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h5netcdf

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A Python interface for the netCDF4 file-format that reads and writes local or remote HDF5 files directly via h5py or h5pyd, without relying on the Unidata netCDF library.

Why h5netcdf?

  • It has one less binary dependency (netCDF C). If you already have h5py installed, reading netCDF4 with h5netcdf may be much easier than installing netCDF4-Python.
  • We've seen occasional reports of better performance with h5py than netCDF4-python, though in many cases performance is identical. For one workflow, h5netcdf was reported to be almost 4x faster than netCDF4-python.
  • Anecdotally, HDF5 users seem to be unexcited about switching to netCDF -- hopefully this will convince them that netCDF4 is actually quite sane!
  • Finally, side-stepping the netCDF C library (and Cython bindings to it) gives us an easier way to identify the source of performance issues and bugs in the netCDF libraries/specification.

Install

Ensure you have a recent version of h5py installed (I recommend using conda or the community effort conda-forge). At least version 3.0 is required. Then:

$ pip install h5netcdf

Or if you are already using conda:

$ conda install h5netcdf

Note:

From version 1.2. h5netcdf tries to align with a nep29-like support policy with regard to it's upstream dependencies.

Usage

h5netcdf has two APIs, a new API and a legacy API. Both interfaces currently reproduce most of the features of the netCDF interface, with the notable exception of support for operations that rename or delete existing objects. We simply haven't gotten around to implementing this yet. Patches would be very welcome.

New API

The new API supports direct hierarchical access of variables and groups. Its design is an adaptation of h5py to the netCDF data model. For example:

import h5netcdf
import numpy as np

with h5netcdf.File('mydata.nc', 'w') as f:
    # set dimensions with a dictionary
    f.dimensions = {'x': 5}
    # and update them with a dict-like interface
    # f.dimensions['x'] = 5
    # f.dimensions.update({'x': 5})

    v = f.create_variable('hello', ('x',), float)
    v[:] = np.ones(5)

    # you don't need to create groups first
    # you also don't need to create dimensions first if you supply data
    # with the new variable
    v = f.create_variable('/grouped/data', ('y',), data=np.arange(10))

    # access and modify attributes with a dict-like interface
    v.attrs['foo'] = 'bar'

    # you can access variables and groups directly using a hierarchical
    # keys like h5py
    print(f['/grouped/data'])

    # add an unlimited dimension
    f.dimensions['z'] = None
    # explicitly resize a dimension and all variables using it
    f.resize_dimension('z', 3)

Notes:

  • Automatic resizing of unlimited dimensions with array indexing is not available.
  • Dimensions need to be manually resized with Group.resize_dimension(dimension, size).
  • Arrays are returned padded with fillvalue (taken from underlying hdf5 dataset) up to current size of variable's dimensions. The behaviour is equivalent to netCDF4-python's Dataset.set_auto_mask(False).

Legacy API

The legacy API is designed for compatibility with netCDF4-python. To use it, import h5netcdf.legacyapi:

import h5netcdf.legacyapi as netCDF4
# everything here would also work with this instead:
# import netCDF4
import numpy as np

with netCDF4.Dataset('mydata.nc', 'w') as ds:
    ds.createDimension('x', 5)
    v = ds.createVariable('hello', float, ('x',))
    v[:] = np.ones(5)

    g = ds.createGroup('grouped')
    g.createDimension('y', 10)
    g.createVariable('data', 'i8', ('y',))
    v = g['data']
    v[:] = np.arange(10)
    v.foo = 'bar'
    print(ds.groups['grouped'].variables['data'])

The legacy API is designed to be easy to try-out for netCDF4-python users, but it is not an exact match. Here is an incomplete list of functionality we don't include:

  • Utility functions chartostring, num2date, etc., that are not directly necessary for writing netCDF files.
  • h5netcdf variables do not support automatic masking or scaling (e.g., of values matching the _FillValue attribute). We prefer to leave this functionality to client libraries (e.g., xarray), which can implement their exact desired scaling behavior. Nevertheless arrays are returned padded with fillvalue (taken from underlying hdf5 dataset) up to current size of variable's dimensions. The behaviour is equivalent to netCDF4-python's Dataset.set_auto_mask(False).

Invalid netCDF files

h5py implements some features that do not (yet) result in valid netCDF files:

  • Data types:
    • Booleans
    • Complex values
    • Non-string variable length types
    • Reference types
  • Arbitrary filters:
    • Scale-offset filters

By default [1], h5netcdf will not allow writing files using any of these features, as files with such features are not readable by other netCDF tools.

However, these are still valid HDF5 files. If you don't care about netCDF compatibility, you can use these features by setting invalid_netcdf=True when creating a file:

# avoid the .nc extension for non-netcdf files
f = h5netcdf.File('mydata.h5', invalid_netcdf=True)
...

# works with the legacy API, too, though compression options are not exposed
ds = h5netcdf.legacyapi.Dataset('mydata.h5', invalid_netcdf=True)
...

In such cases the _NCProperties attribute will not be saved to the file or be removed from an existing file. A warning will be issued if the file has .nc-extension.

Footnotes

[1]h5netcdf we will raise h5netcdf.CompatibilityError.

Decoding variable length strings

h5py 3.0 introduced new behavior for handling variable length string. Instead of being automatically decoded with UTF-8 into NumPy arrays of str, they are required as arrays of bytes.

The legacy API preserves the old behavior of h5py (which matches netCDF4), and automatically decodes strings.

The new API matches h5py behavior. Explicitly set decode_vlen_strings=True in the h5netcdf.File constructor to opt-in to automatic decoding.

Datasets with missing dimension scales

By default [2] h5netcdf raises a ValueError if variables with no dimension scale associated with one of their axes are accessed. You can set phony_dims='sort' when opening a file to let h5netcdf invent phony dimensions according to netCDF behaviour.

# mimic netCDF-behaviour for non-netcdf files
f = h5netcdf.File('mydata.h5', mode='r', phony_dims='sort')
...

Note, that this iterates once over the whole group-hierarchy. This has affects on performance in case you rely on laziness of group access. You can set phony_dims='access' instead to defer phony dimension creation to group access time. The created phony dimension naming will differ from netCDF behaviour.

f = h5netcdf.File('mydata.h5', mode='r', phony_dims='access')
...

Footnotes

[2]Keyword default setting phony_dims=None for backwards compatibility.

Track Order

As of h5netcdf 1.1.0, if h5py 3.7.0 or greater is detected, the track_order parameter is set to True enabling order tracking for newly created netCDF4 files. This helps ensure that files created with the h5netcdf library can be modified by the netCDF4-c and netCDF4-python implementation used in other software stacks. Since this change should be transparent to most users, it was made without deprecation.

Since track_order is set at creation time, any dataset that was created with track_order=False (h5netcdf version 1.0.2 and older except for 0.13.0) will continue to opened with order tracker disabled.

The following describes the behavior of h5netcdf with respect to order tracking for a few key versions:

  • Version 0.12.0 and earlier, the track_order parameter`order was missing and thus order tracking was implicitely set to False.
  • Version 0.13.0 enabled order tracking by setting the parameter track_order to True by default without deprecation.
  • Versions 0.13.1 to 1.0.2 set track_order to False due to a bug in a core dependency of h5netcdf, h5py upstream bug which was resolved in h5py 3.7.0 with the help of the h5netcdf team.
  • In version 1.1.0, if h5py 3.7.0 or above is detected, the track_order parameter is set to True by default.

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