Metadata-Version: 2.1
Name: morpheus-astro
Version: 0.5.1
Summary: A Library For Generating Morphological Semantic Segmentation Maps of Astronomical Images
Home-page: https://github.com/morpheus-project/morpheus
Author: Ryan Hausen & Brant Robertson
Author-email: rhausen@ucsc.edu
License: MIT
Description: 
        .. Variables to use the correct hyperlinks in the readmertd build
        .. |classifier| replace:: `morpheus.classifier.Classifier <https://morpheus-astro.readthedocs.io/en/latest/source/morpheus.html#morpheus.classifier.Classifier>`__
        .. |classify| replace:: `classify <https://morpheus-astro.readthedocs.io/en/latest/source/morpheus.html#morpheus.classifier.Classifier.classify>`__
        .. |segmap| replace:: `segmap <https://morpheus-astro.readthedocs.io/en/latest/source/morpheus.html#morpheus.classifier.Classifier.segmap_from_classifed>`__
        .. |catalog| replace:: `catalog <https://morpheus-astro.readthedocs.io/en/latest/source/morpheus.html#morpheus.classifier.Classifier.catalog_from_classifed>`__
        .. |colorize| replace:: `colorize <https://morpheus-astro.readthedocs.io/en/latest/source/morpheus.html#morpheus.classifier.Classifier.colorize_classifed>`__
        
        Morpheus
        ========
        
        .. image:: https://travis-ci.com/morpheus-project/morpheus.svg?branch=master
            :target: https://travis-ci.com/morpheus-project/morpheus
        
        .. image:: https://codecov.io/gh/morpheus-project/morpheus/branch/master/graph/badge.svg
            :target: https://codecov.io/gh/morpheus-project/morpheus
        
        .. image:: https://img.shields.io/badge/code%20style-black-000000.svg
            :target: https://github.com/ambv/black
        
        .. image:: https://img.shields.io/badge/python-3.6-blue.svg
            :target: https://www.python.org/downloads/release/python-360/
        
        .. image:: https://readthedocs.org/projects/morpheus-astro/badge/?version=latest
            :target: https://morpheus-astro.readthedocs.io
        
        Morpheus is a neural network model used to generate pixel-level morphological
        classifications for astronomical sources. This model can be used to generate
        segmentation maps or to inform other photometric measurements with granular
        morphological information.
        
        Installation
        ============
        
        Morpheus is implemented using `TensorFlow <https://www.tensorflow.org/>`_.
        TensorFlow is **not** listed in the dependencies for the package. So you need
        to install TensorFlow before you install Morpheus. It has to be done this way
        to support the GPU accelerated version of TensorFlow, which has a different
        package name. For more information on installing TensorFlow visit the
        `TensorFlow website <https://www.tensorflow.org/install/>`_.
        
        
        .. code-block:: bash
        
            pip install morpheus-astro
        
        Docker
        ======
        
        Morpheus has two main flavors of Docker Image: ``gpu`` for the GPU enabled version
        of TensorFlow and ``cpu`` for the standard CPU implementation of TensorFlow.
        Visit the `Docker Hub <https://hub.docker.com/r/morpheusastro/morpheus>`_ page
        for relevant tags.
        
        For GPU support:
        
        .. code-block:: bash
        
            docker run --runtime=nvidia -it morpheusastro/morpheus:lastest-gpu
        
        For CPU only:
        
        .. code-block:: bash
        
            docker run -it morpheusastro/morpheus:latest-cpu
        
        
        Usage
        =====
        
        There are two ways to use morpheus on images: the python API and the command
        line interface
        
        Python API
        ----------
        
        The |classifier| class is the interface to the various functionalities of
        Morpheus.
        
        Morphological classification
        ****************************
        
        To perform a pixel-level morphological classification, the image needs to be
        provided in the H, J, Z, and V bands. See |classify| for more information.
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
            classified = Classifier.classify(h=h, j=j, v=v, z=z)
        
        The classify function returns a dictionary where the keys indicate the output
        for example ``spheroid``, and the value is the corresponding numpy ndarray.
        
        Using the output from |classify| you can:
        
        -   Make a segmap
        
        -   Make a morphgological catalog
        
        -   Make colorized version of the morphological classifications
        
        Segmentation Map
        ****************
        
        To create a segmentation map using Morpheus, you need to provide the output
        from the |classify| function and a single flux band. In the below example we
        use H. For more information see |segmap|
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
            classified = Classifier.classify(h=h, j=j, v=v, z=z)
            segmap = Classifier.segmap_from_classified(classified, h)
        
        Catalog
        *******
        
        To create a catalog using Morpheus, you need to provide the output from the
        |classify| function, the flux in a single band (we use H), and a segmentation
        map. The segmentation map doesn't have to be generated by Morpheus, but it
        must be similar in form. It should assign pixels values greater than 0 for all
        pixels that are associated with a source. Each source should be assigned a
        unique ID. Background should be set to 0 and excluded regions should be
        assigned -1. The catalog returned is a JSON compatible list of morphological
        classifications for each source in the segmap. For more information, see
        |catalog|.
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
            classified = Classifier.classify(h=h, j=j, v=v, z=z)
            segmap = Classifier.segmap_from_classified(classified, h)
            catalog = Classifier.catalog_from_classified(classified, h, segmap)
        
        Colorized Classifications
        *************************
        
        A colorized classification is a way of making a single image to interpret the
        pixel level morphological classifications. For more information see |colorize|.
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
            classified = Classifier.classify(h=h, j=j, v=v, z=z)
            color_rgb = Classifier.colorize_classified(classified)
        
        Parallelization
        ***************
        
        Morpheus supports simple parallelization by breaking an image into equally
        sized pieces along the y axis, classifying them in seperate processes, and
        stitching them back into a single image. Parallelization can be split into CPU
        jobs or GPU jobs. Importantly, you cannot specify both at the same time.
        
        **GPUS**
        
        The ``gpus`` argument should be a list of integers that are the ids assigned to
        the GPUS to be used. These ids can be found by using ``nvidia-smi``.
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
        
            classified = Classifier.classify(h=h, j=j, v=v, z=z, gpus=[0,1])
        
        **CPUS**
        
        The ``cpus`` argument should be an integer indicating how many processes to
        spin off.
        
        .. code-block:: python
        
            from morpheus.classifier import Classifier
            from morpheus.data import example
        
            h, j, v, z = example.get_sample()
        
            classified = Classifier.classify(h=h, j=j, v=v, z=z, cpus=2)
        
        
        Command Line Interface
        ----------------------
        
        Morpheus can be used from the terminal using the ``morpheus`` command. To
        classify an image, it needs to be available in the H, J, V, and Z bands. From
        the terminal the following actions can be performed:
        
        -   Per pixel morphological classification
        -   Make segmentation map
        -   Make a catalog of morphological classifications
        -   Make a colorized version of the morphological classifications
        
        
        Morphological classification
        ****************************
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits
        
        Order is important when calling the Morpheus from the terminal. The files
        should be in the order H, J, V, and Z, as displayed in the above example. The
        output classification will be saved in the current working directory unless
        otherwise indicated by the ``--out_dir`` optional argument.
        
        Segmentation Map
        ****************
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits --action segmap
        
        To create a segmap, append the optional ``--action`` flag with the argument
        ``segmap``. This will save both the classifications and the segmap to the
        same directory.
        
        Catalog
        *******
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits --action catalog
        
        This will create a catalog by classifying the input images, creating a
        segmap, and using both of those to generate a morphological catalog. The
        morphological classifications, segmap, and catalog are all saved to the same
        place.
        
        Colorized Classifications
        *************************
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits --action colorize
        
        Using ``--action colorize`` will classify the image and then generate a
        colorized version of that classification and save the classification and
        colorized version to the same place.
        
        Parallelization
        ***************
        
        Morpheus supports simple parallelization by breaking an image into equally
        sized pieces along the y axis, classifying them in separate processes, and
        stitching them back into a single image. Parallelization can be split into CPU
        jobs or GPU jobs. Importantly, you cannot specify both at the same time.
        
        **GPUS**
        
        The ``gpus`` optional flag should be a comma-separated list of ids for the
        GPUS to be used. These ids can be found by using ``nvidia-smi``.
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits --gpus 0,1
        
        **CPUS**
        
        The ``cpus`` optional flag should be an integer indicating how many processes
        to spin off.
        
        .. code-block:: bash
        
            morpheus h.fits j.fits v.fits z.fits --cpus 2
        
        
        Python Demo
        =============
        
        Try it out on `Google Colab <https://colab.research.google.com/github/morpheus-project/morpheus/blob/master/examples/example_array.ipynb>`_!
        
        Documentation
        =============
        
        https://morpheus-astro.readthedocs.io/
        
Platform: UNKNOWN
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: Implementation :: PyPy
Classifier: License :: OSI Approved :: MIT License
Classifier: Intended Audience :: Science/Research
Classifier: Development Status :: 4 - Beta
Classifier: Operating System :: POSIX :: Linux
Classifier: Topic :: Scientific/Engineering
Requires-Python: >=3.6
Description-Content-Type: text/x-rst
