Metadata-Version: 1.1
Name: ijson
Version: 3.0
Summary: Iterative JSON parser with a standard Python iterator interface
Home-page: https://github.com/ICRAR/ijson
Author: Rodrigo Tobar, Ivan Sagalaev
Author-email: rtobar@icrar.org, maniac@softwaremaniacs.org
License: BSD
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        =====
        ijson
        =====
        
        Ijson is an iterative JSON parser with standard Python iterator interfaces.
        
        .. contents::
           :local:
        
        
        Usage
        =====
        
        All usage example will be using a JSON document describing geographical
        objects:
        
        .. code-block:: json
        
            {
              "earth": {
                "europe": [
                  {"name": "Paris", "type": "city", "info": { ... }},
                  {"name": "Thames", "type": "river", "info": { ... }},
                  // ...
                ],
                "america": [
                  {"name": "Texas", "type": "state", "info": { ... }},
                  // ...
                ]
              }
            }
        
        
        High-level interfaces
        ---------------------
        
        Most common usage is having ijson yield native Python objects out of a JSON
        stream located under a prefix. Here's how to process all European cities:
        
        .. code-block::  python
        
            import ijson
        
            f = urlopen('http://.../')
            objects = ijson.items(f, 'earth.europe.item')
            cities = (o for o in objects if o['type'] == 'city')
            for city in cities:
                do_something_with(city)
        
        For how to build a prefix see the Prefix section below.
        
        Other times it might be useful to iterate over object members
        rather than objects themselves (e.g., when objects are too big).
        In that case one can use the ``kvitems`` functions instead:
        
        .. code-block::  python
        
            import ijson
        
            f = urlopen('http://.../')
            european_places = ijson.kvitems(f, 'earth.europe.item')
            names = (v for k, v in european_places if k == 'name')
            for name in names:
                do_something_with(name)
        
        
        Lower-level interfaces
        ----------------------
        
        Sometimes when dealing with a particularly large JSON payload it may worth to
        not even construct individual Python objects and react on individual events
        immediately producing some result:
        
        .. code-block::  python
        
            import ijson
        
            parser = ijson.parse(urlopen('http://.../'))
            stream.write('<geo>')
            for prefix, event, value in parser:
                if (prefix, event) == ('earth', 'map_key'):
                    stream.write('<%s>' % value)
                    continent = value
                elif prefix.endswith('.name'):
                    stream.write('<object name="%s"/>' % value)
                elif (prefix, event) == ('earth.%s' % continent, 'end_map'):
                    stream.write('</%s>' % continent)
            stream.write('</geo>')
        
        Even more bare-bones is the ability to react on individual events
        without even calculating a prefix:
        
        .. code-block:: python
        
            import ijson
        
            events = ijson.basic_parse(urlopen('http://.../'))
            num_names = sum(1 for event, value in events
                            if event == 'map_key' and value == 'name')
        
        
        ``asyncio`` support
        -------------------
        
        In python 3.5+ all of the methods above
        have an ``*_async`` counterpart
        that works on file-like asynchronous objects,
        and that can be iterated asynchronously.
        In other words, something like this:
        
        .. code-block:: python
        
           import asyncio
           import ijson
        
           async def run():
              f = await async_urlopen('http://..../')
              async for object in ijson.items_async(f, 'earth.europe.item'):
                 if object['type'] == 'city':
                    do_something_with(city)
           asyncio.run(run())
        
        
        Push interfaces
        ---------------
        
        All examples above use a file-like object as the data input
        (both the normal case, and for ``asyncio`` support),
        and hence are "pull" interfaces,
        with the library reading data as necessary.
        If for whatever reason it's not possible to use such method,
        you can still **push** data
        through yet a different interface: coroutines.
        Coroutines effectively allow users
        to send data to them at any point in time,
        with a final *target* coroutine-like object
        receiving the results.
        
        In the following example
        the user is doing the reading
        instead of letting the library do it:
        
        .. code-block:: python
        
           import ijson
        
           @ijson.coroutine
           def print_cities():
              while True:
                 obj = (yield)
                 if obj['type'] != 'city':
                    continue
                 print(obj)
        
           coro = ijson.items_coro(print_cities(), 'earth.europe.item')
           f = urlopen('http://.../')
           chunk = f.read(buf_size)
           while chunk:
              coro.send(chunk)
              chunk = f.read()
           coro.close()
        
        All four ijson iterators
        have a ``*_coro`` counterpart
        that work by pushing data into them.
        Instead of receiving a file-like object
        and option buffer size as arguments,
        they receive a single ``target`` argument,
        which should be a coroutine-like object
        (anything implementing a ``send`` method)
        through which results will be published.
        
        An alternative to providing a coroutine
        is to use ``ijson.sendable_list`` to accumulate results,
        providing the list is cleared after each parsing iteration,
        like this:
        
        .. code-block:: python
        
           import ijson
        
           events = ijson.sendable_list()
           coro = ijson.items_coro(events, 'earth.europe.item')
           f = urlopen('http://.../')
           chunk = f.read(buf_size)
           while chunk:
              coro.send(chunk)
              process_accumulated_events(events)
              del events[:]
           coro.close()
           process_accumulated_events(events)
        
        
        Options
        =======
        
        Additional options are supported by **all** ijson functions
        to give users more fine-grained control over certain operations:
        
        - The ``multiple_values`` option (defaults to ``False``)
          controls whether multiple top-level values are supported.
          JSON content should contain a single top-level value
          (see `the JSON Grammar <https://tools.ietf.org/html/rfc7159#section-2>`_).
          However there are plenty of JSON files out in the wild
          that contain multiple top-level values,
          often separated by newlines.
          By default ijson will fail to process these
          with a ``parse error: trailing garbage`` error
          unless ``multiple_values=True`` is specified.
        - Similarly the ``allow_comments`` option (defaults to ``False``)
          controls whether C-style comments (e.g., ``/* a comment */``),
          which are not supported by the JSON standard,
          are allowed in the content or not.
        - For functions taking a file-like object,
          and additional ``buf_size`` option (defaults to ``65536`` or 64KB)
          specifies the amount of bytes the library
          should attempt to read each time.
        - The ``items`` and ``kvitems`` functions, and all their variants,
          have an optional ``map_type`` argument (defaults to ``dict``)
          used to construct objects from the JSON stream.
          This should be a dict-like type supporting item assignment.
        
        
        Events
        ======
        
        When using the lower-level ``ijson.parse`` function,
        three-element tuples are generated
        containing a prefix, an event name, and a value.
        Events will be one of the following:
        
        - ``start_map`` and ``end_map`` indicate
          the beginning and end of a JSON object, respectively.
          They carry a ``None`` as their value.
        - ``start_array`` and ``end_array`` indicate
          the beginning and end of a JSON array, respectively.
          They also carry a ``None`` as their value.
        - ``map_key`` indicates the name of a field in a JSON object.
          Its associated value is the name itself.
        - ``null``, ``boolean``, ``integer``, ``double``, ``number`` and ``string``
          all indicate actual content, which is stored in the associated value.
        
        
        Prefix
        ======
        
        A prefix represents the context within a JSON document
        where an event originates at.
        It works as follows:
        
        - It starts as an empty string.
        - A ``<name>`` part is appended when the parser starts parsing the contents
          of a JSON object member called ``name``,
          and removed once the content finishes.
        - A literal ``item`` part is appended when the parser is parsing
          elements of a JSON array,
          and removed when the array ends.
        - Parts are separated by ``.``.
        
        When using the ``ijson.items`` function,
        the prefix works as the selection
        for which objects should be automatically built and returned by ijson.
        
        
        Backends
        ========
        
        Ijson provides several implementations of the actual parsing in the form of
        backends located in ijson/backends:
        
        - ``yajl2_c``: a C extension using `YAJL <http://lloyd.github.com/yajl/>`_ 2.x.
          This is the fastest, but *might* require a compiler and the YAJL development files
          to be present when installing this package.
          Binary wheel distributions exist for major platforms/architectures to spare users
          from having to compile the package.
        - ``yajl2_cffi``: wrapper around `YAJL <http://lloyd.github.com/yajl/>`_ 2.x
          using CFFI.
        - ``yajl2``: wrapper around YAJL 2.x using ctypes, for when you can't use CFFI
          for some reason.
        - ``yajl``: deprecated YAJL 1.x + ctypes wrapper, for even older systems.
        - ``python``: pure Python parser, good to use with PyPy
        
        You can import a specific backend and use it in the same way as the top level
        library:
        
        .. code-block::  python
        
            import ijson.backends.yajl2_cffi as ijson
        
            for item in ijson.items(...):
                # ...
        
        Importing the top level library as ``import ijson``
        uses the first available backend in the same order of the list above.
        Its name is recorded under ``ijson.backend``.
        
        
        Acknowledgements
        ================
        
        ijson was originally developed and actively maintained until 2016
        by `Ivan Sagalaev <http://softwaremaniacs.org/>`_.
        In 2019 he
        `handed over <https://github.com/isagalaev/ijson/pull/58#issuecomment-500596815>`_
        the maintenance of the project and the PyPI ownership.
        
        Python parser in ijson is relatively simple thanks to `Douglas Crockford
        <http://www.crockford.com/>`_ who invented a strict, easy to parse syntax.
        
        The `YAJL <http://lloyd.github.com/yajl/>`_ library by `Lloyd Hilaiel
        <http://lloyd.io/>`_ is the most popular and efficient way to parse JSON in an
        iterative fashion.
        
        Ijson was inspired by `yajl-py <http://pykler.github.com/yajl-py/>`_ wrapper by
        `Hatem Nassrat <http://www.nassrat.ca/>`_. Though ijson borrows almost nothing
        from the actual yajl-py code it was used as an example of integration with yajl
        using ctypes.
        
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: License :: OSI Approved :: BSD License
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Programming Language :: Python :: Implementation :: PyPy
Classifier: Topic :: Software Development :: Libraries :: Python Modules
