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|
Reproducible source for XXXXXXXXXXXXXXXXX
-------------------------------------------------------------------------
Copyright (C) 2018-2020 Mohammad Akhlaghi <mohammad@akhlaghi.org>\
See the end of the file for license conditions.
This is the reproducible project source for the paper titled "**XXX XXXXX
XXXXXX**", by XXXXX XXXXXX, YYYYYY YYYYY and ZZZZZZ ZZZZZ that is published
in XXXXX XXXXX.
To reproduce the results and final paper, the only dependency is a minimal
Unix-based building environment including a C and C++ compiler (already
available on your system if you have ever built and installed a software
from source) and a downloader (Wget or cURL). Note that **Git is not
mandatory**: if you don't have Git to run the first command below, go to
the URL given in the command on your browser, and download the project's
source (there is a button to download a compressed tarball of the
project). If you have received this source from arXiv or Zenodo (without
any `.git` directory inside), please see the "Building project tarball"
section below.
```shell
$ git clone XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
$ cd XXXXXXXXXXXXXXXXXX
$ ./project configure
$ ./project make
```
This paper is made reproducible using Maneage (MANaging data linEAGE). To
learn more about its purpose, principles and technicalities, please see
`README-hacking.md`, or the Maneage webpage at https://maneage.org.
### Building the project
This project was designed to have as few dependencies as possible without
requiring root/administrator permissions.
1. Necessary dependencies:
1.1: Minimal software building tools like C compiler, Make, and other
tools found on any Unix-like operating system (GNU/Linux, BSD, Mac
OS, and others). All necessary dependencies will be built from
source (for use only within this project) by the `./project
configure` script (next step).
1.2: (OPTIONAL) Tarball of dependencies. If they are already present (in
a directory given at configuration time), they will be
used. Otherwise, a downloader (`wget` or `curl`) will be necessary
to download any necessary tarball. The necessary tarballs are also
collected in the archived project on
[https://doi.org/10.5281/zenodo.XXXXXXX](XXXXXXX). Just unpack that
tarball and you should see all the tarballs of this project's
software. When `./project configure` asks for the "software tarball
directory", give the address of the unpacked directory that has all
the tarballs. [[TO AUTHORS: UPLOAD THE SOFTWARE TARBALLS WITH YOUR
DATA AND PROJECT SOURCE TO ZENODO OR OTHER SIMILAR SERVICES. THEN
ADD THE DOI/LINK HERE. DON'T FORGET THAT THE SOFTWARE ARE A
CRITICAL PART OF YOUR WORK'S REPRODUCIBILITY.]]
2. Configure the environment (top-level directories in particular) and
build all the necessary software for use in the next step. It is
recommended to set directories outside the current directory. Please
read the description of each necessary input clearly and set the best
value. Note that the configure script also downloads, builds and locally
installs (only for this project, no root privileges necessary) many
programs (project dependencies). So it may take a while to complete.
```shell
$ ./project configure
```
3. Run the following command to reproduce all the analysis and build the
final `paper.pdf` on `8` threads. If your CPU has a different number of
threads, change the number (you can see the number of threads available
to your operating system by running `./.local/bin/nproc`)
```shell
$ ./project make -j8
```
### Building project tarball (possibly from arXiv)
If the paper is also published on arXiv, it is highly likely that the
authors also uploaded/published the full project there along with the LaTeX
sources. If you have downloaded (or plan to download) this source from
arXiv, some minor extra steps are necessary as listed below. This is
because this tarball is mainly tailored to automatic creation of the final
PDF without using Maneage (only calling LaTeX, not using the './project'
command)!
You can directly run 'latex' on this directory and the paper will be built
with no analysis (all necessary built products are already included in the
tarball). One important feature of the tarball is that it has an extra
`Makefile` to allow easy building of the PDF paper without worring about
the exact LaTeX and bibliography software commands.
#### Only building PDF using tarball (no analysis)
1. If you got the tarball from arXiv and the arXiv code for the paper is
1234.56789, then the downloaded source will be called `1234.56789` (no
suffix). However, it is actually a `.tar.gz` file. So take these steps
to unpack it to see its contents.
```shell
$ arxiv=1234.56789
$ mv $arxiv $arxiv.tar.gz
$ mkdir $arxiv
$ cd $arxiv
$ tar xf ../$arxiv.tar.gz
```
2. No matter how you got the tarball, if you just want to build the PDF
paper, simply run the command below. Note that this won't actually
install any software or do any analysis, it will just use your host
operating system (assuming you already have a LaTeX installation and all
the necessary LaTeX packages) to build the PDF using the already-present
plots data.
```shell
$ make # Build PDF in tarball without doing analysis
```
3. If you want to re-build the figures from scratch, you need to make the
following corrections to the paper's main LaTeX source (`paper.tex`):
uncomment (remove the starting `%`) the line containing
`\newcommand{\makepdf}{}`, see the comments above it for more.
#### Building full project from tarball (custom software and analysis)
As described above, the tarball is mainly geared to only building the final
PDF. A few small tweaks are necessary to build the full project from
scratch (download necessary software and data, build them and run the
analysis and finally create the final paper).
1. If you got the tarball from arXiv, before following the standard
procedure of projects described at the top of the file above (using the
`./project` script), its necessary to set its executable flag because
arXiv removes the executable flag from the files (for its own security).
```shell
$ chmod +x project
```
2. Make the following changes in two of the LaTeX files so LaTeX attempts
to build the figures from scratch (to make the tarball; it was
configured to avoid building the figures, just using the ones that came
with the tarball).
- `paper.tex`: uncomment (remove the starting `%`) of the line
containing `\newcommand{\makepdf}{}`, see the comments above it for
more.
- `tex/src/preamble-pgfplots.tex`: set the `tikzsetexternalprefix`
variable value to `tikz/`, so it looks like this:
`\tikzsetexternalprefix{tikz/}`.
3. Remove extra files. In order to make sure arXiv can build the paper
(resolve conflicts due to different versions of LaTeX packages), it is
sometimes necessary to copy raw LaTeX package files in the tarball
uploaded to arXiv. Later, we will implement a feature to automatically
delete these extra files, but for now, the project's top directory
should only have the following contents (where `reproduce` and `tex` are
directories). You can safely remove any other file/directory.
```shell
$ ls
COPYING paper.tex project README-hacking.md README.md reproduce/ tex/
```
### Building in Docker containers
Docker containers are a common way to build projects in an independent
filesystem, and an almost independent operating system. Containers thus
allow using GNU/Linux operating systems within proprietary operating
systems like macOS or Windows. But without the overhead and huge file size
of virtual machines. Furthermore containers allow easy movement of built
projects from one system to another without rebuilding. Just note that
Docker images are large binary files (+1 Gigabytes) and may not be usable
in the future (for example with new Docker versions not reading old
images). Containers are thus good for temporary/testing phases of a
project, but shouldn't be what you archive! Hence if you want to save and
move your maneaged project within a Docker image, be sure to commit all
your project's source files and push them to your external Git repository
(you can do these within the Docker image as explained below). This way,
you can always recreate the container with future technologies
too. Generally, if you are developing within a container, its good practice
to recreate it from scratch every once in a while, to make sure you haven't
forgot to include parts of your work in your project's version-controlled
source.
#### Dockerfile for a Maneaged project, and building a Docker image
Below is a series of recommendations on the various components of a
`Dockerfile` optimized to store the *built state of a maneaged project* as
a Docker image. Each component is also accompanied with
explanations. Simply copy the code blocks under each item into a plain-text
file called `Dockerfile`, in the same order of the items. Don't forget to
implement the suggested corrections (in particular step 4).
**NOTE: Internet for TeXLive installation:** If you have the project
software tarballs and input data (optional features described below) you
can disable internet. In this situation, the configuration and analysis
will be exactly reproduced, the final LaTeX macros will be created, and all
results will be verified successfully. However, no final `paper.pdf` will
be created to visualize/combine everything in one easy-to-read file. Until
[task 15267](https://savannah.nongnu.org/task/?15267) is complete, we need
internet to install TeXLive packages (using TeXLive's own package manager
`tlmgr`) in the `./project configure` phase. This won't stop the
configuration, and it will finish successfully (since all the analysis can
still be reproduced). We are working on completing this task as soon as
possible, but until then, if you want to disable internet *and* you want to
build the final PDF, please disable internet after the configuration
phase. Note that only the necessary TeXLive packages are installed (~350
MB), not the full TeXLive collection!
1. **Choose the base operating system:** The first step is to select the
operating system that will be used in the docker image. Note that your
choice of operating system also determines the commands of the next
step to install core software.
```shell
FROM debian:stable-slim
```
2. **Maneage dependencies:** By default the "slim" versions of the
operating systems don't contain a compiler (needed by Maneage to
compile precise versions of all the tools). You thus need to use the
selected operating system's package manager to import them (below is
the command for Debian). Optionally, if you don't have the project's
software tarballs, and want the project to download them automatically,
you also need a downloader.
```shell
# C and C++ compiler.
RUN apt-get update && apt-get install -y gcc g++
# Uncomment this if you don't have 'software-XXXX.tar.gz' (below).
#RUN apt-get install -y wget
```
3. **Define a user:** Some core software packages will complain if you try
to install them as the default (root) user. Generally, it is also good
practice to avoid being the root user. After building the Docker image,
you can always run it as root with this command: `docker run -u 0 -it
XXXXXXX` (where `XXXXXXX` is the image identifier). Hence with the
commands below we define a `maneager` user and activate it for the next
steps.
```shell
RUN useradd -ms /bin/sh maneager
USER maneager
WORKDIR /home/maneager
```
4. **Copy project files into the container:** these commands make the
following assumptions:
* The project's source is in the `maneaged/` sub-directory and this
directory is in the same directory as the `Dockerfile`. The source
can either be from cloned from Git (highly recommended!) or from a
tarball. Both are described above (note that arXiv's tarball needs to
be corrected as mentioned above).
* (OPTIONAL) By default the project's necessary software source
tarballs will be downloaded when necessary during the `./project
configure` phase. But if you already have the sources, its better to
use them and not waste network traffic (and resulting carbon
footprint!). Maneaged projects usually come with a
`software-XXXX.tar.gz` file that is published on Zenodo (link above).
If you have this file, put it in the same directory as your
`Dockerfile` and include the relevant lines below.
* (OPTIONAL) The project's input data. The `INPUT-FILES` depends on the
project, please look into the project's
`reproduce/analysis/config/INPUTS.conf` for the URLs and the file
names of input data. Similar to the software source files mentioned
above, if you don't have them, the project will attempt to download
its necessary data automatically in the `./project make` phase.
```shell
# Make the project's build directory and copy the project source
RUN mkdir build
COPY --chown=maneager:maneager ./maneaged /home/maneager/source
# Optional (for software)
COPY --chown=maneager:maneager ./software-XXXX.tar.gz /home/maneager/
RUN tar xf software-XXXX.tar.gz && mv software-XXXX software && rm software-XXXX.tar.gz
# Optional (for data)
RUN mkdir data
COPY --chown=maneager:maneager ./INPUT-FILES /home/maneager/data
```
5. **Configure the project:** With this line, the Docker image will
configure the project (build all its necessary software). This will
usually take about an hour on an 8-core system. You can also optionally
avoid putting this step (and the next) in the `Dockerfile` and simply
execute them in the Docker image in interactive mode (as explained in
the sub-section below, in this case don't forget to preserve the build
container after you are done).
```shell
# Configure project (build full software environment).
RUN cd /home/maneager/source \
&& ./project configure --build-dir=/home/maneager/build \
--software-dir=/home/maneager/software \
--input-dir=/home/maneager/data
```
6. **Project's analysis:** With this line, the Docker image will do the
project's analysis and produce the final `paper.pdf`. The time it takes
for this step to finish, and the storage/memory requirements highly
depend on the particular project.
```shell
# Run the project's analysis
RUN cd /home/maneager/source && ./project make
```
7. **Build the Docker image:** The `Dockerfile` is now ready! In the
terminal, go to its directory and run the command below to build the
Docker image. We recommend to keep the `Dockerfile` in **an empty
directory** and run it from inside that directory too. This is because
Docker considers that directories contents to be part of the
environment. Finally, just set a `NAME` for your project and note that
Docker only runs as root.
```shell
sudo su
docker build -t NAME ./
```
#### Interactive tests on built container
If you later want to start a container with the built image and enter it in
interactive mode (for example for temporary tests), please run the
following command. Just replace `NAME` with the same name you specified
when building the project. You can always exit the container with the
`exit` command (note that all your changes will be discarded once you exit,
see below if you want to preserve your changes after you exit).
```shell
docker run -it NAME
```
#### Running your own project's shell for same analysis environment
The default operating system only has minimal features: not having many of
the tools you are accustomed to in your daily command-line operations. But
your maneaged project has a very complete (for the project!) environment
which is fully built and ready to use interactively with the commands
below. For example the project also builds Git within itself, as well as
many other high-level tools that are used in your project and aren't
present in the container's operating system.
```shell
# Once you are in the docker container
cd source
./project shell
```
#### Preserving the state of a built container
All interactive changes in a container will be deleted as soon as you exit
it. THIS IS A VERY GOOD FEATURE IN GENERAL! If you want to make persistent
changes, you should do it in the project's plain-text source and commit
them into your project's online Git repository. As described in the Docker
introduction above, we strongly recommend to **not rely on a built container
for archival purposes**.
But for temporary tests it is sometimes good to preserve the state of an
interactive container. To do this, you need to `commit` the container (and
thus save it as a Docker "image"). To do this, while the container is still
running, open another terminal and run these commands:
```shell
# These two commands should be done in another terminal
docker container list
# Get 'XXXXXXX' of your desired container from the first column above.
# Give the new image a name by replacing 'NEW-IMAGE-NAME'.
docker commit XXXXXXX NEW-IMAGE-NAME
```
#### Copying files from the Docker image to host operating system
The Docker environment's file system is completely indepenent of your host
operating system. One easy way to copy files to and from an open container
is to use the `docker cp` command (very similar to the shell's `cp`
command).
```shell
docker cp CONTAINER:/file/path/within/container /host/path/target
```
### Copyright information
This file and `.file-metadata` (a binary file, used by Metastore to store
file dates when doing Git checkouts) are part of the reproducible project
mentioned above and share the same copyright notice (at the start of this
file) and license notice (below).
This project is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
This project is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along
with this project. If not, see <https://www.gnu.org/licenses/>.
|