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New and improved steps to install PRESTO!

td;dr for experienced PRESTO builders:

With v5, we have switched to building and installing with meson.

MacOS users should see the comments at the bottom of this file!

If you are interested in using Docker or Singularity containers of PRESTO, see the bottom of this file!

As always, there are a set of essential packages required to build PRESTO. This command should do it on a Debian/Ubuntu-like system: apt install git build-essential libfftw3-bin libfftw3-dev pgplot5 libglib2.0-dev libcfitsio-bin libcfitsio-dev libpng-dev latex2html gfortran tcsh autoconf libx11-dev python3-dev python3-numpy python3-pip

Make sure that your PRESTO environment variable points to the top-level PRESTO git checkout. And make sure that $PRESTO/lib and $PRESTO/bin are not in your PATH or LD_LIBRARY_PATH or PYTHONPATH environment variables as we have required in the past. It is probably a good idea to clean your earlier compiles, as well. Just cd into the src directory and do a make cleaner, and then come back here.

From your activated Python virtual or Conda environment, make sure that you have meson, meson-python, ninja, and a recent pip installed (also Python >=3.8):

pip install meson meson-python ninja or conda install meson meson-python ninja

and

pip install --upgrade pip.

Now setup the C/Fortran code builds:

cd $PRESTO

meson setup build --prefix=$CONDA_PREFIX if you use Conda/Mamba/Anaconda

or

meson setup build --prefix=$VIRTUAL_ENV if you use a Python virtual environment

or

meson setup build --prefix=$HOME if you want things installed in your $HOME/bin, $HOME/lib directories.

or, if you have sudo permissions and want to install to /usr/local (or equivalent system directory):

meson setup build.

Note that if you don't want to set --prefix on the command line, you can also edit the top-level meson.build file and add e.g. 'prefix=/home/sransom' to the default_options variable in the project definition.

In order to avoid the possible issues with linking and running, I recommend doing:

python check_meson_build.py.

If all looks good, it will let you know. If not, I recommend trying to fix the issues that it caught, and then starting again.

Now do the actual build and install via:

meson compile -C build
meson install -C build

You will see a lot of compiler warnings due to my crappy C-coding (I should fix those...), but that's OK. There should be logs in case anything goes wrong in $PRESTO/build/meson-logs. You should be able to run prepfold (for example), at this time and see the usage information. If that doesn't work, see the troubleshooting information below.

Then finally, install the Python codes and bindings via pip:

cd $PRESTO/python
pip install .

And that should do it! You can quickly test to see if most things are working by doing:

cd $PRESTO
python tests/test_presto_python.py
python examplescripts/ffdot_example.py
python python/fftfit_src/test_fftfit.py

Another good test is to see if you can run and fit the default profile in pygaussfit.py

If you want to run makewisdom for slightly faster FFT calls, it is located in $PRESTO/build/src. Just run it from there, and then copy or move the resulting fftw_wisdom.txt file to $PRESTO/lib.

Note that you can uninstall everything via:

cd $PRESTO/build
ninja uninstall
pip uninstall presto

Some quick troubleshooting info for the new meson build process:

  • If you get an error when trying to run one of the compiled executables (like prepfold) about shared libraries (e.g. prepfold: error while loading shared libraries: libpresto.so: cannot open shared object file: No such file or directory) you will need to add the install location of libpresto.so to your LD_LIBRARY_PATH environment variable.
    • Note: You can find the install location by doing: grep libpresto $PRESTO/build/meson-logs/install-log.txt
  • If you get an error when running pip install ... for the Python codes saying ../meson.build:29:15: ERROR: C shared or static library 'presto' not found, you will need to do something similar to the above and add the install location of libpresto.so to LIBRARY_PATH (note that that is not LD_LIBRARY_PATH! The former is for runtime linking and the latter is for linking at compile time. Note that you might need to use DYLD_LIBRARY_PATH on macOS!)

Detailed install and build instructions:

(Note: For MacOS users, please see the bottom of the document!)

  1. Install FFTW3

    I highly recommend that you use pre-compiled packages for your OS/distribution! For example, Ubuntu has good FFTW packages: libfftw3-bin and libfftw3-dev.

    If you compile your own, you need to compile FFTW for single precision. For all architectures I recommend the following configuration: ./configure --enable-shared --enable-single

    If you are on a modern Intel processor and have a recent version of GCC, you can get much improved performance by adding: --enable-sse --enable-sse2 --enable-avx --enable-avx2 --enable-fma

  2. Install PGPLOT

    I highly recommend that you use pre-compiled packages for your OS/distribution! For example, Ubuntu has a good PGPLOT package: pgplot5. You will likely need to set the PGPLOT_DIR environment variable. On Ubuntu, I have PGPLOT_DIR=/usr/lib/pgplot5

    If you want to try to compile your own (good luck!), you need the X-windows and postscript drivers at a minimum.

  3. Install TEMPO

    Make sure to set the TEMPO environment variable so that it points to the top level of the TEMPO code base.

  4. Install GLIBv2

    On Linux machines this is almost certainly already on your system (check in /usr/lib and /usr/include/glib*). Although you may need to install a glib development package in order to have the required include files. On Ubuntu, the package you need is: libglib2.0-dev

  5. Install CFITSIO

    I highly recommend using pre-compiled packages, once again (on Ubuntu they are libcfitsio-bin and libcfitsio-dev), however, this is a very easy install via source.

  6. Set the PRESTO environment variable

    It should be set to the top level directory of the PRESTO distribution (i.e. this directory). And make sure that $PRESTO/lib and $PRESTO/bin are not in your PATH or LD_LIBRARY_PATH or PYTHONPATH environment variables as we have required in the past.

  7. Activate your Python virtual environment or Conda/Mamba/Anaconda environment

    • That environment should have numpy installed at a minimum
    • Make sure that pip is recent (pip install --upgrade pip)
    • Install the build tools: pip install meson meson-python ninja or conda install meson meson-python ninja
  8. Configure the meson build

    In the top level PRESTO directory (i.e. cd $PRESTO), configure meson via:

    meson setup build --prefix=$CONDA_PREFIX if you use Conda/Mamba/Anaconda

    or

    meson setup build --prefix=$VIRTUAL_ENV if you use a Python virtual environment

    or

    meson setup build --prefix=$HOME if you want things installed in your $HOME/bin, $HOME/lib directories.

    or, if you have sudo permissions and want to install to /usr/local (or equivalent):

    meson setup build.

  9. Check your environment variables against the configuration

    python check_meson_build.py

    If everything looks good, it will tell you. Otherwise, try fixing the issues and starting over from step #8.

  10. Build and install all the C/Fortran codes and the PRESTO shared library (e.g. libpresto.so)

    meson compile -C build

    meson install -C build

    There should be logs in case anything goes wrong in $PRESTO/build/meson-logs. Note that all PRESTO compiled binaries will be installed in {prefix}/{bindir}, and the PRESTO shared library (likely either libpresto.so or libpreso.dylib) will be installed in {prefix}/{libdir} as defined by meson. You can see the values of {prefix}, {bindir}, and {libdir} using the check_meson_build.py script from the previous step.

  11. Try running a PRESTO command like prepfold

    You should get the regular usage screen. If you get a shared library error, see the troubleshooting steps above or below.

  12. Compile and install the PRESTO python codes and libraries

    cd $PRESTO/python

    pip install .

    If you get a shared library error, see the troubleshooting steps above or below.

  13. Run some basic tests

    cd $PRESTO

    python tests/test_presto_python.py

    python examplescripts/ffdot_example.py

    python python/fftfit_src/test_fftfit.py

    Another good test is to see if you can run and fit the default profile in pygaussfit.py

  14. Run makewisdom to have (slightly) fast FFTs

    Just run $PRESTO/build/src/makewisdom. It takes about 10-20 min to run, so be patient. Note that the fftw_wisdom.txt file will be located in $PRESTO/build/src, so you will need to move it to $PRESTO/lib so that PRESTO can find it.

  15. Go find pulsars!

    Everything should be ready to go now, and installed (likely) in the same place as the rest of your Python virtual environment and/or Conda/Mamba/Anaconda environment.

    If you want to uninstall everything you can do:

    cd $PRESTO/build

    ninja uninstall

    pip uninstall presto

Scott Ransom Updated May 2024, for v5.0.X


TROUBLESHOOTING


Couple quick trouble-shooting tips if you are having problems compiling and running:

  1. Environment variables! Use python check_meson_build.py!

    • Is PRESTO set to the top-level PRESTO source directory?
    • Is TEMPO set to the top-level TEMPO source directory?
    • Is PGPLOT_DIR set to the location of the PGPLOT utility files? (Note: On Ubuntu, that should be /usr/lib/pgplot5)
    • Is $PRESTO/bin in your PATH? (It should not be!)
    • Is $PRESTO/lib in your LD_LIBRARY_PATH? (It should not be!)
    • Is there any presto stuff in your PYTHONPATH? (There should not be!)
  2. Have you have installed the relevant -dev packages for glib2, FFTW and CFITSIO if you are using a Debian-based Linux distribution? Here are the required packages on a clean Ubuntu:

    • git
    • build-essential
    • libfftw3-bin
    • libfftw3-dev
    • pgplot5
    • libglib2.0-dev
    • libcfitsio-bin
    • libcfitsio-dev
    • libpng-dev
    • latex2html
    • gfortran
    • tcsh
    • autoconf
    • libx11-dev
    • python3-dev
    • python3-numpy
    • python3-pip

    And the following command should get all of them: apt install git build-essential libfftw3-bin libfftw3-dev pgplot5 libglib2.0-dev libcfitsio-bin libcfitsio-dev libpng-dev latex2html gfortran tcsh autoconf libx11-dev python3-dev python3-numpy python3-pip

  3. After the Python modules are built and installed, and you run python tests/test_presto_python.py, if you get a memory error, please contact Scott! I think that these issues are fixed, but if they are not, we will need to change the build process a tiny bit with a special variable define.

  4. If you are having trouble with PRESTO creating polycos, you can use prepfold with the -debug option when folding using -timing. That will show you the TEMPO call and keep all of the (usually) temporary output files.

  5. If the python build or install is failing, it can be useful to save and inspect the build directory via pip install --config-settings=builddir=build ..

For MacOS Users


If you are using MacOS, Paul Ray has been running PRESTO a lot and knows several tricks to get it working:

  • PRESTO should build almost "out of the box" on a Mac, once you have the external packages installed and after setting a few environment variables.

  • For MacPorts, which has worked well, this should install all the important packages. This assumes you use Python 3.11 and gcc13. You may use different versions.:

    % sudo port install mp-gcc13 python311 py311-ipython pip311 virtualenv311 virtualenvwrapper311
    % sudo port select --set gcc mp-gcc13
    % sudo port select --set python python311
    % sudo port select --set virtualenv virtualenv311
    % sudo port select --set  virtualenvwrapper virtualenvwrapper311
    % sudo port install pgplot cfitsio glib2 fftw-3 fftw-3-single
    
  • TEMPO should build easily with gfortran. I did not make any changes to the distro.

  • Before you build, you will likely need to set the following environment variables. You probably do not need to have DYLD_LIBRARY_PATH set at runtime.

    # These are needed only at *BUILD* time
    # This points to the MacPorts libraries and those installed in your virtualenv
    export LIBRARY_PATH=/opt/local/lib:/opt/local/lib/libgcc
    # This prevents using the macOS native "cc" command, in favor of the MacPorts gcc
    export CC=gcc
    # This makes sure the MacPorts includes can be found
    export CFLAGS="-I/opt/local/include"
    

For Docker / Singularity Users


Alessandro Ridolfi wrote recipes to create Docker images which you can use and modify in the examplescripts directory.

He made two versions: one without PNG image support (i.e. providing pstoimg via the latex2html package, which is quite large. pstoimg is used by prepfold to make the nice .png versions of the .pfd.ps files) and the other one without the PNG support. The files are:

  • examplescripts/Dockerfile_presto5_png_ubuntu24.04.txt
  • examplescripts/Dockerfile_presto5_ubuntu24.04.txt

He has also made available pre-built Docker and Singularity images which can be grabbed from his DockerHub with the following commands:

  • Docker images:

    docker pull alex88ridolfi/presto5:latest
    docker pull alex88ridolfi/presto5:png
    
  • Apptainer / Singularity images:

    singularity pull docker://alex88ridolfi/presto5:latest
    singularity pull docker://alex88ridolfi/presto5:png
    

These can be used with commands like:

singularity shell -B /path/to/mount:/path/to/mount presto5_latest.sif
singularity shell -B /path/to/mount:/path/to/mount presto5_png.sif

These images could be of help for people who don’t want / cannot install PRESTO by themselves, or for use on HPC systems.

Alessandro is also planning to make images that include PRESTO5+PULSAR_MINER, and PRESTO5+PRESTO_GPU+PULSAR_MINER in the near future.