Fast random access of gzip files in Python
The indexed_gzip
project is a Python extension which aims to provide a
drop-in replacement for the built-in Python gzip.GzipFile
class, the
IndexedGzipFile
.
indexed_gzip
was written to allow fast random access of compressed
NIFTI image files (for which GZIP is the
de-facto compression standard), but will work with any GZIP file.
indexed_gzip
is easy to use with nibabel
(http://nipy.org/nibabel/).
The standard gzip.GzipFile
class exposes a random access-like interface (via
its seek
and read
methods), but every time you seek to a new point in the
uncompressed data stream, the GzipFile
instance has to start decompressing
from the beginning of the file, until it reaches the requested location.
An IndexedGzipFile
instance gets around this performance limitation by
building an index, which contains seek points, mappings between
corresponding locations in the compressed and uncompressed data streams. Each
seek point is accompanied by a chunk (32KB) of uncompressed data which is used
to initialise the decompression algorithm, allowing us to start reading from
any seek point. If the index is built with a seek point spacing of 1MB, we
only have to decompress (on average) 512KB of data to read from any location
in the file.
indexed_gzip
is available on PyPi - to
install, simply type:
pip install indexed_gzip
To compile indexed_gzip
, make sure you have cython
installed, and then run:
python setup.py build_ext --inplace
To run the tests, type the following; you will need numpy
and pytest
installed:
python setup.py test
You can use the indexed_gzip
module directly:
import indexed_gzip as igzip
# You can create an IndexedGzipFile instance
# by specifying a file name, or an open file
# handle. For the latter use, the file handle
# must be opened in read-only binary mode.
# Write support is currently non-existent.
myfile = igzip.IndexedGzipFile(filename='big_file.gz')
some_offset_into_uncompressed_data = 234195
# The index will be automatically
# built on-demand when seeking or
# reading.
myfile.seek(some_offset_into_uncompressed_data)
data = myfile.read(1048576)
Or you can use indexed_gzip
with nibabel
:
import nibabel as nib
import indexed_gzip as igzip
# Here we are usin 4MB spacing between
# seek points, and using a larger read
# buffer (than the default size of 16KB).
fobj = igzip.IndexedGzipFile(
filename='big_image.nii.gz',
spacing=4194304,
readbuf_size=131072)
# Create a nibabel image using
# the existing file handle.
fmap = nib.Nifti1Image.make_file_map()
fmap['image'].fileobj = fobj
image = nib.Nifti1Image.from_file_map(fmap)
# Use the image ArrayProxy to access the
# data - the index will automatically be
# built as data is accessed.
vol3 = image.dataobj[:, :, :, 3]
indexed_gzip
does not currently have any support for writing. Currently if you
wish to write to a file, you will need to save the file by alternate means (e.g.
via gzip
or nibabel
), and then re-create a new IndexedGzipFile
instance.
Building on the nibabel
example above:
# Load the entire image into memory
data = image.get_data()
# Make changes to the data
data[:, :, :, 5] *= 100
# Save the image using nibabel
nib.save(data, 'big_image.nii.gz')
# Re-create an IndexedGzipFile and
# Nifti1Image instance as above
fobj = igzip.IndexedGzipFile(...)
fmap = nib.Nifti1Image.make_file_map()
fmap['image'].fileobj = fobj
image = nib.Nifti1Image.from_file_map(fmap)
A small test script is included with indexed_gzip
;
this script compares the performance of the IndexedGzipFile
class with the
gzip.GzipFile
class. This script does the following:
-
Generates a specified number of seek locations, uniformly spaced throughout the input file.
-
Randomly shuffles these locations
-
Seeks to each location, and reads a chunk of data from the file.
This plot shows the results of this test for a few compresed files of varying sizes, with 1000 seeks:
The indexed_gzip
project is based upon the zran.c
example (written by Mark
Alder) which ships with the zlib source code.
indexed_gzip
was originally inspired by:
Z. Rajna, A. Keskinarkaus, V. Kiviniemi and T. Seppanen
"Speeding up the file access of large compressed NIfTI neuroimaging data"
Engineering in Medicine and Biology Society (EMBC), 2015 37th Annual
International Conference of the IEEE, Milan, 2015, pp. 654-657.
https://sourceforge.net/projects/libznzwithzindex/
Initial work on indexed_gzip
took place at
Brainhack Paris, at the Institut Pasteur,
24th-26th February 2016, with the support of the
FMRIB Centre, at the
University of Oxford, UK.
indexed_gzip
inherits the zlib license, available for
perusal in the LICENSE file.