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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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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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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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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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