1.5. Troubleshooting¶
On a fresh Linux or Mac machine, the instructions given in the “Download and Install” guides should result in a working installation of HORTON, without using any of the suggestions below. In reality, however, the Unix system of an average researcher isn’t pristine but rahter ranges from cleverly customized to completely borked. Such customizations may interfere with the installation of HORTON. This section provides some guidance for the novice Unix user on how to get HORTON working on a not-so-well-maintained Unix system.
If you are still stuck after trying the suggestions in this section, do not hesitate to contact us on the the HORTON mailing list.
1.5.1. Introduction¶
Let us assume you have already built and installed all your dependencies. However, when you try to install HORTON, i.e.
./setup.py install --user
or when you run nosetests
, you get an unexpected error message. The problem
is most likely related to finding and using the dependencies. You have to make
sure setup.py
and the HORTON modules can find the right dependencies and are
able to use them. We have seen problems with three types of dependencies: Python
modules, executables, and libraries.
1.5.2. Python modules¶
If you have installed a python package (e.g. NumPy, SciPy, Cython, H5Py,
SymPy, MatPlotLib, Nosetests, Sphinx, Breathe, Docutils) and you get an error
saying your system cannot find that package, then you need to check the
directories in which Python searches for package. These are stored
in the attribute path
of the sys
module, which can be accessed by:
python -c "import sys; import pprint; pprint.pprint(sys.path)"
A typical output can be as follows (but is probably different in your case):
['',
'/usr/lib64/python27.zip',
'/usr/lib64/python2.7',
'/usr/lib64/python2.7/plat-linux2',
'/usr/lib64/python2.7/lib-tk',
'/usr/lib64/python2.7/lib-old',
'/usr/lib64/python2.7/lib-dynload',
'/home/foo/.local/lib/python2.7/site-packages',
'/usr/lib64/python2.7/site-packages',
'/usr/lib64/python2.7/site-packages/gtk-2.0',
'/usr/lib/python2.7/site-packages']
If you installed a Python package in another directory, Python will not be able
to load it. This can be fixed by adding your directory to the PYTHONPATH
variable in your ${HOME}/.bashrc
(Linux) or ${HOME}/.bash_profile
(Mac),
e.g.
export PYTHONPATH=/some/custom/path/lib/python2.7/site-packages:${PYTHONPATH}
The next time you start Python (or any program implemented in with Python), the
packages you installed in a non-standard location will become importable. If the
same Python module or package is installed in multiple directories, the one
found in the first directory in the sys.path
list takes precedence.
A typical problem is that there are multiple lines like these in .bashrc
or
.bash_profile
of which the last is overwriting the former ones, e.g.:
export PYTHONPATH=/some/custom/path/lib/python2.7/site-packages:${PYTHONPATH}
# and several lines further ...
export PYTHONPATH=/some/other/path/lib/python2.7/site-packages
The second export
line overrides the first one because it does not end with
:${PYTHONPATH}
.
Some examples are given below. Note that, in principle, none of these should be necessary but they seem to have helped people with a broken installation of Python:
Some Mac users needed to set the
PYTHONPATH
after installing modules through PIP:export PYTHONPATH=${HOME}/Library/Python/2.7/lib/python/site-packages:${PYTHONPATH}
or their system site-packages:
export PYTHONPATH=/Library/Python/2.7/lib/python/site-packages:${PYTHONPATH}
Similarly, a few Linux users needed to set
PYTHONPATH
after installation through PIP:export PYTHONPATH=${HOME}/.local/lib/python2.7/site-packages:${PYTHONPATH}
or
export PYTHONPATH=/lib/python2.7/site-packages:${PYTHONPATH}
or
export PYTHONPATH=/lib64/python2.7/site-packages
1.5.3. Excecutables¶
During the installation (or when building the documentation) HORTON will use
some executables, e.g. a compiler, sphinx-build
, etc. These executables must
be in one of the directories in the PATH
environment variable. The essential
changes to the PATH
variable were already discussed in the “Download and
install” guides but if your system is somehow broken, more changes may be
needed.
The contents of PATH
can be accessed by:
echo $PATH
In unfavorable circumstances, some directories may be missing from the PATH
,
e.g because it got carelessly overwritten in ${HOME}/.bashrc
(Linux) or
${HOME}/.bash_profile
(Mac). For example, the following should be avoided:
export PATH=/some/custom/path/bin
Instead, make sure the existing PATH
variable is included as follows:
export PATH=/some/custom/path/bin:${PATH}
If the same executable name occurs in several directories in the PATH
, the
one in the first directory takes precedence.
The following examples are in principle not needed but they seemed to be helpful for some:
Mac users that uses python scripts might do
# Already mentioned in "Download and install" guide: export PATH=${HOME}/Library/Python/2.7/bin:${PATH} # Should already be in the PATH anyway, unless your system is broken: export PATH=/Library/Python/2.7/bin:${PATH}
Similarly, Linux users may do
# Already mentioned in "Download and install" guide: export PATH=${HOME}/.local/bin:${PATH} # Should already be in the PATH anyway, unless your system is broken: export PATH=/usr/bin:${PATH}
When you forgot where you installed a dependency, the find
command may help
you find the appropriate directory. The following example will search for
location of the sphinx-build
executable:
find / | grep sphinx-build
1.5.4. Libraries¶
You need to make sure setup.py
can find the necessary libraries. You should
consult Controlling dynamic/static linking against LibXC, LibInt2 and BLAS for a more complete understanding of the library
linking process when installing HORTON. Here, we will show how we solved some
library problems we encountered before.
First, you need to locate the library that can not be found by setup.py
. You
can locate libraries in standard directories by using the unix command
ldconfig
:
ldconfig -p | grep libraryname
ldconfig -p
prints all cached libraries, and piping to grep
searches through
the results for the library with the libraryname
. This only works when a
library is installed in a standard location and the library cache is up-to-date.
If you can not find it with ldconfig
, you may try to used the find
command, e.g.:
find / | grep libraryname
Here is an example that searches for the Atlas libraries on a cluster:
ldconfig -p | grep atlas
which gives
libptf77blas.so.3 (libc6,x86-64) => /usr/lib64/atlas/libptf77blas.so.3
libptf77blas.so (libc6,x86-64) => /usr/lib64/atlas/libptf77blas.so
libptcblas.so.3 (libc6,x86-64) => /usr/lib64/atlas/libptcblas.so.3
libptcblas.so (libc6,x86-64) => /usr/lib64/atlas/libptcblas.so
liblapack.so.3 (libc6,x86-64) => /usr/lib64/atlas/liblapack.so.3
liblapack.so (libc6,x86-64) => /usr/lib64/atlas/liblapack.so
libf77blas.so.3 (libc6,x86-64) => /usr/lib64/atlas/libf77blas.so.3
libf77blas.so (libc6,x86-64) => /usr/lib64/atlas/libf77blas.so
libclapack.so.3 (libc6,x86-64) => /usr/lib64/atlas/libclapack.so.3
libclapack.so (libc6,x86-64) => /usr/lib64/atlas/libclapack.so
libcblas.so.3 (libc6,x86-64) => /usr/lib64/atlas/libcblas.so.3
libcblas.so (libc6,x86-64) => /usr/lib64/atlas/libcblas.so
libatlas.so.3 (libc6,x86-64) => /usr/lib64/atlas/libatlas.so.3
libatlas.so (libc6,x86-64) => /usr/lib64/atlas/libatlas.so
All the libraries are located in /usr/lib64/atlas/
. Notice that all the
libraries use the x86-64 instruction set.
Next, we need to find the include directory. You can find this with the find
command function. Usually, the include directory is almost same as the library
directory, except instead of the lib
or lib64
, it reads include
.
Continuing the above example,
ls -d /usr/include/*atlas*
will give the list of directories that includes the word atlas
. The output
gives:
/usr/include/atlas
/usr/include/atlas-x86_64-base
Since we used the x86-64 instruction set, we select the directory that would
correspond with that instruction set, i.e. /usr/include/atlas-x86_64-base
.
(This should not matter too much as header files are normally indepedent of the
architecture.)
In the above list of libraries associated with atlas, we have ptf77blas
,
ptcblas
, lapack
, f77blas
, clapack
, cblas
, and atlas
.
Though we can include all these libraries, HORTON only uses atlas
and
cblas
. Therefore, the resulting setup.cfg
file includes
[blas]
library_dirs=/usr/lib64/atlas
libraries=atlas:cblas
include_dirs=/usr/include/atlas-x86_64-base
Similarly, we can repeat the process for the LibXC and Libint2, where the
libraries that are needed are only libxc
and libint
, respectively. See
Controlling dynamic/static linking against LibXC, LibInt2 and BLAS for more details.