HDF5 is a file format and library for storing and accessing data, commonly used for scientific data. HDF5 files can be created and read by numerous programming languages. This package provides an interface to the HDF5 library for the Julia language.
The core HDF5 functionality is the foundation for two special-purpose packages, used to read and write HDF5 files with specific formatting conventions. The first is the JLD ("Julia data") package, which implements a generic mechanism for reading and writing Julia variables. While one can use "plain" HDF5 for this purpose, the advantage of the JLD package is that it preserves the exact type information of each variable.
The other functionality provided through HDF5 is the ability to read and write Matlab *.mat files saved as "-v7.3". The Matlab-specific portions have been moved to Simon Kornblith's MAT.jl package.
Within Julia, use the package manager:
Pkg.add("HDF5")
You also need to have the HDF5 library installed on your system (version 1.8 or higher is required), but for most users no additional steps should be required; the HDF5 library should be installed for you automatically when you add the package.
If you have to install the HDF5 library manually, here are some examples of how to do it:
- Debian/(K)Ubuntu:
apt-get -u install hdf5-tools
- OSX:
brew tap homebrew/science; brew install hdf5
(using Homebrew) - Windows: It is highly recommended that you use the HDF5 library fetched by this package. Other HDF5 binaries may be compiled against a different C runtime from the Julia binary, which will cause Julia to crash when freeing memory allocated by libhdf5.
If you've installed the library but discover that Julia is not finding
it, you can add the path to Julia's Libdl.DL_LOAD_PATH
variable, e.g.,
push!(Libdl.DL_LOAD_PATH, "/opt/local/lib")
Pkg.build("HDF5")
Inserting this command into your .juliarc.jl
file will cause this to
happen automatically each time you start Julia.
If you're on Linux but you do not have root privileges on your machine (and you can't persuade the sysadmin to install the libraries for you), you can download the binaries and place them somewhere in your home directory. To use HDF5, you'll have to start julia as
LD_LIBRARY_PATH=/path/to/hdf5/libs julia
You can set up an alias so this happens for you automatically each time you start julia.
Begin your code with
using HDF5
To read and write a variable to a file, one approach is to use the filename:
A = collect(reshape(1:120, 15, 8))
h5write("/tmp/test2.h5", "mygroup2/A", A)
data = h5read("/tmp/test2.h5", "mygroup2/A", (2:3:15, 3:5))
where the last line reads back just A[2:3:15, 3:5]
from the dataset.
More fine-grained control can be obtained using functional syntax:
h5open("mydata.h5", "w") do file
write(file, "A", A) # alternatively, say "@write file A"
end
c = h5open("mydata.h5", "r") do file
read(file, "A")
end
This allows you to add variables as they are generated to an open HDF5 file.
You don't have to use the do
syntax (file = h5open("mydata.h5", "w")
works
just fine), but an advantage is that it will automatically close the file (close(file)
)
for you, even in cases of error.
Julia's high-level wrapper, providing a dictionary-like interface, may also be of interest:
using HDF5
h5open("test.h5", "w") do file
g = g_create(file, "mygroup") # create a group
g["dset1"] = 3.2 # create a scalar dataset inside the group
attrs(g)["Description"] = "This group contains only a single dataset" # an attribute
end
Convenience functions for attributes attached to datasets are also provided:
A = Vector{Int}(1:10)
h5write("bar.h5", "foo", A)
h5writeattr("bar.h5", "foo", Dict("c"=>"value for metadata parameter c","d"=>"metadata d"))
h5readattr("bar.h5", "foo")
There is no conflict in having multiple modules (HDF5, JLD, and MAT) available simultaneously; the formatting of the file is determined by the open command.
The HDF5 API is much more extensive than suggested by this brief
introduction. More complete documentation is found in the
doc
directory.
The test
directory contains a number of test scripts that also
demonstrate usage.
-
Konrad Hinsen initiated Julia's support for HDF5
-
Tim Holy and Simon Kornblith (co-maintainers and primary authors)
-
Tom Short contributed code and ideas to the dictionary-like interface
-
Blake Johnson made several improvements, such as support for iterating over attributes
-
Isaiah Norton and Elliot Saba improved installation on Windows and OSX
-
Steve Johnson contributed the
do
syntax and Blosc compression -
Mike Nolta and Jameson Nash contributed code or suggestions for improving the handling of HDF5's constants
-
Thanks also to the users who have reported bugs and tested fixes