it is possible to simulate some sort of semantic analysis of the input source.

For instance, consider the following C (or C++) source file:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
  return 1;
#else
  printf("Hello world!\n");
  return 0;
#endif

  printf("never reach here!\n");
}

It is easy to verify that the code between #if 0 and #else will be never executed (indeed it will not even be compiled). Thus, we might want to format it as a comment.

We then write another language definition file, based on the file cpp.lang:

environment comment start '^[[:blank:]]*#if[[:blank:]]+0' begin
  comment start '^[[:blank:]]*#(else|endif)' exit
end

include "cpp.lang"

We intentionally included an error in this first version: we used the start element to start the environment, but such element has the scope of a single line, thus, it does not have the desired behavior:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
  return 1;
#else
  printf("Hello world!\n");
  return 0;
#endif

  printf("never reach here!\n");
}

A better solution is the following one:

environment comment = '^[[:blank:]]*#[[:blank:]]*if[[:blank:]]+0' begin
  comment start '^[[:blank:]]*#[[:blank:]]*(else|endif)' exit
end

include "cpp.lang"

here we enter the comment environment by not using a delimited element, but simply the regular expression to match #ifdef 0. Then we exit the environment either when we match an #else or a #endif. This seems to work:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
  return 1;
#else
  printf("Hello world!\n");
  return 0;
#endif

  printf("never reach here!\n");
}

However, it does not work if we consider nested #if...#else; for instance consider the following code, formatted with the previous language definition:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
#  ifdef FOO
  printf("foo\n");
#     ifndef BAR
  printf("no bar\n");
#     else
#     endif
#  else
  printf("no foo\n");
#  endif // FOO
  return 1;
#else
  printf("Hello world!\n");
  return 0;
#endif

  printf("never reach here!\n");
}

The problem is that the previous language definition does not consider nested #if and thus, the first time it matches a #else or an #endif it exits the comment environment.

We must then take into account possible nested occurrences. This can be done by using a delimited element with the nested option (Delimited definitions):

# treat the preprocess statement
#  #if 0
#    ...
#  #else
# as a comment

environment comment = '^[[:blank:]]*#[[:blank:]]*if[[:blank:]]+0' begin
  comment start '^[[:blank:]]*#[[:blank:]]*else' exit
  comment delim '^[[:blank:]]*#[[:blank:]]*if' 
                '^[[:blank:]]*#[[:blank:]]*endif' multiline nested
  
end

include "cpp.lang"

This time the right block of code is correctly formatted as a comment:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
#  ifdef FOO
  printf("foo\n");
#     ifndef BAR
  printf("no bar\n");
#     else
#     endif
#  else
  printf("no foo\n");
#  endif // FOO
  return 1;
#else
  printf("Hello world!\n");
  return 0;
#endif

  printf("never reach here!\n");
}

Note that it is crucial to exit the environment even when we match an #else (not only an #endif, since, this way, we can match again another #ifdef 0; consider, for instance, the following code:

// test special #if 0 treatment

int main() {
#if 0 // equivalent to a comment
  int i = 10;
  printf("this should never be executed\n");
  return 1;
#else
  printf("Hello world!\n");
#   if 0 // another one
  return 1;
#   else
  return 0;
#   endif
#endif

  printf("never reach here!\n");
}

8 Output Language Definitions

Since version 2.1 source-highlight uses a specific syntax to specify output formats (e.g., how to format in HTML, LaTeX, etc.). Before version 2.1, in order to add a new output format, many C++ classes had to be written. This had the drawback that a new output format could not be added “dynamically”: you had to recompile the whole source-highlight program.

Instead, now, an output format is specified in a file, loaded dynamically, through a (hopefully) simple syntax. Then, these definitions are used internally to create, on-the-fly, text formatters.

Here, we see such syntax in details, by relying on many examples. This allows a user to easily modify an existing output format definition and create a new one. These files have, typically, extension .outlang.

Each definition basically associates a text style (such as, e.g., bold, italics, colors, etc.) to the representation of that style into the output format (such as, e.g., <b>$text</b> in HTML). The representation is given in " and you can use the classic escape character \ to use the " inside the definition. If you want to specify the ASCII code for a character you can do so by specifying the numeric code in hexadecimal notation preceded by \x, for an example, see Style template.

If no definition is given for a specific style, e.g., bold, then when that style is requested during formatting, the text will be formatted as it is, i.e., the style without the definition is simply ignored.

Comments can be given by using #; the rest of the line is considered as a comment.

Files can be included in the same way as for language definitions, File inclusion.

In any case, if a definition for a style is given more than once, the last definition replaces all the others.

8.1 File extension

With the line:

extension "<file extension>"

you define the default file extension (without the .) used to generate files formatted according to this output format. This is used when no output file name is specified; if the file extension is not included in the .outlang is not defined, and no output file name is specified, an error will occur.

For instance, this is used in html_common.outlang:

extension "html"

8.2 Text styles

These are the text styles that one can define:

bold
italics
underline
notfixed
fixed

These, of course, correspond to the ones used to specify the output format style, Output format style.

These definitions, for instance, are from the HTML format definition:

bold "<b>$text</b>"
italics "<i>$text</i>"
underline "<u>$text</u>"

Inside a definition you use the special variable $text to specify where the actual text to be formatted has to be inserted. For instance, the definition of bold above says that if you need to format the keyword class in bold in HTML, the following text will be generated: <b>class</b>. This variable is used also when mixing more than one styles recursively, in particular if you want to format in bold and italics (i.e, first bold and then italics, or, in other words, the sequence i, b is used in the the output format style file, see Output format style), then first the text class is substituted for $text into <b>$text</b> and then the text <b>class</b> will be substituted for $text into <i>$text</i>, thus obtaining <i><b>class</b></i>.

8.3 Colors

The definition for using colors during formatting requires the definition for the color style

color "..."

and for the bgcolor style⁴⁴:

bgcolor "..."

This definition concerns only the background color for a specific highlighted element, i.e., the color specified in the style file with the prefix bg: (see Output format style) or the property background-color specified in a CSS file passed to --style-css-file (see Output format style using CSS). Thus it should not be confused with the background color of the entire output (i.e., the one specified using bgcolor in a style file or the property background-color of the body selector in a CSS). The background color for the entire document is explained in Document template.

Note that the background color might not be available for all output formats. For instance, for HTML we only have:

color "<font color=\"$style\">$text</font>"

while for XHTML we have:

color "<span style=\"color: $style\">$text</span>"
bgcolor "<span style=\"background-color: $style\">$text</span>"

Apart from the variable $text that we already saw, we have also the variable $style, that will be replaced with the actual color.

Source-highlight recognizes a number of color constants, see Output format style.

You then must associate a color constant to the color definition in the output format, through the colormap definition:

colormap
"color constant" "color representation"
"color constant" "color representation"
...
default "default color representation"
end

The default row (note the absence of ") defines the color to be used in case a color constant is used during formatting, but it is not defined in the output format.

For instance, for HTML we have:

colormap
"green" "#33CC00"
"red" "#FF0000"
"darkred" "#990000"
"blue" "#0000FF"
"brown" "#9A1900"
"pink" "#CC33CC"
"yellow" "#FFCC00"
"cyan" "#66FFFF"
"purple" "#993399"
"orange" "#FF6600"
"brightorange" "#FF9900"
"brightgreen" "#33FF33"
"darkgreen" "#009900"
"black" "#000000"
"teal" "#008080"
"gray" "#808080"
"darkblue" "#000080"
default "#000000"
end

If your output format does not handle colors you can simply avoid the definitions of color and colormap and Source-highlight will simply ignore colors.

The color is applied after applying the other styles, e.g., bold, italics, etc.

Thus, by continuing the example of the previous section, suppose you defined the following output style for keywords:

keyword blue i, b;

then the class text will be replaced to $text variable and the value #0000FF to $style inside the color definition <font color="$style">$text</font> obtaining <font color="#0000FF">class</font> which will then be replaced to $text in <b>$text</b> and so on for italics, finally obtaining

<i><b><font color="#0000FF">class</font></b></i>.

8.4 Anchors and References

When using the command line option --line-number-ref (Invoking source-highlight) an anchor is generated in the output file for each line numbering. The style of the anchor is defined by the definition anchor. If this is not defined, the option --line-number-ref has no effect. The $linenum variable will be replaced with the line number, and the $text variable with the actual text.

For instance, for HTML we have

anchor "<a name=\"$linenum\">$text</a>"

Since version 2.2 source-highlight can also generate references to several elements (e.g., variables, class definitions, etc.), Generating References. Also in this case the definition anchor is used; furthermore, the definition of reference is required. In the definition of anchor and reference, apart from the variable $linenum, we also have the variables $infile (the name of the original input file) and $infilename (the name of the original input file without the path) and in the definition of reference we also have the variable $outfile (the name of the file where the anchor is). One can decide how to define an anchor and a reference by using these two variables. For instance, for HTML we have

reference "<a href=\"$outfile#$linenum\">$text</a>"

Note, that in this case we use the $outfile since we actually generate a link to another (or possibly the same) output file.

On the contrary, for LaTeX, since we do not generate a “clickable” reference, we refer to the original input file (we use both $infilename and $linenum in both definitions of anchor and reference):

anchor "\label{$infilename:$linenum}$text"
reference "{\hfill $text $\rightarrow$ $infile:$linenum, \
           page~\pageref{$infilename:$linenum}}"

In particular, we use $infilename for generating the \label and not $infile because the path symbol would “disturb” LaTeX (while we use the complete file path in the textual information of the reference).

This will generate a right aligned reference. Note that it is assumed that when generating references in LaTeX one uses --gen-references=postline or --gen-references=postdoc and not --gen-references=inline (Generating References), since it makes no sense to generate an inline reference (or at least I would not know how to generate a nice looking one :-).

Furthermore, for Texinfo:

anchor "@anchor{$infilename:$linenum}$text"
reference "@flushright
@xref{$infilename:$linenum,$text,$text $infile:$linenum}.
@end flushright"

Note that using both $infilename (and not $infile for the same reasons) and $linenum also in the definition of anchor somehow ensures that there are no duplicate anchors; this is done for LaTeX and Texinfo but not for HTML because it is assumed that the generated .tex and .texinfo file is included directly in a master file, as it is done in this manual (while, for instance, it is assumed that a separate HTML file is generated for each source and kept separate). If this is not your case you can change the definitions of anchor and reference as you see fit. Some examples of outputs with references in Texinfo are shown in Examples.

Indeed, one can use three more definitions for reference that corresponds to the three arguments that can be passed to --gen-references command line option (Generating References): inline_reference, postline_reference and postdoc_reference. If one of this not defined, then the same definition of reference is used. Having the possibility of specifying different definitions is useful for instance in the case of HTML: the same style for an inline reference is pretty ugly when used also for a postline or postdoc reference:

postline_reference "<a href=\"$outfile#$linenum\">$text -> $infile:$linenum</a>"
postdoc_reference "<a href=\"$outfile#$linenum\">$text -> $infile:$linenum</a>"
reference "<a href=\"$outfile#$linenum\">$text</a>"

8.5 One style

If the output format you are defining does not have a specific style for bold, italics, ... and for colors you can simply use the definition onestyle, where you can use both $style and $text. This will be used for any style (indeed any other definition such as bold, italics, color will be ignored). Indeed, in this case, it is assumed that the style of each source element is defined in a file with its own syntax, i.e., not with a syntax defined by Source-highlight. (This is the case, for instance, of HTML using CSS style sheets.) Moreover, since the output format style is not used, during formatting the variable $style will be replaced with the name of the element to highlight (e.g., keyword, comment, etc.).

For instance, for HTML CSS, we simply have:

onestyle "<span class=\"$style\">$text</span>"

In fact, HTML CSS relies on style definitions provided in a separate file (the .css file indeed). Thus, when formatting a keyword, e.g., abstract, we will obtain:

<span class="keyword">abstract</span>

Of course, the style for keyword must be defined in the .css file.

8.6 Style template

Some output formats are based on a unique template that where the other styles are composed; during composition the styles can be separated with a specific separator:

styletemplate "..."
styleseparator "..."

This is used, for instance, for the ANSI color escape sequence output format (esc.outlang):

styletemplate "\x1b[$stylem$text\x1b[m"
styleseparator ";"

bold "01$style"
underline "04$style"
italics "$style"
color "$style"

Note that, since more than one style can be mixed into the style template, bold, underline, ... explicitly use the variable $style.

8.7 Line prefix

This feature allows you to generate a string as the prefix of each generated line that corresponds to an input line (i.e., this prefix is not generated for other generated output elements, e.g., the lines in the header, footer, etc.).

We use this feature in the LaTeX output (LaTeX output):

lineprefix "\mbox{}"

This way each line in the LaTeX output is prefixed with \mbox{}⁴⁵.

Another interesting example that uses lineprefix is the javadoc output, see Generating HTML output.

8.8 String translation

Some character sequences that are in the source file may have a special meaning in an output format, so they need some preprocessing (e.g., escaping them). You can specify the translation table with:

translations
"original sequence" "transformed sequence"
'regex' "transformed sequence"
...
end

The difference between "original sequence" and 'regex'⁴⁶ is that with the former you specify a character sequence that will be matched literally, apart from special characters such as \ (which, if needed to be inserted, must be escaped), \n (new line) and \t (tab character). Instead, with the latter, you can specify a regular expression (this is basically the same difference between " and ' in language definitions, see Simple definitions).

For instance, for HTML, we have the following translation table:

translations
"&" "&"
"<" "&lt;"
">" "&gt;"
end

For LaTeX, the translation table is a little bit bigger; here we show only a little part, that shows how to escape special characters (such as \), to translate a new line character and tab character:

translations
"<" "$<$"
">" "$>$"
"&" "\\&"
"\\" "\\textbackslash{}"
"\n" " \\\\\n"
" " "\\ "
"\t" "\\ \\ \\ \\ \\ \\ \\ \\ "
end

Note that, since a new character must be translated in LaTeX with \\, we have to escape two \ (i.e., \\\\) and then we want to actually insert a new line in the output file \n.

For HTML with not fixed font by default, html_notfixed.outlang (see HTML and XHTML output), we need two translate two space sequence (i.e., two adjacent spaces, since in HTML more adjacent spaces are rendered as only one space⁴⁷, while we want them as they are), and we also need to translate a space starting a new line in the source (thus we use the regular expression ^ , enclosed in '); thus we have:

translations
"\n" "<br>\n"
"  " "&nbsp; "
'^ ' "&nbsp;" # a space at the beginning of a line
"\t" "&nbsp; &nbsp; &nbsp; &nbsp; "
end

8.9 Document template

You can define the beginning and the end of an output file, with

doctemplate
"...beginning..."
"...end..."
end

nodoctemplate
"...beginning..."
"...end..."
end

The first one is used when the --doc command line option is specified, while the second one is used in the other case⁴⁸.

For instance, for HTML we have

nodoctemplate
"<!-- Generator: $additional -->
$header<pre><tt>"
"</tt></pre>$footer
"
end

Note that in the end part there is an explicit new line.

In the definition of the doctemplate and nodoctemplate the following variables can be used and will be replaced during the output generation:

$title

the value of the title for the output file (e.g., the one passed with the --title command line option;

$header

the contents of the file specified with the command line option --header;

$footer

the contents of the file specified with the command line option --footer;

$css

the value passed with the command line option --css;

$additional

other additional information. Source-highlight replaces this with its name and its version.

$docbgcolor49

the background color for the output document. Source-highlight replaces this with the value specified in the bgcolor of the .style file (see Output format style) or in the body selector of the CSS file passed with --style-css-file (see Output format style using CSS).

For instance, for an HTML document with css, (file htmlcss.outlang) we have:

doctemplate
"<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.0//EN\"
    \"http://www.w3.org/TR/REC-html40/strict.dtd\">
<html>
<head>
<meta http-equiv=\"Content-Type\"
content=\"text/html; charset=iso-8859-1\">
<meta name=\"GENERATOR\" content=\"$additional\">
<title>$title</title>
<link rel=\"stylesheet\" href=\"$css\" type=\"text/css\">
</head>
<body>
$header<pre><tt>"
"</tt></pre>
$footer</body>
</html>
"
end

For an HTML document with header and footer, (file html.outlang) we have (note the use of $docbgcolor):

doctemplate
"<!DOCTYPE HTML PUBLIC \"-//IETF//DTD HTML//EN\">
<html>
<head>
<meta http-equiv=\"Content-Type\" content=\"text/html; charset=iso-8859-1\">
<meta name=\"GENERATOR\" content=\"$additional\">
<title>$title</title>
</head>
<body bgcolor=\"$docbgcolor\">
$header<pre><tt>"
"</tt></pre>
$footer</body>
</html>
"
end

And for an HTML table output (file htmltable.outlang):

doctemplate
"<table  BGCOLOR=\"$docbgcolor\" NOSAVE >
<tr NOSAVE>
<td NOSAVE>
<pre><tt>"
"</tt></pre>
</td>
</tr>
</table>
"
end

8.10 Generating HTML output

As a complete example we show the file html_common.outlang which contains the common definitions for the various HTML output formats (html.outlang, htmltable.outlang, etc.):

include "html_ref.outlang"

extension "html"

bold "<b>$text</b>"
italics "<i>$text</i>"
underline "<u>$text</u>"
color "<font color=\"$style\">$text</font>"

colormap
"green" "#33CC00"
"red" "#FF0000"
"darkred" "#990000"
"blue" "#0000FF"
"brown" "#9A1900"
"pink" "#CC33CC"
"yellow" "#FFCC00"
"cyan" "#66FFFF"
"purple" "#993399"
"orange" "#FF6600"
"brightorange" "#FF9900"
"brightgreen" "#33FF33"
"darkgreen" "#009900"
"black" "#000000"
"teal" "#008080"
"gray" "#808080"
"darkblue" "#000080"
"white" "#FFFFFF"
default "#000000"
end

translations
"&" "&amp;"
"<" "&lt;"
">" "&gt;"
end

Moreover, this file is also used for generating javadoc output:

include "html_common.outlang"

doctemplate
" * <!-- Generated by Source-highlight -->
 * <pre><tt>
"
" * </tt></pre>
"
end

nodoctemplate
" * <!-- Generated by Source-highlight -->
 * <pre><tt>
"
" * </tt></pre>
"
end

lineprefix " * "

translations
"*/" "&#42;/" # this avoids the */ to be interpreted as
# the end of a comment inside a javadoc comment
end

The javadoc output format is useful to format code snippets that have to be included inside a javadoc comment of another Java file⁵⁰. Apart from being formatted nicely in the generated HTML documentation, this also releases the programmer from escaping specific characters in the code snippet (i.e., &, < and >). Note also that it also avoids the sequence */ to be interpreted as the closing of the (javadoc) comment. For instance, if you write this code:

/**
 * This is an example of usage
 *
 * <pre><tt>
 * System.out.println("*/");
 * </tt></pre>
 */

The resulting Java code contains a syntax error. If you use source-highlight to format the code to insert in a javadoc comment you will avoid these problems.

An example of a javadoc generated HTML page containing a code snippet formatted with source-highlight can be found in the file SimpleClass-doc.html in the documentation directory.

9 Generating References

Since version 2.2 Source-highlight also produces references to fields, variables, etc. In order to do this it relies on the program Exuberant Ctags, by Darren Hiebert, available at http://ctags.sourceforge.net. Thus, you must install this program if you want Source-highlight to provide this feature.

The ctags program generates an index (or “tag”) file for a variety of language objects found in file(s). This allows these items to be quickly and easily located by a text editor or other utility (as in this case for Source-highlight). A “tag” signifies a language object for which an index entry is available (or, alternatively, the index entry created for that object)⁵¹.

This means that Source-highlight is able to generate references for a specific source language if and only if ctags handles such language. We refer to the command line options of ctags: --list-maps and --list-languages to find out the associations of file extensions and supported languages.

Reference generation is enable by using the command line option --gen-references (Invoking source-highlight). This option takes an argument that rules how references will be generated:

inline

a reference pointer will be generated exactly in the same place of the specific element. This is useful in output formats that naturally supports links, such as HTML, while it is useless for output formats that do not support inline links, such as LaTeX.

postline

if a line of the input source contains elements for which we found references, the list of references will be generated right after the line (see the examples, Examples).

postdoc

All the references will be generated after the whole input file has been generated.

There is an exception: when an element has more than one reference (because a variable is defined in many sources or because a method is overloaded) then if inline is specified, the generation switches to postline for that occurrence.

When --gen-references is specified, Source-highlight first invokes ctags. The use can customize this call by using the command line option --ctags (Invoking source-highlight). In particular, if one does not want ctags to be invoked by Source-highlight (e.g., because the tags file has already been generated) then --ctags must be passed an empty string, "". In this case or when the specified ctags command line generates an alternative output tag file (the default generated file is tags), one must specify the exact tag file with the command line option --ctags-file.

Once the tag file is generated, Source-highlight relies on the library readtags provided by the ctags distribution, and included in the Source-highlight sources.

Note that if a program element is formatted according to a style that has the option noref (see Output format style) then this element is not considered a tag, and no reference is generated. This is the case, for instance, for a comment element: each string that is generated with the comment style, since this is declared with the option noref, it is not considered a tag (see Examples).

10 Examples

Here we provide some examples of sources formatted with Source-highlight using the -f texinfo command line option. Please keep in mind that the highlighting will not be visible in the Info file, but only in the printed manual and in the HTML output (well, at least line numbers are visible everywhere :-).

10.1 Simple example

The first example is produced by using the command:

source-highlight -f texinfo -i test.java -o test.java.texinfo -n

and here’s the result

01: /*
02:   This is a classical Hello program
03:   to test source-highlight with Java programs.
04:   
05:   to have an html translation type
06: 
07:         source-highlight -s java -f html –input Hello.java –output Hello.html
08:         source-highlight -s java -f html < Hello.java > Hello.html
09: 
10:   or type source-highlight –help for the list of options
11: 
12:   written by
13:   Lorenzo Bettini
14:   http://www.lorenzobettini.it
15:   http://www.gnu.org/software/src-highlite
16: */
17: 
18: package hello;
19: 
20: import java.io.* ;
21: 
22: /**
23:  * <p>
24:  * A simple Hello World class, used to demonstrate some
25:  * features of Java source highlighting.
26:  * </p>
27:  * TODO: nothing, just to show an highlighted TODO or FIXME
28:  *
29:  * @author Lorenzo Bettini
30:  * @version 2.0
31:  */ /// class
32: public class Hello {
33:     int foo = 1998 ;
34:     int hex_foo = 0xCAFEBABE;
35:     boolean b = false;
36:     Integer i = null ;
37:     char c = '\'', d = 'n', e = '\\' ;
38:     String xml = "<tag attr=\"value\">&auml;</tag>", foo2 = "\\" ;
39: 
40:     /* mymethod */
41:     public void mymethod(int i) {
42:         // just a foo method
43:     }
44:     /* mymethod */
45:    
46:     /* main */
47:     public static void main( String args[] ) {
48:         // just some greetings ;-)  /*
49:         System.out.println( "Hello from java2html :-)" ) ;
50:         System.out.println( "\tby Lorenzo Bettini" ) ;
51:         System.out.println( "\thttp://www.lorenzobettini.it" ) ;
52:         if (argc > 0)
53:             String param = argc[0];
54:         //System.out.println( "bye bye... :-D" ) ; // see you soon
55:     }
56:     /* main */
57: }
58: /// class
59: 
60: // end of file test.java

10.2 References

This example shows the use of --gen-references functionality. In particular, the following output is generated with the command:

source-highlight -f texinfo -i test.h -o test_ref.h.texinfo -n \
     --gen-references=postline

and here’s the result (note how the comment line containing the string mysum does not contain references, since it is a comment element, and this element has the option noref in the texinfo.style, see Output format style. The same holds for the _TEXTGEN_H comment in the last comment line).

01: /**
02: ** Copyright (C) 1999-2007 Lorenzo Bettini
03: **  
04:   http://www.lorenzobettini.it
05:   
06:   r2 = r2 XOR (1<<10);
07:   cout << "hello world" << endl;
08: **  
09: */
10: 
11: // this file also contains the definition of mysum as a #define
12: 
13: // textgenerator.h : Text Generator class &&
14: 
15: #ifndef _TEXTGEN_H

See _TEXTGEN_H ../../tests/test.h:16.

16: #define _TEXTGEN_H
17: 
18: #define foo(x) (x + 1)
19: 
20: #define mysum myfunbody 
21: 
22: #include <iostream.h> // for cerr
23: 
24: #include "genfun.h" /* for generating functions */
25: 
26: class TextGenerator {
27:   public :
28:     virtual void generate( const char *s ) const { (*sout) << s ; }
29:     virtual void generate( const char *s, int start, int end ) const 
30:       {
31:         for ( int i = start ; i <= end ; ++i )
32:           (*sout) << s[i] ;
33:         return a<p->b ? a : 3;
34:       }
35:     virtual void generateln( const char *s ) const
36:         { 
37:             generate( s ) ;

See generate ../../tests/test.h:28.

See generate ../../tests/test.h:29.

38:             (*sout) << endl ; 
39:         }
40:     virtual void generateEntire( const char *s ) const
41:         {
42:             startTextGeneration() ;

See startTextGeneration ../../tests/test.h:46.

See startTextGeneration ../../tests/test.h:70.

43:             generate(s) ;

See generate ../../tests/test.h:28.

See generate ../../tests/test.h:29.

44:             endTextGeneration() ;

See endTextGeneration ../../tests/test.h:47.

See endTextGeneration ../../tests/test.h:76.

45:         }
46:     virtual void startTextGeneration() const {}
47:     virtual void endTextGeneration() const {}
48:     virtual void beginText( const char *s ) const
49:         {
50:             startTextGeneration() ;

See startTextGeneration ../../tests/test.h:46.

See startTextGeneration ../../tests/test.h:70.

51:             if ( s )
52:                 generate( s ) ;

See generate ../../tests/test.h:28.

See generate ../../tests/test.h:29.

53:         }
54:     virtual void endText( const char *s ) const
55:         {
56:             if ( s )
57:                 generate( s ) ;

See generate ../../tests/test.h:28.

See generate ../../tests/test.h:29.

58:             endTextGeneration() ;

See endTextGeneration ../../tests/test.h:47.

See endTextGeneration ../../tests/test.h:76.

59:         }
60: } ;
61: 
62: // Decorator
63: class TextDecorator : public TextGenerator {

See TextGenerator ../../tests/test.h:26.

64:   protected :
65:     TextGenerator *decorated ;

See TextGenerator ../../tests/test.h:26.

66:   
67:   public :
68:     TextDecorator( TextGenerator *t ) : decorated( t ) {}

See TextGenerator ../../tests/test.h:26.

See decorated ../../tests/test.h:65.

69: 
70:     virtual void startTextGeneration() const 
71:     { 
72:         startDecorate() ;
73:         if ( decorated )

See decorated ../../tests/test.h:65.

74:             decorated->startTextGeneration() ;

See startTextGeneration ../../tests/test.h:46.

See decorated ../../tests/test.h:65.

See startTextGeneration ../../tests/test.h:70.

75:     }
76:     virtual void endTextGeneration() const 
77:     { 
78:         if ( decorated )

See decorated ../../tests/test.h:65.

79:             decorated->endTextGeneration() ;

See endTextGeneration ../../tests/test.h:47.

See decorated ../../tests/test.h:65.

See endTextGeneration ../../tests/test.h:76.

80:         endDecorate() ;
81:         mysum;

See mysum ../../tests/test.h:20.

82:     }
83: 
84:     // pure virtual functions
85:     virtual void startDecorate() const = 0 ;
86:     virtual void endDecorate() const = 0 ;
87: } ;
88: 
89: #endif // _TEXTGEN_H
90: 

10.3 Line ranges

This is an example that uses --line-range command line option on the input file shown in See Simple example:

source-highlight -f texinfo -i test.java -n \
     --line-range="12-18","29-34"

This generates the following output

12:   written by
13:   Lorenzo Bettini
14:   http://www.lorenzobettini.it
15:   http://www.gnu.org/software/src-highlite
16: */
17: 
18: package hello;
29:  * @author Lorenzo Bettini
30:  * @version 2.0
31:  */ /// class
32: public class Hello {
33:     int foo = 1998 ;
34:     int hex_foo = 0xCAFEBABE;

Note that, although the specified line ranges span comment environments, the highlighting is respected: the starting of the comment is not printed, but the remaining parts of the comment are correctly highlighted as comment.

10.4 Line ranges (with context)

This is an example that uses the command line option --line-range together with the --range-context and --range-separator:

source-highlight -f texinfo -i test.java -n \
     --line-range="12-18","29-34" \
     --range-context=2 \
     --range-separator="{... not in range ...}"

This generates the following output

{... not in range ...}
10:   or type source-highlight --help for the list of options
11: 
12:   written by
13:   Lorenzo Bettini
14:   http://www.lorenzobettini.it
15:   http://www.gnu.org/software/src-highlite
16: */
17: 
18: package hello;
19: 
20: import java.io.* ;
{... not in range ...}
27:  * TODO: nothing, just to show an highlighted TODO or FIXME
28:  *
29:  * @author Lorenzo Bettini
30:  * @version 2.0
31:  */ /// class
32: public class Hello {
33:     int foo = 1998 ;
34:     int hex_foo = 0xCAFEBABE;
35:     boolean b = false;
36:     Integer i = null ;
{... not in range ...}

Note the two additional 2 lines before and after the ranges (compare it with the output in Line ranges). Note that the (elements of the) context lines are not highlighted. Moreover, the range separator line "{... not in range ...}" is printed between ranges (the separator string is preformatted automatically, so, e.g., you don’t have to escape special output characters, such as the { } in texinfo output).

10.5 Regex ranges

Ranges can be expressed also using regular expressions, with the command line option --regex-range. In this case the beginning of the range will be detected by a line containing (in any point) a string matching the specified regular expression; the end will be detected by a line containing a string matching the same regular expression that started the range. This feature is very useful when we want to document some code (e.g., in this very manual) by showing only specific parts, that are delimited in a ad-hoc way in the source code (e.g., with specific comment patterns).

For instance, the following output was produced, starting from the source file shown in See Simple example, by specifying:

--regex-range="/// [[:alpha:]]+"

Note that the lines containing /// class, which determine the range, are not shown in the output:

32: public class Hello {
33:     int foo = 1998 ;
34:     int hex_foo = 0xCAFEBABE;
35:     boolean b = false;
36:     Integer i = null ;
37:     char c = '\'', d = 'n', e = '\\' ;
38:     String xml = "<tag attr=\"value\">&auml;</tag>", foo2 = "\\" ;
39: 
40:     /* mymethod */
41:     public void mymethod(int i) {
42:         // just a foo method
43:     }
44:     /* mymethod */
45:    
46:     /* main */
47:     public static void main( String args[] ) {
48:         // just some greetings ;-)  /*
49:         System.out.println( "Hello from java2html :-)" ) ;
50:         System.out.println( "\tby Lorenzo Bettini" ) ;
51:         System.out.println( "\thttp://www.lorenzobettini.it" ) ;
52:         if (argc > 0)
53:             String param = argc[0];
54:         //System.out.println( "bye bye... :-D" ) ; // see you soon
55:     }
56:     /* main */
57: }

Furthermore, the line numbers are consistent with the lines of the original file.

If we want to output only what is included between /* main */, we specify (note that we must escape the special regular expression character *):

--regex-range="/\* main \*/"

and we get:

47:     public static void main( String args[] ) {
48:         // just some greetings ;-)  /*
49:         System.out.println( "Hello from java2html :-)" ) ;
50:         System.out.println( "\tby Lorenzo Bettini" ) ;
51:         System.out.println( "\thttp://www.lorenzobettini.it" ) ;
52:         if (argc > 0)
53:             String param = argc[0];
54:         //System.out.println( "bye bye... :-D" ) ; // see you soon
55:     }

If we want to show only the methods, which in the source file are delimited by comment lines containing the method’s name, we can specify:

--regex-range="/\* [[:alpha:]]+ \*/"

41:     public void mymethod(int i) {
42:         // just a foo method
43:     }
47:     public static void main( String args[] ) {
48:         // just some greetings ;-)  /*
49:         System.out.println( "Hello from java2html :-)" ) ;
50:         System.out.println( "\tby Lorenzo Bettini" ) ;
51:         System.out.println( "\thttp://www.lorenzobettini.it" ) ;
52:         if (argc > 0)
53:             String param = argc[0];
54:         //System.out.println( "bye bye... :-D" ) ; // see you soon
55:     }

In this case, we might have also specified:

--regex-range="/\* main \*/","/\* mymethod \*/"

since --regex-range accepts multiple regular expressions.

IMPORTANT: the order of regular expression specification is crucial, since they are tested in the same order they are specified at the command line.

11 Reporting Bugs

If you find a bug in source-highlight, please send electronic mail to

bug-source-highlight at gnu dot org

Include the version number, which you can find by running ‘source-highlight --version’. Also include in your message the output that the program produced and the output you expected.

Even better, please file a bug report at Savannah site:

https://savannah.gnu.org/bugs/?group=src-highlite

If you have other questions, comments or suggestions about source-highlight, contact the author via electronic mail (find the address at http://www.lorenzobettini.it). The author will try to help you out, although he may not have time to fix your problems.

12 Mailing Lists

The following mailing lists are available:

help-source-highlight at gnu dot org

for generic discussions about the program and for asking for help about it (open mailing list), http://mail.gnu.org/mailman/listinfo/help-source-highlight

info-source-highlight at gnu dot org

for receiving information about new releases and features (read-only mailing list), http://mail.gnu.org/mailman/listinfo/info-source-highlight.

If you want to subscribe to a mailing list just go to the URL and follow the instructions, or send me an e-mail and I’ll subscribe you.

I’ll describe new features in new releases also in my blog, at this URL:

http://tronprog.blogspot.com/search/label/source-highlight

Concept Index

Short Table of Contents