Doc/library/lzma.rst - platform/external/python/cpython3 - Gitiles

 :mod:`lzma` --- Compression using the LZMA algorithm
 ====================================================

 .. module:: lzma
    :synopsis: A Python wrapper for the liblzma compression library.
 .. moduleauthor:: Nadeem Vawda <nadeem.vawda@gmail.com>
 .. sectionauthor:: Nadeem Vawda <nadeem.vawda@gmail.com>

 .. versionadded:: 3.3


 This module provides classes and convenience functions for compressing and
 decompressing data using the LZMA compression algorithm. Also included is a file
 interface supporting the ``.xz`` and legacy ``.lzma`` file formats used by the
 :program:`xz` utility, as well as raw compressed streams.

 The interface provided by this module is very similar to that of the :mod:`bz2`
 module. However, note that :class:`LZMAFile` is *not* thread-safe, unlike
 :class:`bz2.BZ2File`, so if you need to use a single :class:`LZMAFile` instance
 from multiple threads, it is necessary to protect it with a lock.


 .. exception:: LZMAError

    This exception is raised when an error occurs during compression or
    decompression, or while initializing the compressor/decompressor state.


 Reading and writing compressed files
 ------------------------------------

 .. function:: open(filename, mode="rb", \*, format=None, check=-1, preset=None, filters=None, encoding=None, errors=None, newline=None)

    Open an LZMA-compressed file in binary or text mode, returning a :term:`file
    object`.

    The *filename* argument can be either an actual file name (given as a
    :class:`str` or :class:`bytes` object), in which case the named file is
    opened, or it can be an existing file object to read from or write to.

    The *mode* argument can be any of ``"r"``, ``"rb"``, ``"w"``, ``"wb"``,
    ``"x"``, ``"xb"``, ``"a"`` or ``"ab"`` for binary mode, or ``"rt"``,
    ``"wt"``, ``"xt"``, or ``"at"`` for text mode. The default is ``"rb"``.

    When opening a file for reading, the *format* and *filters* arguments have
    the same meanings as for :class:`LZMADecompressor`. In this case, the *check*
    and *preset* arguments should not be used.

    When opening a file for writing, the *format*, *check*, *preset* and
    *filters* arguments have the same meanings as for :class:`LZMACompressor`.

    For binary mode, this function is equivalent to the :class:`LZMAFile`
    constructor: ``LZMAFile(filename, mode, ...)``. In this case, the *encoding*,
    *errors* and *newline* arguments must not be provided.

    For text mode, a :class:`LZMAFile` object is created, and wrapped in an
    :class:`io.TextIOWrapper` instance with the specified encoding, error
    handling behavior, and line ending(s).

    .. versionchanged:: 3.4
       Added support for the ``"x"``, ``"xb"`` and ``"xt"`` modes.


 .. class:: LZMAFile(filename=None, mode="r", \*, format=None, check=-1, preset=None, filters=None)

    Open an LZMA-compressed file in binary mode.

    An :class:`LZMAFile` can wrap an already-open :term:`file object`, or operate
    directly on a named file. The *filename* argument specifies either the file
    object to wrap, or the name of the file to open (as a :class:`str` or
    :class:`bytes` object). When wrapping an existing file object, the wrapped
    file will not be closed when the :class:`LZMAFile` is closed.

    The *mode* argument can be either ``"r"`` for reading (default), ``"w"`` for
    overwriting, ``"x"`` for exclusive creation, or ``"a"`` for appending. These
    can equivalently be given as ``"rb"``, ``"wb"``, ``"xb"`` and ``"ab"``
    respectively.

    If *filename* is a file object (rather than an actual file name), a mode of
    ``"w"`` does not truncate the file, and is instead equivalent to ``"a"``.

    When opening a file for reading, the input file may be the concatenation of
    multiple separate compressed streams. These are transparently decoded as a
    single logical stream.

    When opening a file for reading, the *format* and *filters* arguments have
    the same meanings as for :class:`LZMADecompressor`. In this case, the *check*
    and *preset* arguments should not be used.

    When opening a file for writing, the *format*, *check*, *preset* and
    *filters* arguments have the same meanings as for :class:`LZMACompressor`.

    :class:`LZMAFile` supports all the members specified by
    :class:`io.BufferedIOBase`, except for :meth:`detach` and :meth:`truncate`.
    Iteration and the :keyword:`with` statement are supported.

    The following method is also provided:

    .. method:: peek(size=-1)

       Return buffered data without advancing the file position. At least one
       byte of data will be returned, unless EOF has been reached. The exact
       number of bytes returned is unspecified (the *size* argument is ignored).

       .. note:: While calling :meth:`peek` does not change the file position of
          the :class:`LZMAFile`, it may change the position of the underlying
          file object (e.g. if the :class:`LZMAFile` was constructed by passing a
          file object for *filename*).

    .. versionchanged:: 3.4
       Added support for the ``"x"`` and ``"xb"`` modes.


 Compressing and decompressing data in memory
 --------------------------------------------

 .. class:: LZMACompressor(format=FORMAT_XZ, check=-1, preset=None, filters=None)

    Create a compressor object, which can be used to compress data incrementally.

    For a more convenient way of compressing a single chunk of data, see
    :func:`compress`.

    The *format* argument specifies what container format should be used.
    Possible values are:

    * :const:`FORMAT_XZ`: The ``.xz`` container format.
       This is the default format.

    * :const:`FORMAT_ALONE`: The legacy ``.lzma`` container format.
       This format is more limited than ``.xz`` -- it does not support integrity
       checks or multiple filters.

    * :const:`FORMAT_RAW`: A raw data stream, not using any container format.
       This format specifier does not support integrity checks, and requires that
       you always specify a custom filter chain (for both compression and
       decompression). Additionally, data compressed in this manner cannot be
       decompressed using :const:`FORMAT_AUTO` (see :class:`LZMADecompressor`).

    The *check* argument specifies the type of integrity check to include in the
    compressed data. This check is used when decompressing, to ensure that the
    data has not been corrupted. Possible values are:

    * :const:`CHECK_NONE`: No integrity check.
      This is the default (and the only acceptable value) for
      :const:`FORMAT_ALONE` and :const:`FORMAT_RAW`.

    * :const:`CHECK_CRC32`: 32-bit Cyclic Redundancy Check.

    * :const:`CHECK_CRC64`: 64-bit Cyclic Redundancy Check.
      This is the default for :const:`FORMAT_XZ`.

    * :const:`CHECK_SHA256`: 256-bit Secure Hash Algorithm.

    If the specified check is not supported, an :class:`LZMAError` is raised.

    The compression settings can be specified either as a preset compression
    level (with the *preset* argument), or in detail as a custom filter chain
    (with the *filters* argument).

    The *preset* argument (if provided) should be an integer between ``0`` and
    ``9`` (inclusive), optionally OR-ed with the constant
    :const:`PRESET_EXTREME`. If neither *preset* nor *filters* are given, the
    default behavior is to use :const:`PRESET_DEFAULT` (preset level ``6``).
    Higher presets produce smaller output, but make the compression process
    slower.

    .. note::

       In addition to being more CPU-intensive, compression with higher presets
       also requires much more memory (and produces output that needs more memory
       to decompress). With preset ``9`` for example, the overhead for an
       :class:`LZMACompressor` object can be as high as 800 MiB. For this reason,
       it is generally best to stick with the default preset.

    The *filters* argument (if provided) should be a filter chain specifier.
    See :ref:`filter-chain-specs` for details.

    .. method:: compress(data)

       Compress *data* (a :class:`bytes` object), returning a :class:`bytes`
       object containing compressed data for at least part of the input. Some of
       *data* may be buffered internally, for use in later calls to
       :meth:`compress` and :meth:`flush`. The returned data should be
       concatenated with the output of any previous calls to :meth:`compress`.

    .. method:: flush()

       Finish the compression process, returning a :class:`bytes` object
       containing any data stored in the compressor's internal buffers.

       The compressor cannot be used after this method has been called.


 .. class:: LZMADecompressor(format=FORMAT_AUTO, memlimit=None, filters=None)

    Create a decompressor object, which can be used to decompress data
    incrementally.

    For a more convenient way of decompressing an entire compressed stream at
    once, see :func:`decompress`.

    The *format* argument specifies the container format that should be used. The
    default is :const:`FORMAT_AUTO`, which can decompress both ``.xz`` and
    ``.lzma`` files. Other possible values are :const:`FORMAT_XZ`,
    :const:`FORMAT_ALONE`, and :const:`FORMAT_RAW`.

    The *memlimit* argument specifies a limit (in bytes) on the amount of memory
    that the decompressor can use. When this argument is used, decompression will
    fail with an :class:`LZMAError` if it is not possible to decompress the input
    within the given memory limit.

    The *filters* argument specifies the filter chain that was used to create
    the stream being decompressed. This argument is required if *format* is
    :const:`FORMAT_RAW`, but should not be used for other formats.
    See :ref:`filter-chain-specs` for more information about filter chains.

    .. note::
       This class does not transparently handle inputs containing multiple
       compressed streams, unlike :func:`decompress` and :class:`LZMAFile`. To
       decompress a multi-stream input with :class:`LZMADecompressor`, you must
       create a new decompressor for each stream.

    .. method:: decompress(data)

       Decompress *data* (a :class:`bytes` object), returning a :class:`bytes`
       object containing the decompressed data for at least part of the input.
       Some of *data* may be buffered internally, for use in later calls to
       :meth:`decompress`. The returned data should be concatenated with the
       output of any previous calls to :meth:`decompress`.

    .. attribute:: check

       The ID of the integrity check used by the input stream. This may be
       :const:`CHECK_UNKNOWN` until enough of the input has been decoded to
       determine what integrity check it uses.

    .. attribute:: eof

       ``True`` if the end-of-stream marker has been reached.

    .. attribute:: unused_data

       Data found after the end of the compressed stream.

       Before the end of the stream is reached, this will be ``b""``.


 .. function:: compress(data, format=FORMAT_XZ, check=-1, preset=None, filters=None)

    Compress *data* (a :class:`bytes` object), returning the compressed data as a
    :class:`bytes` object.

    See :class:`LZMACompressor` above for a description of the *format*, *check*,
    *preset* and *filters* arguments.


 .. function:: decompress(data, format=FORMAT_AUTO, memlimit=None, filters=None)

    Decompress *data* (a :class:`bytes` object), returning the uncompressed data
    as a :class:`bytes` object.

    If *data* is the concatenation of multiple distinct compressed streams,
    decompress all of these streams, and return the concatenation of the results.

    See :class:`LZMADecompressor` above for a description of the *format*,
    *memlimit* and *filters* arguments.


 Miscellaneous
 -------------

 .. function:: is_check_supported(check)

    Returns true if the given integrity check is supported on this system.

    :const:`CHECK_NONE` and :const:`CHECK_CRC32` are always supported.
    :const:`CHECK_CRC64` and :const:`CHECK_SHA256` may be unavailable if you are
    using a version of :program:`liblzma` that was compiled with a limited
    feature set.


 .. _filter-chain-specs:

 Specifying custom filter chains
 -------------------------------

 A filter chain specifier is a sequence of dictionaries, where each dictionary
 contains the ID and options for a single filter. Each dictionary must contain
 the key ``"id"``, and may contain additional keys to specify filter-dependent
 options. Valid filter IDs are as follows:

 * Compression filters:
    * :const:`FILTER_LZMA1` (for use with :const:`FORMAT_ALONE`)
    * :const:`FILTER_LZMA2` (for use with :const:`FORMAT_XZ` and :const:`FORMAT_RAW`)

 * Delta filter:
    * :const:`FILTER_DELTA`

 * Branch-Call-Jump (BCJ) filters:
    * :const:`FILTER_X86`
    * :const:`FILTER_IA64`
    * :const:`FILTER_ARM`
    * :const:`FILTER_ARMTHUMB`
    * :const:`FILTER_POWERPC`
    * :const:`FILTER_SPARC`

 A filter chain can consist of up to 4 filters, and cannot be empty. The last
 filter in the chain must be a compression filter, and any other filters must be
 delta or BCJ filters.

 Compression filters support the following options (specified as additional
 entries in the dictionary representing the filter):

    * ``preset``: A compression preset to use as a source of default values for
      options that are not specified explicitly.
    * ``dict_size``: Dictionary size in bytes. This should be between 4 KiB and
      1.5 GiB (inclusive).
    * ``lc``: Number of literal context bits.
    * ``lp``: Number of literal position bits. The sum ``lc + lp`` must be at
      most 4.
    * ``pb``: Number of position bits; must be at most 4.
    * ``mode``: :const:`MODE_FAST` or :const:`MODE_NORMAL`.
    * ``nice_len``: What should be considered a "nice length" for a match.
      This should be 273 or less.
    * ``mf``: What match finder to use -- :const:`MF_HC3`, :const:`MF_HC4`,
      :const:`MF_BT2`, :const:`MF_BT3`, or :const:`MF_BT4`.
    * ``depth``: Maximum search depth used by match finder. 0 (default) means to
      select automatically based on other filter options.

 The delta filter stores the differences between bytes, producing more repetitive
 input for the compressor in certain circumstances. It only supports a single
 The delta filter supports only one option, ``dist``. This indicates the distance
 between bytes to be subtracted. The default is 1, i.e. take the differences
 between adjacent bytes.

 The BCJ filters are intended to be applied to machine code. They convert
 relative branches, calls and jumps in the code to use absolute addressing, with
 the aim of increasing the redundancy that can be exploited by the compressor.
 These filters support one option, ``start_offset``. This specifies the address
 that should be mapped to the beginning of the input data. The default is 0.


 Examples
 --------

 Reading in a compressed file::

    import lzma
    with lzma.open("file.xz") as f:
        file_content = f.read()

 Creating a compressed file::

    import lzma
    data = b"Insert Data Here"
    with lzma.open("file.xz", "w") as f:
        f.write(data)

 Compressing data in memory::

    import lzma
    data_in = b"Insert Data Here"
    data_out = lzma.compress(data_in)

 Incremental compression::

    import lzma
    lzc = lzma.LZMACompressor()
    out1 = lzc.compress(b"Some data\n")
    out2 = lzc.compress(b"Another piece of data\n")
    out3 = lzc.compress(b"Even more data\n")
    out4 = lzc.flush()
    # Concatenate all the partial results:
    result = b"".join([out1, out2, out3, out4])

 Writing compressed data to an already-open file::

    import lzma
    with open("file.xz", "wb") as f:
        f.write(b"This data will not be compressed\n")
        with lzma.open(f, "w") as lzf:
            lzf.write(b"This *will* be compressed\n")
        f.write(b"Not compressed\n")

 Creating a compressed file using a custom filter chain::

    import lzma
    my_filters = [
        {"id": lzma.FILTER_DELTA, "dist": 5},
        {"id": lzma.FILTER_LZMA2, "preset": 7 | lzma.PRESET_EXTREME},
    ]
    with lzma.open("file.xz", "w", filters=my_filters) as f:
        f.write(b"blah blah blah")
	:mod:`lzma` --- Compression using the LZMA algorithm
	====================================================

	.. module:: lzma
	:synopsis: A Python wrapper for the liblzma compression library.
	.. moduleauthor:: Nadeem Vawda <nadeem.vawda@gmail.com>
	.. sectionauthor:: Nadeem Vawda <nadeem.vawda@gmail.com>

	.. versionadded:: 3.3


	This module provides classes and convenience functions for compressing and
	decompressing data using the LZMA compression algorithm. Also included is a file
	interface supporting the ``.xz`` and legacy ``.lzma`` file formats used by the
	:program:`xz` utility, as well as raw compressed streams.

	The interface provided by this module is very similar to that of the :mod:`bz2`
	module. However, note that :class:`LZMAFile` is not thread-safe, unlike
	:class:`bz2.BZ2File`, so if you need to use a single :class:`LZMAFile` instance
	from multiple threads, it is necessary to protect it with a lock.


	.. exception:: LZMAError

	This exception is raised when an error occurs during compression or
	decompression, or while initializing the compressor/decompressor state.


	Reading and writing compressed files
	------------------------------------

	.. function:: open(filename, mode="rb", \*, format=None, check=-1, preset=None, filters=None, encoding=None, errors=None, newline=None)

	Open an LZMA-compressed file in binary or text mode, returning a :term:`file
	object`.

	The filename argument can be either an actual file name (given as a
	:class:`str` or :class:`bytes` object), in which case the named file is
	opened, or it can be an existing file object to read from or write to.

	The mode argument can be any of ``"r"``, ``"rb"``, ``"w"``, ``"wb"``,
	``"x"``, ``"xb"``, ``"a"`` or ``"ab"`` for binary mode, or ``"rt"``,
	``"wt"``, ``"xt"``, or ``"at"`` for text mode. The default is ``"rb"``.

	When opening a file for reading, the format and filters arguments have
	the same meanings as for :class:`LZMADecompressor`. In this case, the check
	and preset arguments should not be used.

	When opening a file for writing, the format, check, preset and
	filters arguments have the same meanings as for :class:`LZMACompressor`.

	For binary mode, this function is equivalent to the :class:`LZMAFile`
	constructor: ``LZMAFile(filename, mode, ...)``. In this case, the encoding,
	errors and newline arguments must not be provided.

	For text mode, a :class:`LZMAFile` object is created, and wrapped in an
	:class:`io.TextIOWrapper` instance with the specified encoding, error
	handling behavior, and line ending(s).

	.. versionchanged:: 3.4
	Added support for the ``"x"``, ``"xb"`` and ``"xt"`` modes.


	.. class:: LZMAFile(filename=None, mode="r", \*, format=None, check=-1, preset=None, filters=None)

	Open an LZMA-compressed file in binary mode.

	An :class:`LZMAFile` can wrap an already-open :term:`file object`, or operate
	directly on a named file. The filename argument specifies either the file
	object to wrap, or the name of the file to open (as a :class:`str` or
	:class:`bytes` object). When wrapping an existing file object, the wrapped
	file will not be closed when the :class:`LZMAFile` is closed.

	The mode argument can be either ``"r"`` for reading (default), ``"w"`` for
	overwriting, ``"x"`` for exclusive creation, or ``"a"`` for appending. These
	can equivalently be given as ``"rb"``, ``"wb"``, ``"xb"`` and ``"ab"``
	respectively.

	If filename is a file object (rather than an actual file name), a mode of
	``"w"`` does not truncate the file, and is instead equivalent to ``"a"``.

	When opening a file for reading, the input file may be the concatenation of
	multiple separate compressed streams. These are transparently decoded as a
	single logical stream.

	When opening a file for reading, the format and filters arguments have
	the same meanings as for :class:`LZMADecompressor`. In this case, the check
	and preset arguments should not be used.

	When opening a file for writing, the format, check, preset and
	filters arguments have the same meanings as for :class:`LZMACompressor`.

	:class:`LZMAFile` supports all the members specified by
	:class:`io.BufferedIOBase`, except for :meth:`detach` and :meth:`truncate`.
	Iteration and the :keyword:`with` statement are supported.

	The following method is also provided:

	.. method:: peek(size=-1)

	Return buffered data without advancing the file position. At least one
	byte of data will be returned, unless EOF has been reached. The exact
	number of bytes returned is unspecified (the size argument is ignored).

	.. note:: While calling :meth:`peek` does not change the file position of
	the :class:`LZMAFile`, it may change the position of the underlying
	file object (e.g. if the :class:`LZMAFile` was constructed by passing a
	file object for filename).

	.. versionchanged:: 3.4
	Added support for the ``"x"`` and ``"xb"`` modes.


	Compressing and decompressing data in memory
	--------------------------------------------

	.. class:: LZMACompressor(format=FORMAT_XZ, check=-1, preset=None, filters=None)

	Create a compressor object, which can be used to compress data incrementally.

	For a more convenient way of compressing a single chunk of data, see
	:func:`compress`.

	The format argument specifies what container format should be used.
	Possible values are:

	* :const:`FORMAT_XZ`: The ``.xz`` container format.
	This is the default format.

	* :const:`FORMAT_ALONE`: The legacy ``.lzma`` container format.
	This format is more limited than ``.xz`` -- it does not support integrity
	checks or multiple filters.

	* :const:`FORMAT_RAW`: A raw data stream, not using any container format.
	This format specifier does not support integrity checks, and requires that
	you always specify a custom filter chain (for both compression and
	decompression). Additionally, data compressed in this manner cannot be
	decompressed using :const:`FORMAT_AUTO` (see :class:`LZMADecompressor`).

	The check argument specifies the type of integrity check to include in the
	compressed data. This check is used when decompressing, to ensure that the
	data has not been corrupted. Possible values are:

	* :const:`CHECK_NONE`: No integrity check.
	This is the default (and the only acceptable value) for
	:const:`FORMAT_ALONE` and :const:`FORMAT_RAW`.

	* :const:`CHECK_CRC32`: 32-bit Cyclic Redundancy Check.

	* :const:`CHECK_CRC64`: 64-bit Cyclic Redundancy Check.
	This is the default for :const:`FORMAT_XZ`.

	* :const:`CHECK_SHA256`: 256-bit Secure Hash Algorithm.

	If the specified check is not supported, an :class:`LZMAError` is raised.

	The compression settings can be specified either as a preset compression
	level (with the preset argument), or in detail as a custom filter chain
	(with the filters argument).

	The preset argument (if provided) should be an integer between ``0`` and
	``9`` (inclusive), optionally OR-ed with the constant
	:const:`PRESET_EXTREME`. If neither preset nor filters are given, the
	default behavior is to use :const:`PRESET_DEFAULT` (preset level ``6``).
	Higher presets produce smaller output, but make the compression process
	slower.

	.. note::

	In addition to being more CPU-intensive, compression with higher presets
	also requires much more memory (and produces output that needs more memory
	to decompress). With preset ``9`` for example, the overhead for an
	:class:`LZMACompressor` object can be as high as 800 MiB. For this reason,
	it is generally best to stick with the default preset.

	The filters argument (if provided) should be a filter chain specifier.
	See :ref:`filter-chain-specs` for details.

	.. method:: compress(data)

	Compress data (a :class:`bytes` object), returning a :class:`bytes`
	object containing compressed data for at least part of the input. Some of
	data may be buffered internally, for use in later calls to
	:meth:`compress` and :meth:`flush`. The returned data should be
	concatenated with the output of any previous calls to :meth:`compress`.

	.. method:: flush()

	Finish the compression process, returning a :class:`bytes` object
	containing any data stored in the compressor's internal buffers.

	The compressor cannot be used after this method has been called.


	.. class:: LZMADecompressor(format=FORMAT_AUTO, memlimit=None, filters=None)

	Create a decompressor object, which can be used to decompress data
	incrementally.

	For a more convenient way of decompressing an entire compressed stream at
	once, see :func:`decompress`.

	The format argument specifies the container format that should be used. The
	default is :const:`FORMAT_AUTO`, which can decompress both ``.xz`` and
	``.lzma`` files. Other possible values are :const:`FORMAT_XZ`,
	:const:`FORMAT_ALONE`, and :const:`FORMAT_RAW`.

	The memlimit argument specifies a limit (in bytes) on the amount of memory
	that the decompressor can use. When this argument is used, decompression will
	fail with an :class:`LZMAError` if it is not possible to decompress the input
	within the given memory limit.

	The filters argument specifies the filter chain that was used to create
	the stream being decompressed. This argument is required if format is
	:const:`FORMAT_RAW`, but should not be used for other formats.
	See :ref:`filter-chain-specs` for more information about filter chains.

	.. note::
	This class does not transparently handle inputs containing multiple
	compressed streams, unlike :func:`decompress` and :class:`LZMAFile`. To
	decompress a multi-stream input with :class:`LZMADecompressor`, you must
	create a new decompressor for each stream.

	.. method:: decompress(data)

	Decompress data (a :class:`bytes` object), returning a :class:`bytes`
	object containing the decompressed data for at least part of the input.
	Some of data may be buffered internally, for use in later calls to
	:meth:`decompress`. The returned data should be concatenated with the
	output of any previous calls to :meth:`decompress`.

	.. attribute:: check

	The ID of the integrity check used by the input stream. This may be
	:const:`CHECK_UNKNOWN` until enough of the input has been decoded to
	determine what integrity check it uses.

	.. attribute:: eof

	``True`` if the end-of-stream marker has been reached.

	.. attribute:: unused_data

	Data found after the end of the compressed stream.

	Before the end of the stream is reached, this will be ``b""``.


	.. function:: compress(data, format=FORMAT_XZ, check=-1, preset=None, filters=None)

	Compress data (a :class:`bytes` object), returning the compressed data as a
	:class:`bytes` object.

	See :class:`LZMACompressor` above for a description of the format, check,
	preset and filters arguments.


	.. function:: decompress(data, format=FORMAT_AUTO, memlimit=None, filters=None)

	Decompress data (a :class:`bytes` object), returning the uncompressed data
	as a :class:`bytes` object.

	If data is the concatenation of multiple distinct compressed streams,
	decompress all of these streams, and return the concatenation of the results.

	See :class:`LZMADecompressor` above for a description of the format,
	memlimit and filters arguments.


	Miscellaneous
	-------------

	.. function:: is_check_supported(check)

	Returns true if the given integrity check is supported on this system.

	:const:`CHECK_NONE` and :const:`CHECK_CRC32` are always supported.
	:const:`CHECK_CRC64` and :const:`CHECK_SHA256` may be unavailable if you are
	using a version of :program:`liblzma` that was compiled with a limited
	feature set.


	.. _filter-chain-specs:

	Specifying custom filter chains
	-------------------------------

	A filter chain specifier is a sequence of dictionaries, where each dictionary
	contains the ID and options for a single filter. Each dictionary must contain
	the key ``"id"``, and may contain additional keys to specify filter-dependent
	options. Valid filter IDs are as follows:

	* Compression filters:
	* :const:`FILTER_LZMA1` (for use with :const:`FORMAT_ALONE`)
	* :const:`FILTER_LZMA2` (for use with :const:`FORMAT_XZ` and :const:`FORMAT_RAW`)

	* Delta filter:
	* :const:`FILTER_DELTA`

	* Branch-Call-Jump (BCJ) filters:
	* :const:`FILTER_X86`
	* :const:`FILTER_IA64`
	* :const:`FILTER_ARM`
	* :const:`FILTER_ARMTHUMB`
	* :const:`FILTER_POWERPC`
	* :const:`FILTER_SPARC`

	A filter chain can consist of up to 4 filters, and cannot be empty. The last
	filter in the chain must be a compression filter, and any other filters must be
	delta or BCJ filters.

	Compression filters support the following options (specified as additional
	entries in the dictionary representing the filter):

	* ``preset``: A compression preset to use as a source of default values for
	options that are not specified explicitly.
	* ``dict_size``: Dictionary size in bytes. This should be between 4 KiB and
	1.5 GiB (inclusive).
	* ``lc``: Number of literal context bits.
	* ``lp``: Number of literal position bits. The sum ``lc + lp`` must be at
	most 4.
	* ``pb``: Number of position bits; must be at most 4.
	* ``mode``: :const:`MODE_FAST` or :const:`MODE_NORMAL`.
	* ``nice_len``: What should be considered a "nice length" for a match.
	This should be 273 or less.
	* ``mf``: What match finder to use -- :const:`MF_HC3`, :const:`MF_HC4`,
	:const:`MF_BT2`, :const:`MF_BT3`, or :const:`MF_BT4`.
	* ``depth``: Maximum search depth used by match finder. 0 (default) means to
	select automatically based on other filter options.

	The delta filter stores the differences between bytes, producing more repetitive
	input for the compressor in certain circumstances. It only supports a single
	The delta filter supports only one option, ``dist``. This indicates the distance
	between bytes to be subtracted. The default is 1, i.e. take the differences
	between adjacent bytes.

	The BCJ filters are intended to be applied to machine code. They convert
	relative branches, calls and jumps in the code to use absolute addressing, with
	the aim of increasing the redundancy that can be exploited by the compressor.
	These filters support one option, ``start_offset``. This specifies the address
	that should be mapped to the beginning of the input data. The default is 0.


	Examples
	--------

	Reading in a compressed file::

	import lzma
	with lzma.open("file.xz") as f:
	file_content = f.read()

	Creating a compressed file::

	import lzma
	data = b"Insert Data Here"
	with lzma.open("file.xz", "w") as f:
	f.write(data)

	Compressing data in memory::

	import lzma
	data_in = b"Insert Data Here"
	data_out = lzma.compress(data_in)

	Incremental compression::

	import lzma
	lzc = lzma.LZMACompressor()
	out1 = lzc.compress(b"Some data\n")
	out2 = lzc.compress(b"Another piece of data\n")
	out3 = lzc.compress(b"Even more data\n")
	out4 = lzc.flush()
	# Concatenate all the partial results:
	result = b"".join([out1, out2, out3, out4])

	Writing compressed data to an already-open file::

	import lzma
	with open("file.xz", "wb") as f:
	f.write(b"This data will not be compressed\n")
	with lzma.open(f, "w") as lzf:
	lzf.write(b"This will be compressed\n")
	f.write(b"Not compressed\n")

	Creating a compressed file using a custom filter chain::

	import lzma
	my_filters = [
	{"id": lzma.FILTER_DELTA, "dist": 5},
	{"id": lzma.FILTER_LZMA2, "preset": 7 \| lzma.PRESET_EXTREME},
	]
	with lzma.open("file.xz", "w", filters=my_filters) as f:
	f.write(b"blah blah blah")