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openmpi/HACKING
William Bailey caf1d9292c Changed the final URL to https://github.com/westes/flex
Signed-off-by: William Bailey <wbailey2@nd.edu>
2019-10-27 22:33:50 -04:00

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Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
University Research and Technology
Corporation. All rights reserved.
Copyright (c) 2004-2005 The University of Tennessee and The University
of Tennessee Research Foundation. All rights
reserved.
Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
University of Stuttgart. All rights reserved.
Copyright (c) 2004-2005 The Regents of the University of California.
All rights reserved.
Copyright (c) 2008-2016 Cisco Systems, Inc. All rights reserved.
Copyright (c) 2013 Intel, Inc. All rights reserved.
$COPYRIGHT$
Additional copyrights may follow
$HEADER$
Overview
========
This file is here for those who are building/exploring OMPI in its
source code form, most likely through a developer's tree (i.e., a
Git clone).
Developer Builds: Compiler Pickyness by Default
===============================================
If you are building Open MPI from a Git clone (i.e., there is a ".git"
directory in your build tree), the default build includes extra
compiler pickyness, which will result in more compiler warnings than
in non-developer builds. Getting these extra compiler warnings is
helpful to Open MPI developers in making the code base as clean as
possible.
Developers can disable this picky-by-default behavior by using the
--disable-picky configure option. Also note that extra-picky compiles
do *not* happen automatically when you do a VPATH build (e.g., if
".git" is in your source tree, but not in your build tree).
Prior versions of Open MPI would automatically activate a lot of
(performance-reducing) debugging code by default if ".git" was found
in your build tree. This is no longer true. You can manually enable
these (performance-reducing) debugging features in the Open MPI code
base with these configure options:
--enable-debug
--enable-mem-debug
--enable-mem-profile
NOTE: These options are really only relevant to those who are
developing Open MPI itself. They are not generally helpful for
debugging general MPI applications.
Use of GNU Autoconf, Automake, and Libtool (and m4)
===================================================
You need to read/care about this section *ONLY* if you are building
from a developer's tree (i.e., a Git clone of the Open MPI source
tree). If you have an Open MPI distribution tarball, the contents of
this section are optional -- you can (and probably should) skip
reading this section.
If you are building Open MPI from a developer's tree, you must first
install fairly recent versions of the GNU tools Autoconf, Automake,
and Libtool (and possibly GNU m4, because recent versions of Autoconf
have specific GNU m4 version requirements). The specific versions
required depend on if you are using the Git master branch or a release
branch (and which release branch you are using). The specific
versions can be found here:
http://www.open-mpi.org/source/building.php
You can check what versions of the autotools you have installed with
the following:
shell$ m4 --version
shell$ autoconf --version
shell$ automake --version
shell$ libtoolize --version
Required version levels for all the OMPI releases can be found here:
http://www.open-mpi.org/source/building.php
To strengthen the above point: the core Open MPI developers typically
use very, very recent versions of the GNU tools. There are known bugs
in older versions of the GNU tools that Open MPI no longer compensates
for (it seemed senseless to indefinitely support patches for ancient
versions of Autoconf, for example). You *WILL* have problems if you
do not use recent versions of the GNU tools.
If you need newer versions, you are *strongly* encouraged to heed the
following advice:
NOTE: On MacOS/X, the default "libtool" program is different than the
GNU libtool. You must download and install the GNU version
(e.g., via MacPorts, Homebrew, or some other mechanism).
1. Unless your OS distribution has easy-to-use binary installations,
the sources can be can be downloaded from:
ftp://ftp.gnu.org/gnu/autoconf/
ftp://ftp.gnu.org/gnu/automake/
ftp://ftp.gnu.org/gnu/libtool/
and if you need it:
ftp://ftp.gnu.org/gnu/m4/
NOTE: It is certainly easiest to download/build/install all four of
these tools together. But note that Open MPI has no specific m4
requirements; it is only listed here because Autoconf requires
minimum versions of GNU m4. Hence, you may or may not *need* to
actually install a new version of GNU m4. That being said, if you
are confused or don't know, just install the latest GNU m4 with the
rest of the GNU Autotools and everything will work out fine.
2. Build and install the tools in the following order:
2a. m4
2b. Autoconf
2c. Automake
2d. Libtool
3. You MUST install the last three tools (Autoconf, Automake, Libtool)
into the same prefix directory. These three tools are somewhat
inter-related, and if they're going to be used together, they MUST
share a common installation prefix.
You can install m4 anywhere as long as it can be found in the path;
it may be convenient to install it in the same prefix as the other
three. Or you can use any recent-enough m4 that is in your path.
3a. It is *strongly* encouraged that you do not install your new
versions over the OS-installed versions. This could cause
other things on your system to break. Instead, install into
$HOME/local, or /usr/local, or wherever else you tend to
install "local" kinds of software.
3b. In doing so, be sure to prefix your $path with the directory
where they are installed. For example, if you install into
$HOME/local, you may want to edit your shell startup file
(.bashrc, .cshrc, .tcshrc, etc.) to have something like:
# For bash/sh:
export PATH=$HOME/local/bin:$PATH
# For csh/tcsh:
set path = ($HOME/local/bin $path)
3c. Ensure to set your $path *BEFORE* you configure/build/install
the four packages.
4. All four packages require two simple commands to build and
install (where PREFIX is the prefix discussed in 3, above).
shell$ cd <m4 directory>
shell$ ./configure --prefix=PREFIX
shell$ make; make install
--> If you are using the csh or tcsh shells, be sure to run the
"rehash" command after you install each package.
shell$ cd <autoconf directory>
shell$ ./configure --prefix=PREFIX
shell$ make; make install
--> If you are using the csh or tcsh shells, be sure to run the
"rehash" command after you install each package.
shell$ cd <automake directory>
shell$ ./configure --prefix=PREFIX
shell$ make; make install
--> If you are using the csh or tcsh shells, be sure to run the
"rehash" command after you install each package.
shell$ cd <libtool directory>
shell$ ./configure --prefix=PREFIX
shell$ make; make install
--> If you are using the csh or tcsh shells, be sure to run the
"rehash" command after you install each package.
m4, Autoconf and Automake build and install very quickly; Libtool will
take a minute or two.
5. You can now run OMPI's top-level "autogen.pl" script. This script
will invoke the GNU Autoconf, Automake, and Libtool commands in the
proper order and setup to run OMPI's top-level "configure" script.
Running autogen.pl may take a few minutes, depending on your
system. It's not very exciting to watch. :-)
If you have a multi-processor system, enabling the multi-threaded
behavior in Automake 1.11 (or newer) can result in autogen.pl
running faster. Do this by setting the AUTOMAKE_JOBS environment
variable to the number of processors (threads) that you want it to
use before invoking autogen.pl. For example (you can again put
this in your shell startup files):
# For bash/sh:
export AUTOMAKE_JOBS=4
# For csh/tcsh:
set AUTOMAKE_JOBS 4
5a. You generally need to run autogen.pl whenever the top-level
file "configure.ac" changes, or any files in the config/ or
<project>/config/ directories change (these directories are
where a lot of "include" files for OMPI's configure script
live).
5b. You do *NOT* need to re-run autogen.pl if you modify a
Makefile.am.
Use of Flex
===========
Flex is used during the compilation of a developer's checkout (it is
not used to build official distribution tarballs). Other flavors of
lex are *not* supported: given the choice of making parsing code
portable between all flavors of lex and doing more interesting work on
Open MPI, we greatly prefer the latter.
Note that no testing has been performed to see what the minimum
version of Flex is required by Open MPI. We suggest that you use
v2.5.35 at the earliest.
*** NOTE: Windows developer builds of Open MPI *require* Flex version
2.5.35. Specifically, we know that v2.5.35 works and 2.5.4a does not.
We have not tested to figure out exactly what the minimum required
flex version is on Windows; we suggest that you use 2.5.35 at the
earliest. It is for this reason that the
contrib/dist/make_dist_tarball script checks for a Windows-friendly
version of flex before continuing.
For now, Open MPI will allow developer builds with Flex 2.5.4. This
is primarily motivated by the fact that RedHat/Centos 5 ships with
Flex 2.5.4. It is likely that someday Open MPI developer builds will
require Flex version >=2.5.35.
Note that the flex-generated code generates some compiler warnings on
some platforms, but the warnings do not seem to be consistent or
uniform on all platforms, compilers, and flex versions. As such, we
have done little to try to remove those warnings.
If you do not have Flex installed, it can be downloaded from the
following URL:
https://github.com/westes/flex