automatic import of python-pyuvdata

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+/pyuvdata-2.3.2.tar.gz
diff --git a/python-pyuvdata.spec b/python-pyuvdata.spec
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+%global _empty_manifest_terminate_build 0
+Name:		python-pyuvdata
+Version:	2.3.2
+Release:	1
+Summary:	an interface for astronomical interferometeric datasets in python
+License:	BSD
+URL:		https://github.com/RadioAstronomySoftwareGroup/pyuvdata
+Source0:	https://mirrors.nju.edu.cn/pypi/web/packages/d2/b1/284acc6752b9b2f1eadddd469f384a0385610cb78379097b78567215558f/pyuvdata-2.3.2.tar.gz
+
+Requires:	python3-astropy
+Requires:	python3-h5py
+Requires:	python3-numpy
+Requires:	python3-pyerfa
+Requires:	python3-scipy
+Requires:	python3-setuptools-scm
+Requires:	python3-astroquery
+Requires:	python3-casacore
+Requires:	python3-pyyaml
+Requires:	python3-hdf5plugin
+Requires:	python3-astropy-healpix
+Requires:	python3-lunarsky
+Requires:	python3-novas
+Requires:	python3-novas-de405
+Requires:	python3-astroquery
+Requires:	python3-casacore
+Requires:	python3-pyyaml
+Requires:	python3-astroquery
+Requires:	python3-casacore
+Requires:	python3-pyyaml
+Requires:	python3-hdf5plugin
+Requires:	python3-astropy-healpix
+Requires:	python3-lunarsky
+Requires:	python3-novas
+Requires:	python3-novas-de405
+Requires:	python3-pytest
+Requires:	python3-pytest-xdist
+Requires:	python3-pytest-cases
+Requires:	python3-pytest-cov
+Requires:	python3-cython
+Requires:	python3-coverage
+Requires:	python3-pre-commit
+Requires:	python3-sphinx
+Requires:	python3-pypandoc
+Requires:	python3-sphinx
+Requires:	python3-pypandoc
+Requires:	python3-hdf5plugin
+Requires:	python3-astropy-healpix
+Requires:	python3-lunarsky
+Requires:	python3-novas
+Requires:	python3-novas-de405
+Requires:	python3-astroquery
+Requires:	python3-casacore
+Requires:	python3-pyyaml
+Requires:	python3-hdf5plugin
+Requires:	python3-astropy-healpix
+Requires:	python3-lunarsky
+Requires:	python3-novas
+Requires:	python3-novas-de405
+Requires:	python3-pytest
+Requires:	python3-pytest-xdist
+Requires:	python3-pytest-cases
+Requires:	python3-pytest-cov
+Requires:	python3-cython
+Requires:	python3-coverage
+Requires:	python3-pre-commit
+
+%description
+# pyuvdata
+
+[![CircleCI](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata.svg?style=svg&branch=main)](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata?branch=main)
+[![](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/workflows/Run%20Tests/badge.svg?branch=main)](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/actions)
+[![codecov](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata/badge.svg?branch=main)](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata)
+[![DOI](http://joss.theoj.org/papers/10.21105/joss.00140/status.svg)](https://doi.org/10.21105/joss.00140)
+
+pyuvdata defines a pythonic interface to interferometric data sets.
+Currently pyuvdata supports reading and writing of miriad, uvfits, CASA measurement sets
+and uvh5 files and reading of FHD
+([Fast Holographic Deconvolution](https://github.com/EoRImaging/FHD)) visibility save files, SMA Mir files and MWA correlator FITS files.
+
+API documentation and a tutorial is hosted on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+# Motivation
+The main goals are:
+
+1. To provide a high quality, well documented path to convert between data formats
+2. Support the direct use of datasets from python with minimal software
+3. Provide precise data definition via both human readable code and high quality online documentation
+
+# Package Details
+pyuvdata has four major user classes:
+
+* UVData: supports interferometric data (visibilities) and associated metadata
+* UVCal: supports interferometric calibration solutions (antenna-based) and
+associated metadata (Note that this is a fairly new object, consider it to be a beta version)
+* UVBeam: supports primary beams (E-field or power) and associated metadata
+(Note that this is a fairly new object, consider it to be a beta version)
+* UVFlag: A class to handle the manipulation and combination of flags for data sets.
+Also can convert raw data quality metrics into flags using thresholding.
+(This object is very new and experimental. Consider it to be a beta version)
+
+## UVData File standard notes
+* miriad has been thoroughly tested with aipy-style miriad files and minimally
+tested with ATCA files
+* uvfits conforms to AIPS memo 117 (as of March 2020).  It is tested against
+FHD, CASA, and AIPS. However AIPS is limited to <80 antennas and CASA uvfits
+import does not seem to support >255 antennas. Users with data sets containing > 255
+antennas should use the measurement set writer instead.
+* CASA measurement sets, primarily conforming to [CASA Memo 229](https://casa.nrao.edu/Memos/229.html), with some elements taken from the proposed v3.0 format documented in [CASA Memo 264](https://casacore.github.io/casacore-notes/264.html). Measurement sets are tested against
+VLA and MWA data sets, (the latter filled via cotter), with some manual verification
+haven been performed against ALMA and SMA data sets, the latter filled using the `importuvfits` task of CASA.
+tested against ALMA-filled datasets and with SMA datasets
+* uvh5 is an HDF5-based file format defined by the HERA collaboration,
+details in the [uvh5 memo](docs/references/uvh5_memo.pdf). Note that this is a
+somewhat new format, so it may evolve a bit
+but we will strive to make future versions backwards compatible with the current format.
+It is probably not compatible with other interferometric HDF5 files defined by other groups.
+* FHD (read-only support, tested against MWA and PAPER data)
+* MIR (read-only support, though experimental write functions are available, tested against SMA data)
+* MWA correlator FITS files (read-only support, tested against Cotter outputs and FHD)
+
+## UVCal file formats
+* calfits: a new format defined in pyuvdata, details in the [calfits_memo](docs/references/calfits_memo.pdf).
+Note that this format was recently defined and may change in coming versions,
+based on user needs. Consider it to be a beta version, but we will strive to
+make future versions backwards compatible with the current format.
+* FHD calibration files (read-only support)
+
+## UVBeam file formats
+* regularly gridded fits for both E-field and power beams
+* non-standard HEALPix fits for both E-field and power beams (in an ImageHDU
+rather than a binary table to support frequency, polarization and E-field vector axes)
+* read support for CST beam text files, with a defined yaml file format for
+metadata, details here: [cst settings file](docs/cst_settings_yaml.rst)
+
+## Under Development
+* UVCal: object and calfits file format (beta version)
+* UVBeam: object and beamfits file format (beta version)
+* UVFlag: object and HDF5 file format. (beta version)
+* Mir: object (part of UVData class) (beta version)
+* MirParser: object and python interface for MIR file format (beta version)
+
+## Known Issues and Planned Improvements
+* UVBeam: support phased-array antenna beams (e.g. MWA beams).
+* UVFlag: Adding requires a high level knowledge of individual objects. (see [issue #653](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues/653))
+
+For details see the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues).
+
+## Community Guidelines
+Contributions to this package to add new file formats or address any of the
+issues in the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues)
+are very welcome, as are bug reports and feature requests.
+Please see our [guide on contributing](.github/CONTRIBUTING.md)
+
+# Telescopes
+pyuvdata has been used with data from the following telescopes. If you use it on
+data from a telescope we don't have listed here please let us know how it went
+via an issue! We would like to make pyuvdata generally useful to the community for
+as many telescopes as possible.
+
+* MWA
+* HERA
+* PAPER
+* LWA
+* ALMA
+* VLA
+* ATCA
+* SMA
+
+# Versioning
+We use a `generation.major.minor` version number format. We use the `generation`
+number for very significant improvements or major rewrites, the `major` number
+to indicate substantial package changes (intended to be released every 3-4 months)
+and the `minor` number to release smaller incremental updates (intended to be
+released approximately monthly and which usually do not include breaking API
+changes). We do our best to provide a significant period (usually 2 major
+generations) of deprecation warnings for all breaking changes to the API.
+We track all changes in our [changelog](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/blob/main/CHANGELOG.md).
+
+# History
+pyuvdata was originally developed in the low frequency 21cm community to support
+the development of and interchange of data between calibration and foreground
+subtraction pipelines. Particular focus has been paid to supporting drift and
+phased array modes.
+
+# Citation
+Please cite pyuvdata by citing our JOSS paper:
+
+Hazelton et al, (2017), pyuvdata: an interface for astronomical interferometeric
+datasets in python, Journal of Open Source Software, 2(10), 140, doi:10.21105/joss.00140
+
+[ADS Link](https://ui.adsabs.harvard.edu/abs/2017JOSS....2..140H);
+[Bibtex entry](http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=2017JOSS....2..140H&data_type=BIBTEX&db_key=GEN&nocookieset=1)
+
+# Installation
+Simple installation via conda is available for users, developers should follow
+the directions under [Developer Installation](#developer-installation) below.
+
+For simple installation, the latest stable version is available via conda
+(preferred: ```conda install -c conda-forge pyuvdata```) or pip (```pip install pyuvdata```).
+
+There are some optional dependencies that are required for specific functionality,
+which will not be installed automatically by conda or pip.
+See [Dependencies](#dependencies) for details on installing optional dependencies.
+
+Note that as of v2.2, `pyuvdata` is only supported on python 3.7+.
+
+## Dependencies
+
+Required:
+
+* astropy >= 5.0.4
+* h5py >= 3.1
+* numpy >= 1.20
+* pyerfa >= 2.0
+* scipy >= 1.5
+* setuptools_scm <7.0|>=7.0.3
+
+Optional:
+
+* astropy-healpix >= 0.6 (for working with beams in HEALPix formats)
+* astroquery >= 0.4.4 (for enabling phasing to ephemeris objects using JPL-Horizons)
+* hdf5plugin >= 3.1.0 (for enabling bitshuffle and other hdf5 compression filters in uvh5 files)
+* lunarsky >=0.2.1 (for working with simulated datasets for lunar telescopes)
+* novas and novas_de405 (for using the NOVAS library for astrometry)
+* python-casacore >= 3.3.1 (for working with CASA measurement sets)
+* pyyaml >= 5.1 (for working with settings files for CST beam files)
+
+
+The numpy and astropy versions are important, so make sure these are up to date.
+
+We suggest using conda to install all the dependencies. If you want to install
+python-casacore and astropy-healpix, you'll need to add conda-forge as a channel
+(```conda config --add channels conda-forge```).
+
+If you do not want to use conda, the packages are also available on PyPI
+(python-casacore may require more effort, see details for that package below).
+You can install the optional dependencies via pip by specifying an option
+when you install pyuvdata, as in ```pip install pyuvdata[healpix]```
+which will install all the required packages for using the HEALPix functionality
+in pyuvdata. The options that can be passed in this way are:
+[`astroquery`, `casa`, `cst`, `hdf5_compression`, `healpix`, `lunar`, `novas`, `all`, `test`,
+`doc`, `dev`]. The first set (`astroquery`, `casa`, `cst`, `hdf5_compression`,
+`healpix`, `lunar`, `novas`) enable various specific functionality while `all` will install all
+optional dependencies. The last three (`test`, `doc`, `dev`) may be useful for developers
+of pyuvdata.
+
+### Installing python-casacore
+python-casacore requires the casacore c++ libraries. It can be installed easily
+using conda (```python-casacore``` on conda-forge).
+
+If you do not want to use conda, the casacore c++ libraries are available for
+ubuntu through the [kern suite](http://kernsuite.info/). On OSX, casacore is
+available through the [ska-sa brew tap](https://github.com/ska-sa/homebrew-tap).
+The python-casacore library (with manual install instructions) is available at
+https://github.com/casacore/python-casacore
+
+## Developer Installation
+Clone the repository using
+```git clone https://github.com/RadioAstronomySoftwareGroup/pyuvdata.git```
+
+Navigate into the pyuvdata directory and run `pip install .`
+(note that `python setup.py install` does not work).
+Note that this will attempt to automatically install any missing dependencies.
+If you use anaconda or another package manager you might prefer to first install
+the dependencies as described in [Dependencies](#dependencies).
+
+To install without dependencies, run `pip install --no-deps .`
+
+To compile the binary extension modules such that you can successfully run
+`import pyuvdata` from the top-level directory of your Git checkout, run:
+```python setup.py build_ext --inplace```
+
+If you want to do development on pyuvdata, in addition to the other dependencies
+you will need the following packages:
+
+* pytest >= 6.2
+* pytest-cases >= 3.6.9
+* pytest-cov
+* cython >=0.23  (This is necessary for coverage reporting of cython extensions)
+* coverage
+* pre-commit
+* sphinx
+* pypandoc
+
+One other package, pytest-xdist, is not required, but can be used to speed up running
+the test suite by running tests in parallel. To use it call pytest with the
+```-n auto``` option.
+
+One way to ensure you have all the needed packages is to use the included
+`environment.yaml` file to create a new environment that will
+contain all the optional dependencies along with dependencies required for
+testing and development (```conda env create -f environment.yaml```).
+Alternatively, you can specify `test`, `doc`, or `dev` when installing pyuvdata
+(as in `pip install pyuvdata[dev]`) to install the packages needed for testing
+(including coverage and linting) and documentation development;
+`dev` includes everything in `test` and `doc`.
+
+To use pre-commit to prevent committing code that does not follow our style, you'll
+need to run `pre-commit install` in the top level `pyuvdata` directory.
+
+## Tests
+Uses the `pytest` package to execute test suite.
+From the source pyuvdata directory run ```pytest``` or ```python -m pytest```.
+
+Testing of `UVFlag` module requires the `pytest-cases` plug-in.
+
+# API
+The primary interface to data from python is via the UVData object. It provides
+import functionality from all supported file formats (UVFITS, Miriad, UVH5, FHD,
+CASA measurement sets, SMA Mir, MWA correlator FITS) and export to UVFITS, Miriad,
+CASA measurement sets and UVH5 formats and can
+be interacted with directly. Similarly, the primary calibration, beam, and flag
+interfaces are via the UVCal, UVBeam, and UVflag objects. The attributes of the UVData,
+UVCal, UVBeam, and UVFlag objects are described in the UVData Parameters, UVCal Parameters,
+UVBeam Parameters and UVFlag Parameters pages on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+
+# Maintainers
+pyuvdata is maintained by the RASG Managers, which currently include:
+
+ - Adam Beardsley (Winona State University)
+ - Bryna Hazelton (University of Washington)
+ - Daniel Jacobs (Arizona State University)
+ - Matt Kolopanis (Arizona State University)
+ - Paul La Plante (University of Nevada, Las Vegas)
+ - Jonathan Pober (Brown University)
+
+Please use the channels discussed in the [guide on contributing](.github/CONTRIBUTING.md)
+for code-related discussions. You can contact us privately if needed at
+[rasgmanagers@gmail.com](mailto:rasgmanagers@gmail.com).
+
+# Acknowledgments
+
+Support for pyuvdata was provided by NSF awards #1835421 and #1835120.
+
+
+%package -n python3-pyuvdata
+Summary:	an interface for astronomical interferometeric datasets in python
+Provides:	python-pyuvdata
+BuildRequires:	python3-devel
+BuildRequires:	python3-setuptools
+BuildRequires:	python3-pip
+BuildRequires:	python3-cffi
+BuildRequires:	gcc
+BuildRequires:	gdb
+%description -n python3-pyuvdata
+# pyuvdata
+
+[![CircleCI](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata.svg?style=svg&branch=main)](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata?branch=main)
+[![](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/workflows/Run%20Tests/badge.svg?branch=main)](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/actions)
+[![codecov](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata/badge.svg?branch=main)](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata)
+[![DOI](http://joss.theoj.org/papers/10.21105/joss.00140/status.svg)](https://doi.org/10.21105/joss.00140)
+
+pyuvdata defines a pythonic interface to interferometric data sets.
+Currently pyuvdata supports reading and writing of miriad, uvfits, CASA measurement sets
+and uvh5 files and reading of FHD
+([Fast Holographic Deconvolution](https://github.com/EoRImaging/FHD)) visibility save files, SMA Mir files and MWA correlator FITS files.
+
+API documentation and a tutorial is hosted on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+# Motivation
+The main goals are:
+
+1. To provide a high quality, well documented path to convert between data formats
+2. Support the direct use of datasets from python with minimal software
+3. Provide precise data definition via both human readable code and high quality online documentation
+
+# Package Details
+pyuvdata has four major user classes:
+
+* UVData: supports interferometric data (visibilities) and associated metadata
+* UVCal: supports interferometric calibration solutions (antenna-based) and
+associated metadata (Note that this is a fairly new object, consider it to be a beta version)
+* UVBeam: supports primary beams (E-field or power) and associated metadata
+(Note that this is a fairly new object, consider it to be a beta version)
+* UVFlag: A class to handle the manipulation and combination of flags for data sets.
+Also can convert raw data quality metrics into flags using thresholding.
+(This object is very new and experimental. Consider it to be a beta version)
+
+## UVData File standard notes
+* miriad has been thoroughly tested with aipy-style miriad files and minimally
+tested with ATCA files
+* uvfits conforms to AIPS memo 117 (as of March 2020).  It is tested against
+FHD, CASA, and AIPS. However AIPS is limited to <80 antennas and CASA uvfits
+import does not seem to support >255 antennas. Users with data sets containing > 255
+antennas should use the measurement set writer instead.
+* CASA measurement sets, primarily conforming to [CASA Memo 229](https://casa.nrao.edu/Memos/229.html), with some elements taken from the proposed v3.0 format documented in [CASA Memo 264](https://casacore.github.io/casacore-notes/264.html). Measurement sets are tested against
+VLA and MWA data sets, (the latter filled via cotter), with some manual verification
+haven been performed against ALMA and SMA data sets, the latter filled using the `importuvfits` task of CASA.
+tested against ALMA-filled datasets and with SMA datasets
+* uvh5 is an HDF5-based file format defined by the HERA collaboration,
+details in the [uvh5 memo](docs/references/uvh5_memo.pdf). Note that this is a
+somewhat new format, so it may evolve a bit
+but we will strive to make future versions backwards compatible with the current format.
+It is probably not compatible with other interferometric HDF5 files defined by other groups.
+* FHD (read-only support, tested against MWA and PAPER data)
+* MIR (read-only support, though experimental write functions are available, tested against SMA data)
+* MWA correlator FITS files (read-only support, tested against Cotter outputs and FHD)
+
+## UVCal file formats
+* calfits: a new format defined in pyuvdata, details in the [calfits_memo](docs/references/calfits_memo.pdf).
+Note that this format was recently defined and may change in coming versions,
+based on user needs. Consider it to be a beta version, but we will strive to
+make future versions backwards compatible with the current format.
+* FHD calibration files (read-only support)
+
+## UVBeam file formats
+* regularly gridded fits for both E-field and power beams
+* non-standard HEALPix fits for both E-field and power beams (in an ImageHDU
+rather than a binary table to support frequency, polarization and E-field vector axes)
+* read support for CST beam text files, with a defined yaml file format for
+metadata, details here: [cst settings file](docs/cst_settings_yaml.rst)
+
+## Under Development
+* UVCal: object and calfits file format (beta version)
+* UVBeam: object and beamfits file format (beta version)
+* UVFlag: object and HDF5 file format. (beta version)
+* Mir: object (part of UVData class) (beta version)
+* MirParser: object and python interface for MIR file format (beta version)
+
+## Known Issues and Planned Improvements
+* UVBeam: support phased-array antenna beams (e.g. MWA beams).
+* UVFlag: Adding requires a high level knowledge of individual objects. (see [issue #653](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues/653))
+
+For details see the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues).
+
+## Community Guidelines
+Contributions to this package to add new file formats or address any of the
+issues in the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues)
+are very welcome, as are bug reports and feature requests.
+Please see our [guide on contributing](.github/CONTRIBUTING.md)
+
+# Telescopes
+pyuvdata has been used with data from the following telescopes. If you use it on
+data from a telescope we don't have listed here please let us know how it went
+via an issue! We would like to make pyuvdata generally useful to the community for
+as many telescopes as possible.
+
+* MWA
+* HERA
+* PAPER
+* LWA
+* ALMA
+* VLA
+* ATCA
+* SMA
+
+# Versioning
+We use a `generation.major.minor` version number format. We use the `generation`
+number for very significant improvements or major rewrites, the `major` number
+to indicate substantial package changes (intended to be released every 3-4 months)
+and the `minor` number to release smaller incremental updates (intended to be
+released approximately monthly and which usually do not include breaking API
+changes). We do our best to provide a significant period (usually 2 major
+generations) of deprecation warnings for all breaking changes to the API.
+We track all changes in our [changelog](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/blob/main/CHANGELOG.md).
+
+# History
+pyuvdata was originally developed in the low frequency 21cm community to support
+the development of and interchange of data between calibration and foreground
+subtraction pipelines. Particular focus has been paid to supporting drift and
+phased array modes.
+
+# Citation
+Please cite pyuvdata by citing our JOSS paper:
+
+Hazelton et al, (2017), pyuvdata: an interface for astronomical interferometeric
+datasets in python, Journal of Open Source Software, 2(10), 140, doi:10.21105/joss.00140
+
+[ADS Link](https://ui.adsabs.harvard.edu/abs/2017JOSS....2..140H);
+[Bibtex entry](http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=2017JOSS....2..140H&data_type=BIBTEX&db_key=GEN&nocookieset=1)
+
+# Installation
+Simple installation via conda is available for users, developers should follow
+the directions under [Developer Installation](#developer-installation) below.
+
+For simple installation, the latest stable version is available via conda
+(preferred: ```conda install -c conda-forge pyuvdata```) or pip (```pip install pyuvdata```).
+
+There are some optional dependencies that are required for specific functionality,
+which will not be installed automatically by conda or pip.
+See [Dependencies](#dependencies) for details on installing optional dependencies.
+
+Note that as of v2.2, `pyuvdata` is only supported on python 3.7+.
+
+## Dependencies
+
+Required:
+
+* astropy >= 5.0.4
+* h5py >= 3.1
+* numpy >= 1.20
+* pyerfa >= 2.0
+* scipy >= 1.5
+* setuptools_scm <7.0|>=7.0.3
+
+Optional:
+
+* astropy-healpix >= 0.6 (for working with beams in HEALPix formats)
+* astroquery >= 0.4.4 (for enabling phasing to ephemeris objects using JPL-Horizons)
+* hdf5plugin >= 3.1.0 (for enabling bitshuffle and other hdf5 compression filters in uvh5 files)
+* lunarsky >=0.2.1 (for working with simulated datasets for lunar telescopes)
+* novas and novas_de405 (for using the NOVAS library for astrometry)
+* python-casacore >= 3.3.1 (for working with CASA measurement sets)
+* pyyaml >= 5.1 (for working with settings files for CST beam files)
+
+
+The numpy and astropy versions are important, so make sure these are up to date.
+
+We suggest using conda to install all the dependencies. If you want to install
+python-casacore and astropy-healpix, you'll need to add conda-forge as a channel
+(```conda config --add channels conda-forge```).
+
+If you do not want to use conda, the packages are also available on PyPI
+(python-casacore may require more effort, see details for that package below).
+You can install the optional dependencies via pip by specifying an option
+when you install pyuvdata, as in ```pip install pyuvdata[healpix]```
+which will install all the required packages for using the HEALPix functionality
+in pyuvdata. The options that can be passed in this way are:
+[`astroquery`, `casa`, `cst`, `hdf5_compression`, `healpix`, `lunar`, `novas`, `all`, `test`,
+`doc`, `dev`]. The first set (`astroquery`, `casa`, `cst`, `hdf5_compression`,
+`healpix`, `lunar`, `novas`) enable various specific functionality while `all` will install all
+optional dependencies. The last three (`test`, `doc`, `dev`) may be useful for developers
+of pyuvdata.
+
+### Installing python-casacore
+python-casacore requires the casacore c++ libraries. It can be installed easily
+using conda (```python-casacore``` on conda-forge).
+
+If you do not want to use conda, the casacore c++ libraries are available for
+ubuntu through the [kern suite](http://kernsuite.info/). On OSX, casacore is
+available through the [ska-sa brew tap](https://github.com/ska-sa/homebrew-tap).
+The python-casacore library (with manual install instructions) is available at
+https://github.com/casacore/python-casacore
+
+## Developer Installation
+Clone the repository using
+```git clone https://github.com/RadioAstronomySoftwareGroup/pyuvdata.git```
+
+Navigate into the pyuvdata directory and run `pip install .`
+(note that `python setup.py install` does not work).
+Note that this will attempt to automatically install any missing dependencies.
+If you use anaconda or another package manager you might prefer to first install
+the dependencies as described in [Dependencies](#dependencies).
+
+To install without dependencies, run `pip install --no-deps .`
+
+To compile the binary extension modules such that you can successfully run
+`import pyuvdata` from the top-level directory of your Git checkout, run:
+```python setup.py build_ext --inplace```
+
+If you want to do development on pyuvdata, in addition to the other dependencies
+you will need the following packages:
+
+* pytest >= 6.2
+* pytest-cases >= 3.6.9
+* pytest-cov
+* cython >=0.23  (This is necessary for coverage reporting of cython extensions)
+* coverage
+* pre-commit
+* sphinx
+* pypandoc
+
+One other package, pytest-xdist, is not required, but can be used to speed up running
+the test suite by running tests in parallel. To use it call pytest with the
+```-n auto``` option.
+
+One way to ensure you have all the needed packages is to use the included
+`environment.yaml` file to create a new environment that will
+contain all the optional dependencies along with dependencies required for
+testing and development (```conda env create -f environment.yaml```).
+Alternatively, you can specify `test`, `doc`, or `dev` when installing pyuvdata
+(as in `pip install pyuvdata[dev]`) to install the packages needed for testing
+(including coverage and linting) and documentation development;
+`dev` includes everything in `test` and `doc`.
+
+To use pre-commit to prevent committing code that does not follow our style, you'll
+need to run `pre-commit install` in the top level `pyuvdata` directory.
+
+## Tests
+Uses the `pytest` package to execute test suite.
+From the source pyuvdata directory run ```pytest``` or ```python -m pytest```.
+
+Testing of `UVFlag` module requires the `pytest-cases` plug-in.
+
+# API
+The primary interface to data from python is via the UVData object. It provides
+import functionality from all supported file formats (UVFITS, Miriad, UVH5, FHD,
+CASA measurement sets, SMA Mir, MWA correlator FITS) and export to UVFITS, Miriad,
+CASA measurement sets and UVH5 formats and can
+be interacted with directly. Similarly, the primary calibration, beam, and flag
+interfaces are via the UVCal, UVBeam, and UVflag objects. The attributes of the UVData,
+UVCal, UVBeam, and UVFlag objects are described in the UVData Parameters, UVCal Parameters,
+UVBeam Parameters and UVFlag Parameters pages on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+
+# Maintainers
+pyuvdata is maintained by the RASG Managers, which currently include:
+
+ - Adam Beardsley (Winona State University)
+ - Bryna Hazelton (University of Washington)
+ - Daniel Jacobs (Arizona State University)
+ - Matt Kolopanis (Arizona State University)
+ - Paul La Plante (University of Nevada, Las Vegas)
+ - Jonathan Pober (Brown University)
+
+Please use the channels discussed in the [guide on contributing](.github/CONTRIBUTING.md)
+for code-related discussions. You can contact us privately if needed at
+[rasgmanagers@gmail.com](mailto:rasgmanagers@gmail.com).
+
+# Acknowledgments
+
+Support for pyuvdata was provided by NSF awards #1835421 and #1835120.
+
+
+%package help
+Summary:	Development documents and examples for pyuvdata
+Provides:	python3-pyuvdata-doc
+%description help
+# pyuvdata
+
+[![CircleCI](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata.svg?style=svg&branch=main)](https://circleci.com/gh/RadioAstronomySoftwareGroup/pyuvdata?branch=main)
+[![](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/workflows/Run%20Tests/badge.svg?branch=main)](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/actions)
+[![codecov](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata/badge.svg?branch=main)](https://codecov.io/gh/RadioAstronomySoftwareGroup/pyuvdata)
+[![DOI](http://joss.theoj.org/papers/10.21105/joss.00140/status.svg)](https://doi.org/10.21105/joss.00140)
+
+pyuvdata defines a pythonic interface to interferometric data sets.
+Currently pyuvdata supports reading and writing of miriad, uvfits, CASA measurement sets
+and uvh5 files and reading of FHD
+([Fast Holographic Deconvolution](https://github.com/EoRImaging/FHD)) visibility save files, SMA Mir files and MWA correlator FITS files.
+
+API documentation and a tutorial is hosted on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+# Motivation
+The main goals are:
+
+1. To provide a high quality, well documented path to convert between data formats
+2. Support the direct use of datasets from python with minimal software
+3. Provide precise data definition via both human readable code and high quality online documentation
+
+# Package Details
+pyuvdata has four major user classes:
+
+* UVData: supports interferometric data (visibilities) and associated metadata
+* UVCal: supports interferometric calibration solutions (antenna-based) and
+associated metadata (Note that this is a fairly new object, consider it to be a beta version)
+* UVBeam: supports primary beams (E-field or power) and associated metadata
+(Note that this is a fairly new object, consider it to be a beta version)
+* UVFlag: A class to handle the manipulation and combination of flags for data sets.
+Also can convert raw data quality metrics into flags using thresholding.
+(This object is very new and experimental. Consider it to be a beta version)
+
+## UVData File standard notes
+* miriad has been thoroughly tested with aipy-style miriad files and minimally
+tested with ATCA files
+* uvfits conforms to AIPS memo 117 (as of March 2020).  It is tested against
+FHD, CASA, and AIPS. However AIPS is limited to <80 antennas and CASA uvfits
+import does not seem to support >255 antennas. Users with data sets containing > 255
+antennas should use the measurement set writer instead.
+* CASA measurement sets, primarily conforming to [CASA Memo 229](https://casa.nrao.edu/Memos/229.html), with some elements taken from the proposed v3.0 format documented in [CASA Memo 264](https://casacore.github.io/casacore-notes/264.html). Measurement sets are tested against
+VLA and MWA data sets, (the latter filled via cotter), with some manual verification
+haven been performed against ALMA and SMA data sets, the latter filled using the `importuvfits` task of CASA.
+tested against ALMA-filled datasets and with SMA datasets
+* uvh5 is an HDF5-based file format defined by the HERA collaboration,
+details in the [uvh5 memo](docs/references/uvh5_memo.pdf). Note that this is a
+somewhat new format, so it may evolve a bit
+but we will strive to make future versions backwards compatible with the current format.
+It is probably not compatible with other interferometric HDF5 files defined by other groups.
+* FHD (read-only support, tested against MWA and PAPER data)
+* MIR (read-only support, though experimental write functions are available, tested against SMA data)
+* MWA correlator FITS files (read-only support, tested against Cotter outputs and FHD)
+
+## UVCal file formats
+* calfits: a new format defined in pyuvdata, details in the [calfits_memo](docs/references/calfits_memo.pdf).
+Note that this format was recently defined and may change in coming versions,
+based on user needs. Consider it to be a beta version, but we will strive to
+make future versions backwards compatible with the current format.
+* FHD calibration files (read-only support)
+
+## UVBeam file formats
+* regularly gridded fits for both E-field and power beams
+* non-standard HEALPix fits for both E-field and power beams (in an ImageHDU
+rather than a binary table to support frequency, polarization and E-field vector axes)
+* read support for CST beam text files, with a defined yaml file format for
+metadata, details here: [cst settings file](docs/cst_settings_yaml.rst)
+
+## Under Development
+* UVCal: object and calfits file format (beta version)
+* UVBeam: object and beamfits file format (beta version)
+* UVFlag: object and HDF5 file format. (beta version)
+* Mir: object (part of UVData class) (beta version)
+* MirParser: object and python interface for MIR file format (beta version)
+
+## Known Issues and Planned Improvements
+* UVBeam: support phased-array antenna beams (e.g. MWA beams).
+* UVFlag: Adding requires a high level knowledge of individual objects. (see [issue #653](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues/653))
+
+For details see the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues).
+
+## Community Guidelines
+Contributions to this package to add new file formats or address any of the
+issues in the [issue log](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/issues)
+are very welcome, as are bug reports and feature requests.
+Please see our [guide on contributing](.github/CONTRIBUTING.md)
+
+# Telescopes
+pyuvdata has been used with data from the following telescopes. If you use it on
+data from a telescope we don't have listed here please let us know how it went
+via an issue! We would like to make pyuvdata generally useful to the community for
+as many telescopes as possible.
+
+* MWA
+* HERA
+* PAPER
+* LWA
+* ALMA
+* VLA
+* ATCA
+* SMA
+
+# Versioning
+We use a `generation.major.minor` version number format. We use the `generation`
+number for very significant improvements or major rewrites, the `major` number
+to indicate substantial package changes (intended to be released every 3-4 months)
+and the `minor` number to release smaller incremental updates (intended to be
+released approximately monthly and which usually do not include breaking API
+changes). We do our best to provide a significant period (usually 2 major
+generations) of deprecation warnings for all breaking changes to the API.
+We track all changes in our [changelog](https://github.com/RadioAstronomySoftwareGroup/pyuvdata/blob/main/CHANGELOG.md).
+
+# History
+pyuvdata was originally developed in the low frequency 21cm community to support
+the development of and interchange of data between calibration and foreground
+subtraction pipelines. Particular focus has been paid to supporting drift and
+phased array modes.
+
+# Citation
+Please cite pyuvdata by citing our JOSS paper:
+
+Hazelton et al, (2017), pyuvdata: an interface for astronomical interferometeric
+datasets in python, Journal of Open Source Software, 2(10), 140, doi:10.21105/joss.00140
+
+[ADS Link](https://ui.adsabs.harvard.edu/abs/2017JOSS....2..140H);
+[Bibtex entry](http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=2017JOSS....2..140H&data_type=BIBTEX&db_key=GEN&nocookieset=1)
+
+# Installation
+Simple installation via conda is available for users, developers should follow
+the directions under [Developer Installation](#developer-installation) below.
+
+For simple installation, the latest stable version is available via conda
+(preferred: ```conda install -c conda-forge pyuvdata```) or pip (```pip install pyuvdata```).
+
+There are some optional dependencies that are required for specific functionality,
+which will not be installed automatically by conda or pip.
+See [Dependencies](#dependencies) for details on installing optional dependencies.
+
+Note that as of v2.2, `pyuvdata` is only supported on python 3.7+.
+
+## Dependencies
+
+Required:
+
+* astropy >= 5.0.4
+* h5py >= 3.1
+* numpy >= 1.20
+* pyerfa >= 2.0
+* scipy >= 1.5
+* setuptools_scm <7.0|>=7.0.3
+
+Optional:
+
+* astropy-healpix >= 0.6 (for working with beams in HEALPix formats)
+* astroquery >= 0.4.4 (for enabling phasing to ephemeris objects using JPL-Horizons)
+* hdf5plugin >= 3.1.0 (for enabling bitshuffle and other hdf5 compression filters in uvh5 files)
+* lunarsky >=0.2.1 (for working with simulated datasets for lunar telescopes)
+* novas and novas_de405 (for using the NOVAS library for astrometry)
+* python-casacore >= 3.3.1 (for working with CASA measurement sets)
+* pyyaml >= 5.1 (for working with settings files for CST beam files)
+
+
+The numpy and astropy versions are important, so make sure these are up to date.
+
+We suggest using conda to install all the dependencies. If you want to install
+python-casacore and astropy-healpix, you'll need to add conda-forge as a channel
+(```conda config --add channels conda-forge```).
+
+If you do not want to use conda, the packages are also available on PyPI
+(python-casacore may require more effort, see details for that package below).
+You can install the optional dependencies via pip by specifying an option
+when you install pyuvdata, as in ```pip install pyuvdata[healpix]```
+which will install all the required packages for using the HEALPix functionality
+in pyuvdata. The options that can be passed in this way are:
+[`astroquery`, `casa`, `cst`, `hdf5_compression`, `healpix`, `lunar`, `novas`, `all`, `test`,
+`doc`, `dev`]. The first set (`astroquery`, `casa`, `cst`, `hdf5_compression`,
+`healpix`, `lunar`, `novas`) enable various specific functionality while `all` will install all
+optional dependencies. The last three (`test`, `doc`, `dev`) may be useful for developers
+of pyuvdata.
+
+### Installing python-casacore
+python-casacore requires the casacore c++ libraries. It can be installed easily
+using conda (```python-casacore``` on conda-forge).
+
+If you do not want to use conda, the casacore c++ libraries are available for
+ubuntu through the [kern suite](http://kernsuite.info/). On OSX, casacore is
+available through the [ska-sa brew tap](https://github.com/ska-sa/homebrew-tap).
+The python-casacore library (with manual install instructions) is available at
+https://github.com/casacore/python-casacore
+
+## Developer Installation
+Clone the repository using
+```git clone https://github.com/RadioAstronomySoftwareGroup/pyuvdata.git```
+
+Navigate into the pyuvdata directory and run `pip install .`
+(note that `python setup.py install` does not work).
+Note that this will attempt to automatically install any missing dependencies.
+If you use anaconda or another package manager you might prefer to first install
+the dependencies as described in [Dependencies](#dependencies).
+
+To install without dependencies, run `pip install --no-deps .`
+
+To compile the binary extension modules such that you can successfully run
+`import pyuvdata` from the top-level directory of your Git checkout, run:
+```python setup.py build_ext --inplace```
+
+If you want to do development on pyuvdata, in addition to the other dependencies
+you will need the following packages:
+
+* pytest >= 6.2
+* pytest-cases >= 3.6.9
+* pytest-cov
+* cython >=0.23  (This is necessary for coverage reporting of cython extensions)
+* coverage
+* pre-commit
+* sphinx
+* pypandoc
+
+One other package, pytest-xdist, is not required, but can be used to speed up running
+the test suite by running tests in parallel. To use it call pytest with the
+```-n auto``` option.
+
+One way to ensure you have all the needed packages is to use the included
+`environment.yaml` file to create a new environment that will
+contain all the optional dependencies along with dependencies required for
+testing and development (```conda env create -f environment.yaml```).
+Alternatively, you can specify `test`, `doc`, or `dev` when installing pyuvdata
+(as in `pip install pyuvdata[dev]`) to install the packages needed for testing
+(including coverage and linting) and documentation development;
+`dev` includes everything in `test` and `doc`.
+
+To use pre-commit to prevent committing code that does not follow our style, you'll
+need to run `pre-commit install` in the top level `pyuvdata` directory.
+
+## Tests
+Uses the `pytest` package to execute test suite.
+From the source pyuvdata directory run ```pytest``` or ```python -m pytest```.
+
+Testing of `UVFlag` module requires the `pytest-cases` plug-in.
+
+# API
+The primary interface to data from python is via the UVData object. It provides
+import functionality from all supported file formats (UVFITS, Miriad, UVH5, FHD,
+CASA measurement sets, SMA Mir, MWA correlator FITS) and export to UVFITS, Miriad,
+CASA measurement sets and UVH5 formats and can
+be interacted with directly. Similarly, the primary calibration, beam, and flag
+interfaces are via the UVCal, UVBeam, and UVflag objects. The attributes of the UVData,
+UVCal, UVBeam, and UVFlag objects are described in the UVData Parameters, UVCal Parameters,
+UVBeam Parameters and UVFlag Parameters pages on [ReadTheDocs](https://pyuvdata.readthedocs.io).
+
+
+# Maintainers
+pyuvdata is maintained by the RASG Managers, which currently include:
+
+ - Adam Beardsley (Winona State University)
+ - Bryna Hazelton (University of Washington)
+ - Daniel Jacobs (Arizona State University)
+ - Matt Kolopanis (Arizona State University)
+ - Paul La Plante (University of Nevada, Las Vegas)
+ - Jonathan Pober (Brown University)
+
+Please use the channels discussed in the [guide on contributing](.github/CONTRIBUTING.md)
+for code-related discussions. You can contact us privately if needed at
+[rasgmanagers@gmail.com](mailto:rasgmanagers@gmail.com).
+
+# Acknowledgments
+
+Support for pyuvdata was provided by NSF awards #1835421 and #1835120.
+
+
+%prep
+%autosetup -n pyuvdata-2.3.2
+
+%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-pyuvdata -f filelist.lst
+%dir %{python3_sitearch}/*
+
+%files help -f doclist.lst
+%{_docdir}/*
+
+%changelog
+* Thu May 18 2023 Python_Bot <Python_Bot@openeuler.org> - 2.3.2-1
+- Package Spec generated
diff --git a/sources b/sources
new file mode 100644
index 0000000..bcaefa8
--- /dev/null
+++ b/sources
@@ -0,0 +1 @@
+5d8613c3e871d084f42dfd708891747d  pyuvdata-2.3.2.tar.gz