%global _empty_manifest_terminate_build 0
Name:		python-arnica
Version:	1.13.1
Release:	1
Summary:	All Recurrent No-brainers In Cerfacs Applications
License:	MIT License
URL:		https://gitlab.com/cerfacs/arnica
Source0:	https://mirrors.aliyun.com/pypi/web/packages/73/d7/a921537e4401591708d3f40833de3c3933e028ff582faf4b5948503a24b5/arnica-1.13.1.tar.gz
BuildArch:	noarch

Requires:	python3-numpy
Requires:	python3-scipy
Requires:	python3-matplotlib
Requires:	python3-h5py
Requires:	python3-PyYAML
Requires:	python3-lxml
Requires:	python3-satis
Requires:	python3-click
Requires:	python3-pandas
Requires:	python3-kokiy
Requires:	python3-showy
Requires:	python3-h5cross
Requires:	python3-pytest
Requires:	python3-pytest-coverage
Requires:	python3-pytest-allclose

%description
# ARNICA or  All Recurrent No-brainers In Cerfacs Applications

 We keep there all the simple little things we regularly need, to ease the pain.

For example a cartesian-to-cylindrical conversion around x-axis, with a specific convention 

```python
def rtheta2yz(rrr, theta):
    """ return yz fror rtheta ,
    theta in  radians measure of ange in the yz plane,
    - range -pi/pi
    - 0 on the y+ axis (z=0, y>0)
    spanning -pi to pi

                        0pi=0deg
                      Y
                      ^
                      |
                      |
    -0.5pi=-90deg     o------>Z   0.5pi=90deg

    """
    yyy = rrr * np.cos(theta)
    zzz = rrr * np.sin(theta)
    return yyy, zzz
```

Ok trivial, but I did mention it was a no-brainer no?
Having these bits in a single repository adds the following values:

- Unitary testing.
- linting.
- Automatic documentation.
- Can be used by others in Cerfacs.

In Arnica, useful features related to Computational Fluid Dynamics (CFD) are implemented, namely:

  1. *CFD related tools* aiming to be used together with the Reactive software suite [AVBP](http://www.cerfacs.fr/avbp7x/).
  2. *CFD related bare functionnalities* such as ParaView-readable XDMF writers from Numpy arrays, axi-symetric shell generators, 2D finite differences solvers, _etc._
  
Contributors are, for the moment, the CERFACS/[COOP Team](http://cerfacs.fr/coop/team/) that can be reached at [coop@cerfacs.fr](coop@cerfacs.fr).

Documentation is available on internal Forge [arnica at Nitrox](http://open-source.pg.cerfacs.fr/arnica) or on [arnica at ReadTheDocs](https://arnica.readthedocs.io/en/latest/).

Source code is hoster on internal Forge [arnica at Nitrox](https://nitrox.cerfacs.fr/open-source/arnica), where all the devops occur.
It is then mirrored at [arnica at gitlab.com/cerfacs](https://gitlab.com/cerfacs/arnica)

If you are willing to contribute, please read carefully the guide in the `CONTRIBUTING.md` file.

# Installation

Arnica can be installed directly in your Python 3 environnement by running the command:

```
pip install arnica
```

This command will install Arnica and all its dependencies (if needed). Once this step is over you can use arnica as a Python module in a script:

```python
import arnica
```

# License

CeCILL-B FREE SOFTWARE LICENSE AGREEMENT


%package -n python3-arnica
Summary:	All Recurrent No-brainers In Cerfacs Applications
Provides:	python-arnica
BuildRequires:	python3-devel
BuildRequires:	python3-setuptools
BuildRequires:	python3-pip
%description -n python3-arnica
# ARNICA or  All Recurrent No-brainers In Cerfacs Applications

 We keep there all the simple little things we regularly need, to ease the pain.

For example a cartesian-to-cylindrical conversion around x-axis, with a specific convention 

```python
def rtheta2yz(rrr, theta):
    """ return yz fror rtheta ,
    theta in  radians measure of ange in the yz plane,
    - range -pi/pi
    - 0 on the y+ axis (z=0, y>0)
    spanning -pi to pi

                        0pi=0deg
                      Y
                      ^
                      |
                      |
    -0.5pi=-90deg     o------>Z   0.5pi=90deg

    """
    yyy = rrr * np.cos(theta)
    zzz = rrr * np.sin(theta)
    return yyy, zzz
```

Ok trivial, but I did mention it was a no-brainer no?
Having these bits in a single repository adds the following values:

- Unitary testing.
- linting.
- Automatic documentation.
- Can be used by others in Cerfacs.

In Arnica, useful features related to Computational Fluid Dynamics (CFD) are implemented, namely:

  1. *CFD related tools* aiming to be used together with the Reactive software suite [AVBP](http://www.cerfacs.fr/avbp7x/).
  2. *CFD related bare functionnalities* such as ParaView-readable XDMF writers from Numpy arrays, axi-symetric shell generators, 2D finite differences solvers, _etc._
  
Contributors are, for the moment, the CERFACS/[COOP Team](http://cerfacs.fr/coop/team/) that can be reached at [coop@cerfacs.fr](coop@cerfacs.fr).

Documentation is available on internal Forge [arnica at Nitrox](http://open-source.pg.cerfacs.fr/arnica) or on [arnica at ReadTheDocs](https://arnica.readthedocs.io/en/latest/).

Source code is hoster on internal Forge [arnica at Nitrox](https://nitrox.cerfacs.fr/open-source/arnica), where all the devops occur.
It is then mirrored at [arnica at gitlab.com/cerfacs](https://gitlab.com/cerfacs/arnica)

If you are willing to contribute, please read carefully the guide in the `CONTRIBUTING.md` file.

# Installation

Arnica can be installed directly in your Python 3 environnement by running the command:

```
pip install arnica
```

This command will install Arnica and all its dependencies (if needed). Once this step is over you can use arnica as a Python module in a script:

```python
import arnica
```

# License

CeCILL-B FREE SOFTWARE LICENSE AGREEMENT


%package help
Summary:	Development documents and examples for arnica
Provides:	python3-arnica-doc
%description help
# ARNICA or  All Recurrent No-brainers In Cerfacs Applications

 We keep there all the simple little things we regularly need, to ease the pain.

For example a cartesian-to-cylindrical conversion around x-axis, with a specific convention 

```python
def rtheta2yz(rrr, theta):
    """ return yz fror rtheta ,
    theta in  radians measure of ange in the yz plane,
    - range -pi/pi
    - 0 on the y+ axis (z=0, y>0)
    spanning -pi to pi

                        0pi=0deg
                      Y
                      ^
                      |
                      |
    -0.5pi=-90deg     o------>Z   0.5pi=90deg

    """
    yyy = rrr * np.cos(theta)
    zzz = rrr * np.sin(theta)
    return yyy, zzz
```

Ok trivial, but I did mention it was a no-brainer no?
Having these bits in a single repository adds the following values:

- Unitary testing.
- linting.
- Automatic documentation.
- Can be used by others in Cerfacs.

In Arnica, useful features related to Computational Fluid Dynamics (CFD) are implemented, namely:

  1. *CFD related tools* aiming to be used together with the Reactive software suite [AVBP](http://www.cerfacs.fr/avbp7x/).
  2. *CFD related bare functionnalities* such as ParaView-readable XDMF writers from Numpy arrays, axi-symetric shell generators, 2D finite differences solvers, _etc._
  
Contributors are, for the moment, the CERFACS/[COOP Team](http://cerfacs.fr/coop/team/) that can be reached at [coop@cerfacs.fr](coop@cerfacs.fr).

Documentation is available on internal Forge [arnica at Nitrox](http://open-source.pg.cerfacs.fr/arnica) or on [arnica at ReadTheDocs](https://arnica.readthedocs.io/en/latest/).

Source code is hoster on internal Forge [arnica at Nitrox](https://nitrox.cerfacs.fr/open-source/arnica), where all the devops occur.
It is then mirrored at [arnica at gitlab.com/cerfacs](https://gitlab.com/cerfacs/arnica)

If you are willing to contribute, please read carefully the guide in the `CONTRIBUTING.md` file.

# Installation

Arnica can be installed directly in your Python 3 environnement by running the command:

```
pip install arnica
```

This command will install Arnica and all its dependencies (if needed). Once this step is over you can use arnica as a Python module in a script:

```python
import arnica
```

# License

CeCILL-B FREE SOFTWARE LICENSE AGREEMENT


%prep
%autosetup -n arnica-1.13.1

%build
%py3_build

%install
%py3_install
install -d -m755 %{buildroot}/%{_pkgdocdir}
if [ -d doc ]; then cp -arf doc %{buildroot}/%{_pkgdocdir}; fi
if [ -d docs ]; then cp -arf docs %{buildroot}/%{_pkgdocdir}; fi
if [ -d example ]; then cp -arf example %{buildroot}/%{_pkgdocdir}; fi
if [ -d examples ]; then cp -arf examples %{buildroot}/%{_pkgdocdir}; fi
pushd %{buildroot}
if [ -d usr/lib ]; then
	find usr/lib -type f -printf "\"/%h/%f\"\n" >> filelist.lst
fi
if [ -d usr/lib64 ]; then
	find usr/lib64 -type f -printf "\"/%h/%f\"\n" >> filelist.lst
fi
if [ -d usr/bin ]; then
	find usr/bin -type f -printf "\"/%h/%f\"\n" >> filelist.lst
fi
if [ -d usr/sbin ]; then
	find usr/sbin -type f -printf "\"/%h/%f\"\n" >> filelist.lst
fi
touch doclist.lst
if [ -d usr/share/man ]; then
	find usr/share/man -type f -printf "\"/%h/%f.gz\"\n" >> doclist.lst
fi
popd
mv %{buildroot}/filelist.lst .
mv %{buildroot}/doclist.lst .

%files -n python3-arnica -f filelist.lst
%dir %{python3_sitelib}/*

%files help -f doclist.lst
%{_docdir}/*

%changelog
* Thu Jun 08 2023 Python_Bot <Python_Bot@openeuler.org> - 1.13.1-1
- Package Spec generated