Source: pyfai
Maintainer: Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
Uploaders: Jerome Kieffer <jerome.kieffer@esrf.fr>,
           Picca Frédéric-Emmanuel <picca@debian.org>
Section: science
Priority: optional
Build-Depends: cython,
               cython-dbg,
               cython3,
               cython3-dbg,
               debhelper (>= 10),
               dh-python,
               help2man,
               libjs-mathjax,
               pandoc <!nodoc>,
               python-all-dbg,
               python-all-dev,
               python-fabio (>= 0.3.0+dfsg-1~),
               python-fabio-dbg (>= 0.3.0+dfsg-1~),
               python-h5py,
               python-h5py-dbg,
               python-matplotlib,
               python-matplotlib-dbg,
               python-numexpr,
               python-numexpr-dbg,
               python-numpy,
               python-numpy-dbg,
               python-pyopencl,
               python-pyopencl-dbg,
               python-pyqt5,
               python-pyqt5-dbg,
               python-scipy,
               python-scipy-dbg,
               python-setuptools,
               python-silx (>= 0.8.0),
               python-silx-dbg (>= 0.8.0),
               python-tk,
               python-tk-dbg,
               python3-all-dbg,
               python3-all-dev,
               python3-fabio,
               python3-fabio-dbg,
               python3-h5py,
               python3-h5py-dbg,
               python3-matplotlib,
               python3-matplotlib-dbg,
               python3-nbsphinx <!nodoc>,
               python3-numexpr,
               python3-numexpr-dbg,
               python3-numpy,
               python3-numpy-dbg,
               python3-pyopencl,
               python3-pyopencl-dbg,
               python3-pyqt5,
               python3-pyqt5-dbg,
               python3-scipy,
               python3-scipy-dbg,
               python3-setuptools,
               python3-silx (>= 0.8.0),
               python3-silx-dbg (>= 0.8.0),
               python3-sphinx,
               python3-sphinxcontrib.programoutput,
               python3-tk,
               python3-tk-dbg,
               xauth,
               xvfb
Standards-Version: 4.2.1
Vcs-Browser: https://salsa.debian.org/science-team/pyfai
Vcs-Git: https://salsa.debian.org/science-team/pyfai.git
Homepage: https://github.com/silx-kit/pyFAI

Package: pyfai
Architecture: all
Depends: python3-pyfai (>= ${source:Version}),
         ${misc:Depends},
         ${python3:Depends},
         ${shlibs:Depends}
Description: Fast Azimuthal Integration scripts
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.

Package: python-pyfai
Architecture: any
Section: python
Depends: ${misc:Depends}, ${python:Depends}, ${shlibs:Depends}
Breaks: pyfai (<< 0.11.0+dfsg-2), ${python:Breaks}
Replaces: pyfai (<< 0.11.0+dfsg-2)
Description: Fast Azimuthal Integration scripts - Python2
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.
 .
 This is the Python 2 version of the package.

Package: python-pyfai-dbg
Architecture: any
Section: debug
Depends: python-fabio-dbg (>= 0.3.0+dfsg-1~),
         python-h5py-dbg,
         python-matplotlib-dbg,
         python-numexpr-dbg,
         python-numpy-dbg,
         python-pyfai (= ${binary:Version}),
         python-pyopencl-dbg,
         python-pyqt5-dbg,
         python-scipy-dbg,
         python-silx-dbg,
         python-tk-dbg,
         ${misc:Depends},
         ${python:Depends},
         ${shlibs:Depends}
Description: Fast Azimuthal Integration scripts - Python2 debug
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.
 .
 This package contains the extension built for the Python 2 debug
 interpreter.

Package: python3-pyfai
Architecture: any
Section: python
Depends: ${misc:Depends}, ${python3:Depends}, ${shlibs:Depends}
Description: Fast Azimuthal Integration scripts - Python3
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.
 .
 This is the Python 3 version of the package.

Package: python3-pyfai-dbg
Architecture: any
Section: debug
Depends: python3-fabio-dbg,
         python3-h5py-dbg,
         python3-matplotlib-dbg,
         python3-numexpr-dbg,
         python3-numpy-dbg,
         python3-pyfai (= ${binary:Version}),
         python3-pyopencl-dbg,
         python3-pyqt5-dbg,
         python3-scipy-dbg,
         python3-silx-dbg,
         python3-tk-dbg,
         ${misc:Depends},
         ${python3:Depends},
         ${shlibs:Depends}
Description: Fast Azimuthal Integration scripts - Python3 debug
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.
 .
 This package contains the extension built for the Python 3 debug
 interpreter.

Package: python-pyfai-doc
Architecture: all
Section: doc
Depends: libjs-mathjax, ${misc:Depends}, ${sphinxdoc:Depends}
Description: Fast Azimuthal Integration scripts - Documentation
 PyFAI is a Python library for azimuthal integration; it allows the conversion
 of diffraction images taken with 2D detectors like CCD cameras into X-Ray
 powder patterns that can be used by other software like Rietveld refinement
 tools (i.e. FullProf), phase analysis or texture analysis.
 .
 As PyFAI is a library, its main goal is to be integrated in other tools like
 PyMca, LiMa or EDNA. To perform online data analysis, the precise description
 of the experimental setup has to be known. This is the reason why PyFAI
 includes geometry optimization code working on "powder rings" of reference
 samples. Alternatively, PyFAI can also import geometries fitted with other
 tools like Fit2D.
 .
 PyFAI has been designed to work with any kind of detector with any geometry
 (transmission, reflection, off-axis, ...). It uses the Python library FabIO
 to read most images taken by diffractometer.
 .
 This is the common documentation package.