gzip — Support for gzip files¶
This module provides a simple interface to compress and decompress files just like the GNU programs gzip and gunzip would.
The data compression is provided by the zlib module.
The gzip module provides the GzipFile class, as well as the open() , compress() and decompress() convenience functions. The GzipFile class reads and writes gzip-format files, automatically compressing or decompressing the data so that it looks like an ordinary file object .
Note that additional file formats which can be decompressed by the gzip and gunzip programs, such as those produced by compress and pack, are not supported by this module.
The module defines the following items:
gzip. open ( filename , mode = ‘rb’ , compresslevel = 9 , encoding = None , errors = None , newline = None ) ¶
Open a gzip-compressed file in binary or text mode, returning a file object .
The filename argument can be an actual filename (a str or bytes object), or an existing file object to read from or write to.
The mode argument can be any of ‘r’ , ‘rb’ , ‘a’ , ‘ab’ , ‘w’ , ‘wb’ , ‘x’ or ‘xb’ for binary mode, or ‘rt’ , ‘at’ , ‘wt’ , or ‘xt’ for text mode. The default is ‘rb’ .
The compresslevel argument is an integer from 0 to 9, as for the GzipFile constructor.
For binary mode, this function is equivalent to the GzipFile constructor: GzipFile(filename, mode, compresslevel) . In this case, the encoding, errors and newline arguments must not be provided.
For text mode, a GzipFile object is created, and wrapped in an io.TextIOWrapper instance with the specified encoding, error handling behavior, and line ending(s).
Changed in version 3.3: Added support for filename being a file object, support for text mode, and the encoding, errors and newline arguments.
Changed in version 3.4: Added support for the ‘x’ , ‘xb’ and ‘xt’ modes.
Changed in version 3.6: Accepts a path-like object .
An exception raised for invalid gzip files. It inherits OSError . EOFError and zlib.error can also be raised for invalid gzip files.
class gzip. GzipFile ( filename = None , mode = None , compresslevel = 9 , fileobj = None , mtime = None ) ¶
Constructor for the GzipFile class, which simulates most of the methods of a file object , with the exception of the truncate() method. At least one of fileobj and filename must be given a non-trivial value.
The new class instance is based on fileobj, which can be a regular file, an io.BytesIO object, or any other object which simulates a file. It defaults to None , in which case filename is opened to provide a file object.
When fileobj is not None , the filename argument is only used to be included in the gzip file header, which may include the original filename of the uncompressed file. It defaults to the filename of fileobj, if discernible; otherwise, it defaults to the empty string, and in this case the original filename is not included in the header.
The mode argument can be any of ‘r’ , ‘rb’ , ‘a’ , ‘ab’ , ‘w’ , ‘wb’ , ‘x’ , or ‘xb’ , depending on whether the file will be read or written. The default is the mode of fileobj if discernible; otherwise, the default is ‘rb’ . In future Python releases the mode of fileobj will not be used. It is better to always specify mode for writing.
Note that the file is always opened in binary mode. To open a compressed file in text mode, use open() (or wrap your GzipFile with an io.TextIOWrapper ).
The compresslevel argument is an integer from 0 to 9 controlling the level of compression; 1 is fastest and produces the least compression, and 9 is slowest and produces the most compression. 0 is no compression. The default is 9 .
The mtime argument is an optional numeric timestamp to be written to the last modification time field in the stream when compressing. It should only be provided in compression mode. If omitted or None , the current time is used. See the mtime attribute for more details.
Calling a GzipFile object’s close() method does not close fileobj, since you might wish to append more material after the compressed data. This also allows you to pass an io.BytesIO object opened for writing as fileobj, and retrieve the resulting memory buffer using the io.BytesIO object’s getvalue() method.
GzipFile supports the io.BufferedIOBase interface, including iteration and the with statement. Only the truncate() method isn’t implemented.
GzipFile also provides the following method and attribute:
Read n uncompressed bytes without advancing the file position. At most one single read on the compressed stream is done to satisfy the call. The number of bytes returned may be more or less than requested.
While calling peek() does not change the file position of the GzipFile , it may change the position of the underlying file object (e.g. if the GzipFile was constructed with the fileobj parameter).
When decompressing, the value of the last modification time field in the most recently read header may be read from this attribute, as an integer. The initial value before reading any headers is None .
All gzip compressed streams are required to contain this timestamp field. Some programs, such as gunzip, make use of the timestamp. The format is the same as the return value of time.time() and the st_mtime attribute of the object returned by os.stat() .
The path to the gzip file on disk, as a str or bytes . Equivalent to the output of os.fspath() on the original input path, with no other normalization, resolution or expansion.
Changed in version 3.1: Support for the with statement was added, along with the mtime constructor argument and mtime attribute.
Changed in version 3.2: Support for zero-padded and unseekable files was added.
Changed in version 3.3: The io.BufferedIOBase.read1() method is now implemented.
Changed in version 3.4: Added support for the ‘x’ and ‘xb’ modes.
Changed in version 3.5: Added support for writing arbitrary bytes-like objects . The read() method now accepts an argument of None .
Changed in version 3.6: Accepts a path-like object .
Deprecated since version 3.9: Opening GzipFile for writing without specifying the mode argument is deprecated.
Compress the data, returning a bytes object containing the compressed data. compresslevel and mtime have the same meaning as in the GzipFile constructor above. When mtime is set to 0 , this function is equivalent to zlib.compress() with wbits set to 31 . The zlib function is faster.
Changed in version 3.8: Added the mtime parameter for reproducible output.
Changed in version 3.11: Speed is improved by compressing all data at once instead of in a streamed fashion. Calls with mtime set to 0 are delegated to zlib.compress() for better speed.
Decompress the data, returning a bytes object containing the uncompressed data. This function is capable of decompressing multi-member gzip data (multiple gzip blocks concatenated together). When the data is certain to contain only one member the zlib.decompress() function with wbits set to 31 is faster.
Changed in version 3.11: Speed is improved by decompressing members at once in memory instead of in a streamed fashion.
Examples of usage¶
Example of how to read a compressed file:
import gzip with gzip.open('/home/joe/file.txt.gz', 'rb') as f: file_content = f.read()
Example of how to create a compressed GZIP file:
import gzip content = b"Lots of content here" with gzip.open('/home/joe/file.txt.gz', 'wb') as f: f.write(content)
Example of how to GZIP compress an existing file:
import gzip import shutil with open('/home/joe/file.txt', 'rb') as f_in: with gzip.open('/home/joe/file.txt.gz', 'wb') as f_out: shutil.copyfileobj(f_in, f_out)
Example of how to GZIP compress a binary string:
import gzip s_in = b"Lots of content here" s_out = gzip.compress(s_in)
The basic data compression module needed to support the gzip file format.
Command Line Interface¶
The gzip module provides a simple command line interface to compress or decompress files.
Once executed the gzip module keeps the input file(s).
Changed in version 3.8: Add a new command line interface with a usage. By default, when you will execute the CLI, the default compression level is 6.
Command line options¶
If file is not specified, read from sys.stdin .
Indicates the fastest compression method (less compression).
Indicates the slowest compression method (best compression).
Decompress the given file.
7 библиотек Python для сжатия и распаковки данных
С помощью Python можно работать с архивами: сжимать и распаковывать. Сегодня расскажем вам о 7 стандартных библиотках, которые помогут вам для работы со сжатием и архивированием. Читайте в этой статье: как сжать данные извлечь из zip, tar, bz2, xz с помощью Python.
Какие библиотеки есть в Python для сжатия данных
Одно из преимуществ Python — это наличие библиотек, которые решают чуть ли не все насущные проблемы. Так вот для сжатия данных в практически любой формат Python-библиотек огромное множество. К стандартным относятся следующие модули:
1) zlib служит для сжатия данных на основе алгоритма Deflate [1].
2) gzip использует уже алгоритм сжатия zlib и служит интерфейсом, аналогичным утилитам gzip и gunzip.
3) lzma использует алгоритм LZMA [2] для сжатия, поддерживает форматы xz и lzma.
4) shutil высокоуровневый модуль для работы с архивами разных форматов. Мы, кстати, использовали его тут.
5) bz2 служит для сжатия bzip2, алгоритм сжатия эффективнее вышеупомянутого Deflate, но работает медленней.
6) zipfile предназначен для работы с zip-файлами, причем модуль предоставляет возможность создавать, читать, записывать и добавлять в архив.
7) tarfile предназначен для работы с tar, поддерживает сжатия форматов gzip, bz2 и lzma.
Сжатие и распаковка данных
Если вам понадобилось сжать или распаковать данные, то уже по названию модуля можно понять, какой из них использовать. При этом они все со схожим интерфейсом. Рассмотрим библиотеку zlib. Она низкоуровневая, поэтому не часто используется. Для сжатия используется функция compress , для распаковки — decompress .
Для начала создадим бинарный файл размером 1 МБ и заполним его нулям с помощью псевдоустройства /dev/zero :
Для сжатия нужно указать level (уровень сжатия), которые также берутся из модуля zlib.
filename_in = "data" filename_out = "compressed" with open(filename_in, mode="rb") as fin: data = fin.read() with open(filename_out, mode="wb") as fout: compressed = zlib.compress(data, zlib.Z_BEST_COMPRESSION)
Размер получившегося архива равен 1024 байт. Иными словами, мы сжали данные в 3 раза. Распаковка архива выполняется схожим образом:
with open(filename_out, mode="rb") as fin: decompressed = zlib.decompress(fin.read())
Библиотека bz2 работает немного по-другому. У неё есть функция open , которая ведёт себя так же как и встроенная функция Python. Поэтому для сжатия требуется записать в файл, а для распаковки на чтение:
import bz2 filename_in = "data" filename_out = "compressed.bz2" # Compress with open(filename_in, mode="rb") as fin: data = fin.read() with bz2.open(filename_out, "wb") as fout: fout.write(data) # Decompress with bz2.open(filename_out, "rb") as fin: data = fin.read()
В результате файл bz2 имеет размер 48 байт, что даже лучше того, как сжимает zlib.
Читайте файлы порциями, когда данные большого размера
Файлы могут быть большими, поэтому читать всё сразу может не получиться. Для этого стоит использовать прочитывать порциями с помощью метода chunk . Рассмотрим его на примере библиотеки lzma. Вместо того чтобы сжимать/распаковывать бинарный файл, возьмём текстовый файл, например, HTML-файл с одной из статей данного сайта.