Utilities to read/write Python types to/from HDF5 files, including MATLAB v7.3 MAT files.
Project description
Overview
This Python package provides high level utilities to read/write a variety of Python types to/from HDF5 (Heirarchal Data Format) formatted files. This package also provides support for MATLAB MAT v7.3 formatted files, which are just HDF5 files with a different extension and some extra meta-data.
All of this is done without pickling data. Pickling is bad for security because it allows arbitrary code to be executed in the interpreter. One wants to be able to read possibly HDF5 and MAT files from untrusted sources, so pickling is avoided in this package.
The package’s documetation is found at http://pythonhosted.org/hdf5storage/
The package’s source code is found at https://github.com/frejanordsiek/hdf5storage
The package is licensed under a 2-clause BSD license (https://github.com/frejanordsiek/hdf5storage/blob/master/COPYING.txt).
Installation
Dependencies
This package only supports Python >= 2.6.
This package requires the numpy and h5py (>= 2.1) packages to run. Note that full functionality requires h5py >= 2.3. An optional dependency is the scipy package.
Installing by pip
This package is on PyPI. To install hdf5storage using pip, run the command:
pip install hdf5storage
Installing from Source
To install hdf5storage from source, download the package and then install the dependencies
pip install -r requirements.txt
Then to install the package, run the command with Python
python setup.py install
Running Tests
For testing, the package nose (>= 1.0) is required as well as unittest2 on Python 2.6. There are some tests that require Matlab and scipy to be installed and be in the executable path. Not having them means that those tests cannot be run (they will be skipped) but all the other tests will run. To install all testing dependencies, other than scipy, run
pip install -r requirements_tests.txt.
To run the tests
python setup.py nosetests
Building Documentation
The documentation additionally requires sphinx (>= 1.7). The documentation dependencies can be installed by
pip install -r requirements_doc.txt
To build the documentation
python setup.py build_sphinx
Python 2
This package was designed and written for Python 3, with Python 2.7 and 2.6 support added later. This does mean that a few things are a little clunky in Python 2. Examples include requiring unicode keys for dictionaries, the int and long types both being mapped to the Python 3 int type, etc. The storage format’s metadata looks more familiar from a Python 3 standpoint as well.
The documentation is written in terms of Python 3 syntax and types primarily. Important Python 2 information beyond direct translations of syntax and types will be pointed out.
Hierarchal Data Format 5 (HDF5)
HDF5 files (see http://www.hdfgroup.org/HDF5/) are a commonly used file format for exchange of numerical data. It has built in support for a large variety of number formats (un/signed integers, floating point numbers, strings, etc.) as scalars and arrays, enums and compound types. It also handles differences in data representation on different hardware platforms (endianness, different floating point formats, etc.). As can be imagined from the name, data is represented in an HDF5 file in a hierarchal form modelling a Unix filesystem (Datasets are equivalent to files, Groups are equivalent to directories, and links are supported).
This package interfaces HDF5 files using the h5py package (http://www.h5py.org/) as opposed to the PyTables package (http://www.pytables.org/).
MATLAB MAT v7.3 file support
MATLAB (http://www.mathworks.com/) MAT files version 7.3 and later are HDF5 files with a different file extension (.mat) and a very specific set of meta-data and storage conventions. This package provides read and write support for a limited set of Python and MATLAB types.
SciPy (http://scipy.org/) has functions to read and write the older MAT file formats. This package has functions modeled after the scipy.io.savemat and scipy.io.loadmat functions, that have the same names and similar arguments. The dispatch to the SciPy versions if the MAT file format is not an HDF5 based one.
Supported Types
The supported Python and MATLAB types are given in the tables below. The tables assume that one has imported collections and numpy as:
import collections as cl import numpy as np
The table gives which Python types can be read and written, the first version of this package to support it, the numpy type it gets converted to for storage (if type information is not written, that will be what it is read back as) the MATLAB class it becomes if targetting a MAT file, and the first version of this package to support writing it so MATlAB can read it.
Python |
MATLAB |
|||
---|---|---|---|---|
Type |
Version |
Converted to |
Class |
Version |
bool |
0.1 |
np.bool_ or np.uint8 |
logical |
0.1 [1] |
None |
0.1 |
np.float64([]) |
[] |
0.1 |
0.1 |
np.int64 [2] |
int64 |
0.1 |
|
0.1 |
np.int64 |
int64 |
0.1 |
|
float |
0.1 |
np.float64 |
double |
0.1 |
complex |
0.1 |
np.complex128 |
double |
0.1 |
str |
0.1 |
np.uint32/16 |
char |
0.1 [5] |
bytes |
0.1 |
np.bytes_ or np.uint16 |
char |
0.1 [6] |
bytearray |
0.1 |
np.bytes_ or np.uint16 |
char |
0.1 [6] |
list |
0.1 |
np.object_ |
cell |
0.1 |
tuple |
0.1 |
np.object_ |
cell |
0.1 |
set |
0.1 |
np.object_ |
cell |
0.1 |
frozenset |
0.1 |
np.object_ |
cell |
0.1 |
cl.deque |
0.1 |
np.object_ |
cell |
0.1 |
dict |
0.1 |
struct |
0.1 [7] |
|
np.bool_ |
0.1 |
logical |
0.1 |
|
np.void |
0.1 |
|||
np.uint8 |
0.1 |
uint8 |
0.1 |
|
np.uint16 |
0.1 |
uint16 |
0.1 |
|
np.uint32 |
0.1 |
uint32 |
0.1 |
|
np.uint64 |
0.1 |
uint64 |
0.1 |
|
np.uint8 |
0.1 |
int8 |
0.1 |
|
np.int16 |
0.1 |
int16 |
0.1 |
|
np.int32 |
0.1 |
int32 |
0.1 |
|
np.int64 |
0.1 |
int64 |
0.1 |
|
np.float16 [8] |
0.1 |
|||
np.float32 |
0.1 |
single |
0.1 |
|
np.float64 |
0.1 |
double |
0.1 |
|
np.complex64 |
0.1 |
single |
0.1 |
|
np.complex128 |
0.1 |
double |
0.1 |
|
np.str_ |
0.1 |
np.uint32/16 |
char/uint32 |
0.1 [5] |
np.bytes_ |
0.1 |
np.bytes_ or np.uint16 |
char |
0.1 [6] |
np.object_ |
0.1 |
cell |
0.1 |
|
np.ndarray |
0.1 |
|||
np.matrix |
0.1 |
0.1 [9] |
||
np.chararray |
0.1 |
0.1 [9] |
||
np.recarray |
0.1 |
structured np.ndarray |
0.1 [9] |
This table gives the MATLAB classes that can be read from a MAT file, the first version of this package that can read them, and the Python type they are read as.
MATLAB Class |
Version |
Python Type |
---|---|---|
logical |
0.1 |
np.bool_ |
single |
0.1 |
np.float32 or np.complex64 [12] |
double |
0.1 |
np.float64 or np.complex128 [12] |
uint8 |
0.1 |
np.uint8 |
uint16 |
0.1 |
np.uint16 |
uint32 |
0.1 |
np.uint32 |
uint64 |
0.1 |
np.uint64 |
int8 |
0.1 |
np.int8 |
int16 |
0.1 |
np.int16 |
int32 |
0.1 |
np.int32 |
int64 |
0.1 |
np.int64 |
char |
0.1 |
np.str_ |
struct |
0.1 |
structured np.ndarray |
cell |
0.1 |
np.object_ |
canonical empty |
0.1 |
np.float64([]) |
Depends on whether there is a complex part or not.
File Incompatibilities
The storage of empty numpy.ndarray (or objects that would be stored like one) when the Options.store_shape_for_empty (implicitly set when Matlab compatibility is enabled) is incompatible with both Matlab and the main branch of this package after 2021-07-11 due to a bug (Issue #114) that cannot be fixed without breaking compatibility in the 0.1.x series and thus will not be fixed (it is however fixed in the main branch after 2021-07-11) since such a fix would mean the version could not be of the form 0.1.x.
The incompatibility is caused by storing the array shape in the Dataset after reversing the dimension order instead of before, meaning that the array is read with its dimensions reversed from what is expected if read by Matlab or the main branch after 2021-07-11.
Versions
- 0.1.19. Bugfix release.
Issue #122 and #124. Replaced use of deprecated numpy.asscalar functions with the numpy.ndarray.item method.
Issue #123. Forced the use of English month and day of the week names in the HDF5 header for MATLAB compatibility.
Issue #125. Fixed accidental collection of pkg_resources.parse_version from setuptools as a Marshaller now that it is a class.
- 0.1.18. Performance improving release.
Pull Request #111 from Daniel Hrisca. Many repeated calls to the __getitem__ methods of objects were turned into single calls.
Further reducionts in __getitem__ calls in the spirit of PR #111.
- 0.1.17. Bugfix and deprecation workaround release that fixed the following.
Issue #109. Fixed the fix Issue #102 for 32-bit platforms (previous fix was segfaulting).
Moved to using pkg_resources.parse_version from setuptools with distutils.version classes as a fallback instead of just the later to prepare for the removal of distutils (PEP 632) and prevent warnings on Python versions where it is marked as deprecated.
Issue #110. Changed all uses of the tostring method on numpy types to using tobytes if available, with tostring as the fallback for old versions of numpy where it is not.
- 0.1.16. Bugfix release that fixed the following bugs.
Issue #81 and #82. h5py.File will require the mode to be passed explicitly in the future. All calls without passing it were fixed to pass it.
Issue #102. Added support for h5py 3.0 and 3.1.
Issue #73. Fixed bug where a missing variable in loadmat would cause the function to think that the file is a pre v7.3 format MAT file fall back to scipy.io.loadmat which won’t work since the file is a v7.3 format MAT file.
Fixed formatting issues in the docstrings and the documentation that prevented the documentation from building.
- 0.1.15. Bugfix release that fixed the following bugs.
Issue #68. Fixed bug where str and numpy.unicode_ strings (but not ndarrays of them) were saved in uint32 format regardless of the value of Options.convert_numpy_bytes_to_utf16.
Issue #70. Updated setup.py and requirements.txt to specify the maximum versions of numpy and h5py that can be used for specific python versions (avoid version with dropped support).
Issue #71. Fixed bug where the 'python_fields' attribute wouldn’t always be written when doing python metadata for data written in a struct-like fashion. The bug caused the field order to not be preserved when writing and reading.
Fixed an assertion in the tests to handle field re-ordering when no metadata is used for structured dtypes that only worked on older versions of numpy.
Issue #72. Fixed bug where python collections filled with ndarrays that all have the same shape were converted to multi-dimensional object ndarrays instead of a 1D object ndarray of the elements.
- 0.1.14. Bugfix release that also added a couple features.
Issue #45. Fixed syntax errors in unicode strings for Python 3.0 to 3.2.
Issues #44 and #47. Fixed bugs in testing of conversion and storage of string types.
Issue #46. Fixed raising of RuntimeWarnings in tests due to signalling NaNs.
Added requirements files for building documentation and running tests.
Made it so that Matlab compatability tests are skipped if Matlab is not found, instead of raising errors.
- 0.1.13. Bugfix release fixing the following bug.
Issue #36. Fixed bugs in writing int and long to HDF5 and their tests on 32 bit systems.
- 0.1.12. Bugfix release fixing the following bugs. In addition, copyright years were also updated and notices put in the Matlab files used for testing.
Issue #32. Fixed transposing before reshaping np.ndarray when reading from HDF5 files where python metadata was stored but not Matlab metadata.
Issue #33. Fixed the loss of the number of characters when reading empty numpy string arrays.
Issue #34. Fixed a conversion error when np.chararray are written with Matlab metadata.
- 0.1.11. Bugfix release fixing the following.
Issue #30. Fixed loadmat not opening files in read mode.
- 0.1.10. Minor feature/performance fix release doing the following.
Issue #29. Added writes and reads functions to write and read more than one piece of data at a time and made savemat and loadmat use them to increase performance. Previously, the HDF5 file was being opened and closed for each piece of data, which impacted performance, especially for large files.
- 0.1.9. Bugfix and minor feature release doing the following.
Issue #23. Fixed bug where a structured np.ndarray with a field name of 'O' could never be written as an HDF5 COMPOUND Dataset (falsely thought a field’s dtype was object).
Issue #6. Added optional data compression and the storage of data checksums. Controlled by several new options.
- 0.1.8. Bugfix release fixing the following two bugs.
Issue #21. Fixed bug where the 'MATLAB_class' Attribute is not set when writing dict types when writing MATLAB metadata.
Issue #22. Fixed bug where null characters ('\x00') and forward slashes ('/') were allowed in dict keys and the field names of structured np.ndarray (except that forward slashes are allowed when the structured_numpy_ndarray_as_struct is not set as is the case when the matlab_compatible option is set). These cause problems for the h5py package and the HDF5 library. NotImplementedError is now thrown in these cases.
- 0.1.7. Bugfix release with an added compatibility option and some added test code. Did the following.
Fixed an issue reading variables larger than 2 GB in MATLAB MAT v7.3 files when no explicit variable names to read are given to hdf5storage.loadmat. Fix also reduces memory consumption and processing time a little bit by removing an unneeded memory copy.
Options now will accept any additional keyword arguments it doesn’t support, ignoring them, to be API compatible with future package versions with added options.
Added tests for reading data that has been compressed or had other HDF5 filters applied.
0.1.6. Bugfix release fixing a bug with determining the maximum size of a Python 2.x int on a 32-bit system.
- 0.1.5. Bugfix release fixing the following bug.
Fixed bug where an int could be stored that is too big to fit into an int when read back in Python 2.x. When it is too big, it is converted to a long.
Fixed a bug where an int or long that is too big to big to fit into an np.int64 raised the wrong exception.
Fixed bug where fields names for structured np.ndarray with non-ASCII characters (assumed to be UTF-8 encoded in Python 2.x) can’t be read or written properly.
Fixed bug where np.bytes_ with non-ASCII characters can were converted incorrectly to UTF-16 when that option is set (set implicitly when doing MATLAB compatibility). Now, it throws a NotImplementedError.
- 0.1.4. Bugfix release fixing the following bugs. Thanks goes to mrdomino for writing the bug fixes.
Fixed bug where dtype is used as a keyword parameter of np.ndarray.astype when it is a positional argument.
Fixed error caused by h5py.__version__ being absent on Ubuntu 12.04.
- 0.1.3. Bugfix release fixing the following bug.
Fixed broken ability to correctly read and write empty structured np.ndarray (has fields).
- 0.1.2. Bugfix release fixing the following bugs.
Removed mistaken support for np.float16 for h5py versions before 2.2 since that was when support for it was introduced.
Structured np.ndarray where one or more fields is of the 'object' dtype can now be written without an error when the structured_numpy_ndarray_as_struct option is not set. They are written as an HDF5 Group, as if the option was set.
Support for the 'MATLAB_fields' Attribute for data types that are structures in MATLAB has been added for when the version of the h5py package being used is 2.3 or greater. Support is still missing for earlier versions (this package requires a minimum version of 2.1).
The check for non-unicode string keys (str in Python 3 and unicode in Python 2) in the type dict is done right before any changes are made to the HDF5 file instead of in the middle so that no changes are applied if an invalid key is present.
HDF5 userblock set with the proper metadata for MATLAB support right at the beginning of when data is being written to an HDF5 file instead of at the end, meaning the writing can crash and the file will still be a valid MATLAB file.
- 0.1.1. Bugfix release fixing the following bugs.
str is now written like numpy.str_ instead of numpy.bytes_.
Complex numbers where the real or imaginary part are nan but the other part are not are now read correctly as opposed to setting both parts to nan.
Fixed bugs in string conversions on Python 2 resulting from str.decode() and unicode.encode() not taking the same keyword arguments as in Python 3.
MATLAB structure arrays can now be read without producing an error on Python 2.
numpy.str_ now written as numpy.uint16 on Python 2 if the convert_numpy_str_to_utf16 option is set and the conversion can be done without using UTF-16 doublets, instead of always writing them as numpy.uint32.
0.1. Initial version.
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