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Until this commit, FFTW was installed by default, without the single
precission option. However, when installing `sextractor' in a new system
we found an error in the installation complaining about not having
single precission files of FFTW. More explicity the error was: "FFTW
single precision library files not found in [...]".
With this commit, we fix this problem by passing the option
`--enable-single' in the installation of FFTW.
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The BibTeX data for `sip_tpv' didn't have a copyright notice, so one was
added for it.
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There wasn't any conflict in this merge.
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Until now, we were not citing the paper of `sip_tpv' package.
With this commit, we have been fix this issue.
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With this commit, we let the Python package `sip_tpv' to be optional in
order to not install it by default. It is a very specific package and I
forgot to remove it from `TARGETS.mk' in the previous commit.
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With this commit, we add `sip_tpv' Python package into the template.
This is a small package to convert SIP distorsion coefficients into PV
distorsion coefficients, and the other way around.
This package is useful in a astronomical context, specially when `swarp'
is going to be used in order to resample images. The reason is that
`swarp' only can understand PV distorsion coefficients.
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With this commit, we add `sympy' Python package into the template. This
is a package to do symbolic mathematics.
The motivation is that it is a prerequisite of `sip_tpv' Python package,
which is useful to convert SIP distorsion coefficients into PV
coefficients (in the context of astronomical images). However, the
availability of `sympy' in the template will be useful for anyone
interested in this package.
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With this commit, we add `mpmath' Python package into the template. This
package is a prerequisite of `sympy', a package to do symbolic
mathematics.
The motivation of adding this package is because it is a dependency of
`sympy', which is more widely used into the Python science community.
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Until now we were using the official tarball of GNU Bash. However, Bash is
distributed using patches, not a public version controlled history. So to
implement newer features of Bash, its necessary to apply those patches and
make the tarball ourselves.
With this commit, we have done just that: we used the 7 patches that have
been released since version 5.0.0 and made a tarball to use for this
template. The instructions on how to make the patched tarball are also
given above the Bash build rule.
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Until now, `metastore' did not depend on the necessaries programs that
we use to install it (`awk', `coreutils' and `sed'). They are not
official dependencies of `metastore', but we need them to install it.
With this commit, we put these programs as prerequisites of `metastore'
in order to be able to install it without any problem.
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Until now, to specify which high-level software you want the project to
contain, it was necessary to go into the `high-level.mk' Makefile that is
complicated and can create bugs.
With this commit, a new `reproduce/software/config/installation/TARGETS.mk'
file has been created that is easily/cleanly in charge of documenting the
final high-level software that must be built for the project.
Also, until now, FFTW was set as a dependency of Numpy while we couldn't
actually get Numpy to use it! It was just there for future reference and to
justify its build rule. But now that many software won't be built and there
is no problem with having rules even though a project might not use them,
it has been removed.
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Git and Metastore are very basic and fundamental tools for the template, so
to keep things clean (let the `high-level.mk' software only represent
optional software in the template), these two software (and their
dependencies: `cURL' and `Libbsd') will now be built in `basic.mk'.
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With this commit, Raul's work on the installation of several astronomy
software is implemented in the main template.
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Until this commit, ATLAS was a prerequisite of Scamp. The documentation
says that. However, we have been able to install Scamp without having
ATLAS installed. As a consecuence, ATLAS does not have to be a
prerequisite of Scamp anymore.
With this commit, we remove ATLAS as prerequisite of Scamp. We also put
available software in the template as optional because not all people
are going to use these software.
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With this commit, we add SCAMP into the project. This program is part of
the Astromatic software and the main purpose is to make the fine
astrometry and the distorsion correction astronomical images.
In principle, SCAMP needs ATLAS library to be able to work (that is what
the documentation says). However, we had some problems with ATLAS
libraries on Mac OS system, and due to that, we set the option
`--enable-openblas' in the configure step. By doing that, we are be able
to install SCAMP with no problems.
One dependency of SCAMP is `cdsclient', it has been also added with this
commit. The `cdsclient' package is a set of C and shell routines which can
be built on Unix stations or PCs running Linux, which once compiled
allow to query some databases located at CDS or on mirrors over the
network.
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With this commit, we add SExtractor to be installed into the project. It
is a widely used program to detect object and build catalogues from
astronomical images.
We had some problems when installing it because it could not link with
some ATLAS libraries. But, since we have OpenBLAS installed, we can use
it to override the problem with ATLAS.
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Until now, there were erros in the citation of Astrometry-net and Scamp
papers.
With this commit, we fix these problems. The Swarp bibtex has also been
modify to follow the stetic of the citation style we have right now in
the project.
We also added the `dependency-bib.tex' as a prerequisite of `paper.bbl'.
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SWarp resamples and co-adds together FITS images using any arbitrary
astrometric projection defined in the WCS standard. It is a very useful
program for astronomy and that is why we added it to the pipeline.
With this commit, we also cite the paper for Astrometry-net that until
now was missing.
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Until this commit, we didn't install Binutils. However, we need `strip'
for installing Netpbm, and `strip' is part of the Binutil software.
With this commit, we include Binutils as a dependency of GCC for
GNU/Linux systems. For Mac OS systems we create a symbolic link to
`strip' just after the generation of the symbolic link to `gcc'.
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Due to the copy/paste of rules from other files, in some rules there
were some spaces insteand of tab. There were also a lack of semicolon in
the building of CC, and bad extensions in various tarballs.
With this commit, all of these typos have been fixed.
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With this commit, we include Astrometry-net software and one remaining
dependency of it (Swig). In principle it should work as far as we tested
all of this software in GNU/Linux, but we need to test also in Mac OS.
As a result, this commit is just for setting all the rules and
dependencies, but more tests are necessaries to ensure it works
properly, specially in Mac OS systems.
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With this commit, the installation of `netpbm' has been included. This
software has a crazy dialogue installation that we override by giving to
it the answers (they differs on GNU/Linux and Mac OS systems). `libxml2'
also has been built (a remaining dependency of `netpbm').
In this commit, `libpng' version has been downgraded because it is
required by `netpbm'.
The motivation of installing `netpbm' is that it is a dependency of
Astrometry-net software.
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Until now, we did not have CC. This is an obsolete way of calling C
Compiler, nowadays it is GCC. However, there could be some software
that is still using this convention (for example, `netpbm').
With this commit, we make the symbolic link `cc' pointing to the
installed `gcc'.
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In this commit we add Cairo library. The motivation of including this
library is because it is a dependency of Astrometry-net (which is a
common software used in astronomy projects). In principle it will not
be build by default by de pipeline, but we will keep the rule just in
case it is needed.
Pixman is another library which is a prerequisite of Cairo, it is also
built with this commit.
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Until this commit, we were using `python3' when calling Python (because
we were using Python version 3.6.8). This will force us to change the
name in the future. For example, when `python4' were available and into
the pipeline.
With this commit, at the end of the Python installation it creates a
symbolic link to the Python bin executable with the new name `python'.
As a consecuence, whatever version of Python was installed, into the
project we will use allways `python' to invoke it.
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In two places, I had mistakenly put a <'> instead of a <`>, causing bad
highlighting in the markdown rendering. They have been corrected.
Also, one long line in was broken up into several.
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Until now, the customization checklist of `README-hacking.md' had the same
name for the base template's remote and branch. This was confusing and
would cause Git to print a warning.
With this commit, like before, the template's remote is now called
`template-origin', and `template' is only the branch name.
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Until now, the main template branch was called `template'. However, the
standard Git convention is that the main branch of a project be called
`master'. Many systems rely on this default and it is also easier for new
users (who have been accustomed to this convention).
So with this commit, the main template branch is `master', but in
`README-hacking.mk', we instruct the users on how to rename it to
`template' as part of their customization. This is infact better, because
when we are actually developing the template in a separate fork, we can
refer/use the `master' branch like any other project. And when we are
working on a project that uses this template, we will be referring to the
main template branch as `template'.
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Until now, the software building and analysis steps of the pipeline were
intertwined. However, these steps (of how to build a software, and how to
use it) are logically completely independent.
Therefore with this commit, the pipeline now has a new architecture
(particularly in the `reproduce' directory) to emphasize this distinction:
The `reproduce' directory now has the two `software' and `analysis'
subdirectories and the respective parts of the previous architecture have
been broken up between these two based on their function. There is also no
more `src' directory. The `config' directory for software and analysis is
now mixed with the language-specific directories.
Also, some of the software versions were also updated after some checks
with their webpages.
This new architecture will allow much more focused work on each part of the
pipeline (to install the software and to run them for an analysis).
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All occurances of "pipeline" have been chanaged to "project" or "template"
withint the text (comments, READMEs, and comments) of the template. The
main template branch is now also named `template'.
This was all because `pipeline' is too generic and couldn't be
distinguished from the base, and customized project.
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Since `.file-metadata' is a binary file, we can't include a copyright
inside of it so we have to use `README.md' to mention its copyright and
license notice. However, this was not done clearly and is now corrected.
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Until now we weren't including the citation for FFTW (one of the template's
optional packages). With this commit, it is added.
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Until now, the files where the people were meant to change didn't have a
proper copyright notice (for example `Copyright (C) YOUR NAME.'). This was
wrong because the license does not convey copyright ownership. So the name
of the file's original author must always be included and when people
modify it (and add their own copyright-able modifications).
With this commit, the file's original author (and email) are added to the
copyright notice and when more than one person modified a file, both names
have their individual copyright notice.
Based on this, the description for adding a copyright notice in
`README-hacking.md' has also been modified.
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Until now, even though `file' was a dependency of `gcc', it was still
listed as a `top-level-programs'. Also, we weren't including the new
`tex/dependencies' in the distribution tarball (with `make dist').
With this commit, both issues are solved and also, as a cosmetic change,
the GCC prerequisites of the same line-length were ordered alphabetically.
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Until now, there was a single `tex/src/references.tex' file that housed the
BibTex entries for everything (software and non-software).
Since we have started to include the BibTeX entry for more software, it
will be hard to manage the large (sometime unused) BibTeX entries of the
software in the middle of the non-software related citations in the text of
the paper.
Therefore, with this commit, a `tex/dependencies' directory has been made
which has a separate BibTeX entry file for each software that needs
one. After the software is built, this file is copied to the new
`.local/version-info/cite' directory. At the end, the configure script will
concatenate all the files in this directory into one file which will later
be used with `tex/src/references.tex' by BibLaTeX.
This greatly simplifies managing of citations. Allowing us to focus on the
software-building and paper-writing citations separately/cleanly (and thus
be more efficient in both).
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Some recent corrections that were done by Raul are now merged into the
pipeline. There weren't any conflicts.
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Until now, we did not have `file'. It was in other project, where a
problem with `Astrometry-net' software, ends up with the necessity of
having `file' into the pipeline.
With this commit, we add `file' to the project. Since it is a low level
program, it is set in `dependencies-basic.mk' as a prerequisite of GCC.
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Until now, the Scipy citation was only one paper and not the correct one
(it was the online manual).
With this commit, Scipy is properly cited using the two papers. Also
some modifications in the `tex/src/references.tex' have been done
(remove last page number).
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Until now, name and version of all Python packages were indicated in the
final paper, but not the main paper of them (if it exists).
With this commit, some Python packages (Cython, Matplotlib, Numpy and
Scipy) are now properly acknoledged by citating the source paper.
`mpi4py' is also cited although this package is not yet included into
the pipeline.
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With this commit, we are applying the new style of citing software within
the build rule of Gnuastro.
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Until now, we hadn't actually tested the case where a whole software
directory (Python modules in particular) is empty. So the configure script
finished with some errors in this case.
With this commit, this step of the configure script was modified to deal
with such cases cleanly.
Also, in `initialize.mk', I added a `-f' to the symbolic link command, so
it doesn't complain if the file link already exists.
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Since `.file-metadata' is a binary file and we couldn't put a copyright
notice within it, it has been mentioned in `README.md' to have the same
copyright.
Also, the copyright modification step in `README-hacking.md' was brought to
a later step to be more clear that it should always be done (on new files
or files that are changed).
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Since we mixed the installation of Python packages with all other
software, it may occur that some Python packages start to be installed
before having installed `unzip'. As a consecuence, they could not be
decompressed and the installation will fail. In particular, tarballs of
Numpy and Setuptools are .zip files.
With this commit, we fix this issue by setting `unzip' as a prerequisit
of Numpy and Setuptools.
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There weren't any conflicts in this merge. However, while, trying to break
a long line into multiple (for better readability), I noticed that the AWK
version was mistakenly written as `awk-version' in a few cases, so this was
corrected to `gawk-version'.
While inspecting the libraries that AWK links to, I noticed that it also
links to GNU GMP and GNU MPFR. But since they are built after AWK usually,
it was using my host system! So with this commit, AWK has these two
libraries as prerequisites. As a result, these two libraries were brought
up to the basic program section, and not just GCC prerequisites.
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Until this commit, we were using the target (version number of the
program) in the `patchelf' for `awk' and `bash'. This makes an incorrect
linking in libraries because the target is not the bin program but just
a plain text containing the version number of the program.
With this commit we fix this issue by setting in the patchelf of `awk'
and `bash' the bin executable, and not the target (version number).
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Until now, the `for-group' script could only two options to Make and didn't
pass anything to `./configure'. With this commit, any thing given after the
first two tokens to `for-group' is passed directly to `./configure' or
Make.
Also, the test for the existance of the group has been modified to avoid
making a temporary file.
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Yahya Sefidbakht reported the following error when building Pkg-config on
his Mac OS system (using GCC, not Clang). It is apparently because his
version of GCC doesn't support some speical feature on Mac that is
necessary to build Glib as part of Pkg-config.
With this commit, on Mac systems, for pkg-config we are explicity asking to
build with Clang (through the `CC' flag).
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In order to get a consistent final result, in its later steps, the
configure script uses our own build of the basic command-line tools (like
`cat', `awk').
Also, a correction was made to the short option parsing errors when an
unwanted argument is given, and the `-?*' was changed to `-'?'*' to avoid
un-necessary shell interpretation (for example giving unreasonable
results).
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On some systems, M4 isn't available, so the linking to the host system
fails, as a result, we can't build GNU Libtool.
The main reason we weren't building M4 was a bug with the most recent GNU C
library
(http://lists.gnu.org/archive/html/bug-gnulib/2019-04/msg00004.html). But I
found a patch used by Arch Linux which fixes the issue and allows M4 to be
built. As a result, the pipeline is now building M4 also and the patched M4
tarball is now uploaded to my own webpage as backup.
While doing the steps above, I also noticed that we weren't using a tab at
the start of the link definitions of `dependencies-basic.mk'. Although its
not necessary, to be consistent, its good for the lines to always start
with a tab.
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The step where we check the possibility of using `sys/cdefs.h' was still
using `$$' for shell variables (in Make), not `$' (for the shell). This was
corrected.
Also, since Astropy needs two citations, the `,' in the citation command
would conflict with Make's parsing. So we just used an `echo' command to
re-write the version info.
In Astroquery, the prerequisite list was just reordered by length to be
more clear to the eye.
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