/****************************************************************************** * * * * Copyright (C) 1997-2008 by Dimitri van Heesch. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * */ /*! \page install Installation \addindex installation First go to the download page \latexonly({\tt http://www.doxygen.org/download.html})\endlatexonly to get the latest distribution, if you did not have it already. This section is divided into the following sections:
PLATFORMS
file for a list of possible platform
options.
If you have Qt-3.3.x installed and want to build the GUI
front-end, you should run the configure script with
the --with-doxywizard
option:
\verbatim
configure --with-doxywizard
\endverbatim
For an overview of other configuration options use
\verbatim
configure --help
\endverbatim
doxygen
and doxytag
)
should be available in the bin directory of the distribution.
index.html
in the
html directory). You will need the python
interpreter
for this.
pdflatex
, makeindex
, and
egrep
for this).
\verbatim
make pdf
\endverbatim
The PDF manual doxygen_manual.pdf
will be located
in the latex directory of the distribution. Just
view and print it via the acrobat reader.
make install
to install doxygen. If you downloaded the binary distribution for Unix,
type:
\verbatim
./configure
make install
\endverbatim
Binaries are installed into the directory \/bin
.
Use make install_docs
to install the
documentation and examples into \/doxygen
.
\
defaults to /usr/local
but can be changed with
the --prefix
option of the configure script.
The default \
directory is
\/share/doc/packages
and can be changed with
the --docdir
option of the configure script.
Alternatively, you can also copy the binaries from the bin
directory manually to some bin
directory in your search path.
This is sufficient to use doxygen.
\note You need the GNU install tool for this to work (it is part of
the coreutils package). Other install tools may put the binaries in
the wrong directory!
If you have a RPM or DEP package, then please follow the
standard installation procedure that is required for these packages.
\section unix_problems Known compilation problems for Unix
Qt problems
The Qt include files and libraries are not a subdirectory of the
directory pointed to by QTDIR on some systems
(for instance on Red Hat 6.0 includes are in /usr/include/qt and
libs are in /usr/lib).
The solution: go to the root of the doxygen distribution and do:
\verbatim
mkdir qt
cd qt
ln -s your-qt-include-dir-here include
ln -s your-qt-lib-dir-here lib
export QTDIR=$PWD
\endverbatim
If you have a csh-like shell you should use setenv QTDIR \$PWD
instead of the export
command above.
Now install doxygen as described above.
Bison problems
Versions 1.31 to 1.34 of bison contain a "bug" that results in a
compiler errors like this:
ce_parse.cpp:348: member `class CPPValue yyalloc::yyvs' with
constructor not allowed in union
This problem has been solved in version 1.35 (versions before 1.31
will also work).
Latex problems
The file a4wide.sty
is not available for all distributions. If
your distribution does not have it please select another paper type
in the config file (see the \ref cfg_paper_type "PAPER_TYPE" tag in the
config file).
HP-UX \& Digital Unix problems
If you are compiling for HP-UX with aCC and you get this error:
\verbatim
/opt/aCC/lbin/ld: Unsatisfied symbols:
alloca (code)
\endverbatim
then you should (according to Anke Selig) edit ce_parse.cpp
and replace
\verbatim
extern "C" {
void *alloca (unsigned int);
};
\endverbatim
with
\verbatim
#include ce_parse.cpp
and let
bison rebuild it (this worked for me).
If you are compiling for Digital Unix, the same problem can be solved
(according to Barnard Schmallhof) by replacing the following in
ce_parse.cpp:
\verbatim
#else /* not GNU C. */
#if (!defined (__STDC__) && defined (sparc)) || defined (__sparc__) \
|| defined (__sparc) || defined (__sgi)
#include --static
I got:
\verbatim
Undefined first referenced
symbol in file
dlclose /usr/lib/libc.a(nss_deffinder.o)
dlsym /usr/lib/libc.a(nss_deffinder.o)
dlopen /usr/lib/libc.a(nss_deffinder.o)
\endverbatim
Manually adding -Bdynamic
after the target rule in
Makefile.doxygen
and Makefile.doxytag
will fix this:
\verbatim
$(TARGET): $(OBJECTS) $(OBJMOC)
$(LINK) $(LFLAGS) -o $(TARGET) $(OBJECTS) $(OBJMOC) $(LIBS) -Bdynamic
\endverbatim
GCC compiler problems
Older versions of the GNU compiler have problems with constant strings
containing characters with character codes larger than 127. Therefore
the compiler will fail to compile some of the translator_xx.h files.
A workaround, if you are planning to use the English translation only,
is to configure doxygen with the --english-only
option.
On some platforms (such as OpenBSD) using some versions of gcc with
-O2 can lead to eating all memory during the compilation of files
such as config.cpp. As a workaround use --debug as a configure option
or omit the -O2 for the particular files in the Makefile.
Gcc versions before 2.95 may produce broken binaries due to bugs in
these compilers.
Dot problems
Due to a change in the way image maps are generated, older versions
of doxygen (\<=1.2.17) will not work correctly with newer versions of
graphviz (\>=1.8.8). The effect of this incompatibility is that
generated graphs in HTML are not properly clickable. For doxygen 1.3
it is recommended to use at least graphviz 1.8.10 or higher.
For doxygen 1.4.7 or higher it is recommended to
use GraphViz 2.8 or higher to avoid font issues.
Red Hat 9.0 problems
If you get the following error after running make
\verbatim
tmake error: qtools.pro:70: Syntax error
\endverbatim
then first type
\verbatim
export LANG=
\endverbatim
before running make.
\section install_src_windows Compiling from source on Windows
From version 1.5.0 onwards, build files are provided for Visual Studio 2005.
Also the free (as in beer) "Express" version of Developer Studio can be used to
compile doxygen. Alternatively, you can compile doxygen
\ref install_src_unix "the Unix way" using
Cygwin
or MinGW.
Before you can compile doxygen you need to download and install the C++ compiler of
Visual Studio. Since Microsoft apparently wants to lure everyone into using their
.NET stuff, they made things somewhat difficult when you use the Express version.
You need to
do some manual steps in order to setup a proper working environment for building
native win32 applications such as Doxygen.
The next step is to install unxutils (see http://sourceforge.net/projects/unxutils).
This packages contains the tools \c flex and \c bison which are needed during the
compilation process if you use a CVS snapshot of doxygen (the official source releases
come with pre-generated sources).
Download the zip extract it to e.g. c:\\tools\\unxutils
.
Now you need to add/adjust the following environment variables
(via Control Panel/System/Advanced/Environment Variables):
- add c:\\tools\\unxutils\\usr\\local\\wbin;
to the start of PATH
- set BISON_SIMPLE
to c:\\tools\\unxutils\\usr\\share\\bison.simple
Download doxygen's source tarball and put it somewhere (e.g use c:\\tools
)
Now start a new command shell and type
\verbatim
cd c:\tools
gunzip doxygen-x.y.z.src.tar.gz
tar xvf doxygen-x.y.z.src.tar
\endverbatim
to unpack the sources.
Now your environment is setup to build \c doxygen and \c doxytag.
Inside the \c doxygen-x.y.z directory you will find a \c winbuild directory
containing a \c Doxygen.sln file. Open this file in Visual Studio.
You can now build the Release or Debug flavor of Doxygen and Doxytag by right-clicking
the project in the solutions explorer, and selecting Build.
Note that compiling Doxywizard currently requires Qt version 3
(see http://www.trolltech.com/products/qt/qt3).
If you do not have a commercial license, you can build Doxywizard with the open
source version (see http://qtwin.sourceforge.net/qt3-win32/compile-msvc-2005.php),
but I have not tried this myself.
Also read the next section for additional tools you may need to install to run
doxygen with certain features enabled.
\section install_bin_windows Installing the binaries on Windows
Doxygen comes as a self-installing archive, so installation is extremely simple.
Just follow the dialogs.
After installation it is recommended to also download and install GraphViz
(version 2.8 or better is highly recommended). Doxygen can use the \c dot tool
of the GraphViz package to render nicer diagrams, see the
\ref cfg_have_dot "HAVE_DOT" option in the configuration file.
If you want to produce compressed HTML files (see \ref
cfg_generate_htmlhelp "GENERATE_HTMLHELP") in the config file, then
you need the Microsoft HTML help workshop.
You can download it from
Microsoft.
In order to generate PDF output or use scientific formulas you will also need to
install LaTeX and
Ghostscript.
For LaTeX a number of distributions exists. Popular onces that should work with
doxygen are MikTex
and XemTex.
Ghostscript can be downloaded
from Sourceforge.
After installing LaTeX and Ghostscript you'll need to make sure the tools
latex.exe, pdflatex.exe, and gswin32c.exe are present in the search path of a
command box. Follow these
instructions if you are unsure and run the commands from a command box to verify it works.
\section build_tools Tools used to develop doxygen
Doxygen was developed and tested under Linux & MacOSX using the following
open-source tools: