On some Windows machines, you might get the message “The program can’t start because api-ms-win-crt-runtime-l1-1-0.dll is missing from your computer”. You then have to install the Visual C++ Redistributable for Visual Studio 2015. See for example the discussion at stackoverflow.
Before installing the Visual C++ Redistributable, install all Windows updates. Then download and install the Visual C++ Redistributable from Microsoft.
When Mantid is installed on the system, BornAgain might conflict with its libraries if the path to Mantid is specified in the
PYTHONPATH environment variables. This conflict can occur while running any of the BornAgain Python examples or just during the import of BornAgain into Python, with an error message similar to:
$ python -c "import bornagain" Incompatible library version: libBornAgainCore.so requires version 18.0.0 or later, but libgsl.0.dylib provides version 16.0.0
Make sure that the path to the Mantid folders is not defined in your
PYTHONPATH variables by running the commands
echo $DYLD_LIBRARY_PATH and
echo $PYTHONPATH. If this is the case, unset the given variables to prevent the MacOS loader from loading Mantid
$ unset DYLD_LIBRARY_PATH; unset $PYTHONPATH
This should resolve the issue.
To see which libraries get loaded by the MacOS loader during the import of BornAgain, use
$ export DYLD_PRINT_LIBRARIES=1 $ python -c "import bornagain"
To accelerate the build process,
cmake maintains a cache. The downside is that this cache can cause false positives (erroneous error reports) and false negatives (
cmake overlooking missing dependencies). Unless
cmake has been run for the first the time in a fresh build directory, troubleshooting should start by removing the cache
$ rm CMakeCache.txt
cmake anew. If that does not help, then empty the build directory completely, and run
cmake yet again.
Next, carefully read the error message, which will have the following form:
CMake Error at [cmake module]:[line number] (message): [specific error message] Call Stack (most recent call first): [cmake module]:[line] ([command]) ... -- Configuring incomplete, errors occurred! See also "[build_dir]/CMakeFiles/CMakeOutput.log". See also "[build_dir]/CMakeFiles/CMakeError.log".
The most frequent error is a missing dependence because a third party library not installed on the system, or not found by
If you require our support, then please rerun
cmake in an empty build directory and provide a full copy of its output, most easily generated by output redirection
$ cmake [<options>] <source_dir> >& my_cmake.log
Besides the so obtained my_cmake.log also send us three other log files produced by
cmake in the build directory:
CMakeCache.txt CMakeFiles/CMakeOutput.log CMakeFiles/CMakeError.log
On some Linux systems
cmake configuration might fail while trying to locate Qt5 libraries with an error message similar to
-- Configuring BornAgain GUI CMake Error at GUI/CMakeLists.txt:18 (find_package): By not providing "FindQt5Designer.cmake" in CMAKE_MODULE_PATH this project has asked CMake to find a package configuration file provided by "Qt5Designer", but CMake did not find one.
The error message can also complain about “Qt5Widgets” instead of “Qt5Designer”.
First, make sure that all Qt5 libraries are installed as required in the installation section.
If this is the case, a first possible cause for this to happen, is that
cmake cannot find the cmake config files for the required Qt5 modules, because it doesn’t know the location. This can be fixed by adding the path to the Qt5 binaries to the
PATH environment variable:
# Adding Qt5 binary path to PATH environment variable $ export PATH=/<Qt5InstallDir>/Qt/<QtVersion>/gcc_64/bin:$PATH
Another cause is a miss-configuration in Qt5 as provided by your Linux’s package manager. For example, Ubuntu 14.04.1 LTS is known to have this problem. The solution will be to install Qt5 via the online installer, as explained in our Qt5 alternative installation instruction FIXME.
If this still doesn’t work, please send us an email with your
cmake configuration log and your distro name.
In the case of a complex system setup, with libraries of different versions scattered across multiple places,
cmake might fail in identifying the correct paths to the libraries or include directories. This might lead at some point to a compilation failure. This might happen, for example, during the compilation of the
BornAgain graphical user interface if the system has both Qt4 and Qt5 libraries installed. Please send us the build log generated by running the following make command
$ make VERBOSE=1 >& my_build.log
BornAgaininstalled on the system. Make sure the
PYTHONPATHvariables do not contain the older installation location and run
ctest fails, then rerun it without the multi-core option
-j[N]. This yields clearer, sorted output, and allows to rule out errors due to thread-safety violations.
Error messages from
ctest have the form
The following tests FAILED: 53 - CoreSuite/HexParaCrystal (Failed) 123 - PySuite/HexParaCrystal (Failed) For details, see the log files in Testing/Temporary/ More info at http://www.bornagainproject.org/documentation/troubleshooting#ctest Errors while running CTest
To analyse these errors one by one, it is convenient to run
ctest on a single test:
$ ctest -R PySuite/HexParaCrystal
Then analyse the output in
Testing/Temporary/LastTest.log. Alternatively, set the environment variable
CTEST_OUTPUT_ON_FAILURE=1 to get full terminal output from the failed tests. Yet another alternative would be to run the test binary directly from
When reporting errors to us, please run just the plain
ctest without options
-R, and submit
“Fatal Python error: PyThreadState_Get: no current thread”
This error shows up when a Python module tries to use a Python library that is different than the one the interpreter uses. This might happen if the user’s system contains several Python installations.
For example, BornAgain was compiled against
/usr/lib64/libpython2.7.so and then used by mistake with a Python interpreter from another installation. This interpreter might depend on his own version of
libpython2.7.so located, for example, at
/usr/local. Importing of the bornagain module into this interpreter will cause the loading of two different
libpython2.7.so libraries: one will be loaded by the bornagain module, the other will be loaded by the interpreter itself. This will cause the given fatal Python error. Make sure you are running the correct Python interpreter and that your
DYLD_LIBRARY_PATH doesn’t contain the old BornAgain installation.