Writing packages that extend HyperSpy
New in version 1.5: External packages can extend HyperSpy by registering signals, components and widgets.
Warning
The mechanism to register extensions is in beta state. This means that it can change between minor and patch versions. Therefore, if you maintain a package that registers HyperSpy extensions, please verify that it works properly with any future HyperSpy release. We expect it to reach maturity with the release of HyperSpy 2.0.
External packages can extend HyperSpy by registering signals, components and widgets. Objects registered by external packages are “first-class citizens” i.e. they can be used, saved and loaded like any of those objects shipped with HyperSpy. Because of HyperSpy’s structure, we anticipate that most packages registering HyperSpy extensions will provide support for specific sorts of data.
Models can also be provided by external packages, but don’t need to
be registered. Instead, they are returned by the create_model
method of
the relevant hyperspy.signal.BaseSignal
subclass, see for example,
the hyperspy._signals.eds_tem.EDSTEM_mixin.create_model()
of the
EDSTEMSpectrum
.
It is good practice to add all packages that extend HyperSpy to the list of known extensions regardless of their maturity level. In this way, we can avoid duplication of efforts and issues arising from naming conflicts. This repository also runs an integration test suite daily, which runs the test suite of all extensions to check the status of the ecosystem. See the corresponding section for more details.
At this point, it is worth noting that HyperSpy’s main strength is its amazing community of users and developers. We trust that the developers of packages that extend HyperSpy will play by the same rules that have made the Python scientific ecosystem successful. In particular, avoiding duplication of efforts and being good community players by contributing code to the best matching project are essential for the sustainability of our open software ecosystem.
Registering extensions
In order to register HyperSpy extensions, you need to:
Add the following line to your package’s
setup.py
:entry_points={'hyperspy.extensions': 'your_package_name = your_package_name'},
Create a
hyperspy_extension.yaml
configuration file in your module’s root directory.Declare all new HyperSpy objects provided by your package in the
hyperspy_extension.yaml
file.
For a full example on how to create a package that extends HyperSpy, see the HyperSpy Sample Extension package.
Creating new HyperSpy BaseSignal subclasses
When and where to create a new BaseSignal
subclass
HyperSpy provides most of its functionality through the different
hyperspy.signal.BaseSignal
subclasses. A HyperSpy “signal” is a class that contains data for analysis
and functions to perform the analysis in the form of class methods. Functions
that are useful for the analysis of most datasets are in the
hyperspy.signal.BaseSignal
class. All other functions are in
specialized subclasses.
The flowchart below can help you decide where to add a new data analysis function. Notice that only if no suitable package exists for your function, you should consider creating your own.
Registering a new BaseSignal subclass
To register a new hyperspy.signal.BaseSignal
subclass you must add it to the
hyperspy_extension.yaml
file, as in the following example:
signals:
MySignal:
signal_type: "MySignal"
signal_type_aliases:
- MS
- ThisIsMySignal
# The dimension of the signal subspace. For example, 2 for images, 1 for
# spectra. If the signal can take any signal dimension, set it to -1.
signal_dimension: 1
# The data type, "real" or "complex".
dtype: real
# True for LazySignal subclasses
lazy: False
# The module where the signal is located.
module: my_package.signal
Note that HyperSpy uses signal_type
to determine which class is the most
appropriate to deal with a particular sort of data. Therefore, the signal type
must be specific enough for HyperSpy to find a single signal subclass
match for each sort of data.
Warning
HyperSpy assumes that only one signal
subclass exists for a particular signal_type
. It is up to external
package developers to avoid signal_type
clashes, typically by collaborating
in developing a single package per data type.
The optional signal_type_aliases
are used to determine the most appropriate
signal subclass when using
hyperspy.signal.BaseSignal.set_signal_type()
.
For example, if the signal_type
Electron Energy Loss Spectroscopy
has an EELS
alias, setting the signal type to EELS
will correctly assign
the signal subclass with Electron Energy Loss Spectroscopy
signal type.
It is good practice to choose a very explicit signal_type
while leaving
acronyms for signal_type_aliases
.
Creating new HyperSpy model components
When and where to create a new component
HyperSpy provides the hyperspy._components.expression.Expression
component that enables easy creation of 1D and 2D components from
mathematical expressions. Therefore, strictly speaking, we only need to
create new components when they cannot be expressed as simple mathematical
equations. However, HyperSpy is all about simplifying the interactive data
processing workflow. Therefore, we consider that functions that are commonly
used for model fitting, in general or specific domains, are worth adding to
HyperSpy itself (if they are of common interest) or to specialized external
packages extending HyperSpy.
The flowchart below can help you decide when and where to add
a new hyperspy model hyperspy.component.Component
for your function, should you consider creating your own.
Registering new components
All new components must be a subclass of
hyperspy._components.expression.Expression
. To register a new
1D component add it to the hyperspy_extension.yaml
file as in the following
example:
components1D:
# _id_name of the component. It must be a UUID4. This can be generated
# using ``uuid.uuid4()``. Also, many editors can automatically generate
# UUIDs. The same UUID must be stored in the components ``_id_name`` attribute.
fc731a2c-0a05-4acb-91df-d15743b531c3:
# The module where the component class is located.
module: my_package.components
# The actual class of the component
class: MyComponent1DClass
Equivalently, to add a new component 2D:
components2D:
# _id_name of the component. It must be a UUID4. This can be generated
# using ``uuid.uuid4()``. Also, many editors can automatically generate
# UUIDs. The same UUID must be stored in the components ``_id_name`` attribute.
2ffbe0b5-a991-4fc5-a089-d2818a80a7e0:
# The module where the component is located.
module: my_package.components
class: MyComponent2DClass
Note
HyperSpy’s legacy components use their class name instead of a UUID as
_id_name
. This is for compatibility with old versions of the software.
New components (including those provided through the extension mechanism)
must use a UUID4 in order to i) avoid name clashes ii) make it easy to find
the component online if e.g. the package is renamed or the component
relocated.
Creating and registering new widgets and toolkeys
To generate GUIs of specific methods and functions, HyperSpy use widgets and toolkeys:
widgets (typically ipywidgets or traitsui objects) generate GUIs,
toolkeys are functions using which it is possible to associate widgets to a signal method or to a module function.
An extension can declare new toolkeys and widgets. For example, the hyperspy-gui-traitsui and hyperspy-gui-ipywidgets provide widgets for toolkeys declared in HyperSpy.
Registering toolkeys
To register a new toolkey:
Declare a new toolkey, e. g. by adding the
add_gui_method()
decorator to the function you want to assign a widget to.Register a new toolkey that you have declared in your package by adding it to the
hyperspy_extension.yaml
file, as in the following example:
GUI:
# In order to assign a widget to a function, that function must declare
# a `toolkey`. The `toolkeys` list contains a list of all the toolkeys
# provided by extensions. In order to avoid name clashes, by convention,
# toolkeys must start with the name of the package that provides them.
toolkeys:
- my_package.MyComponent
Registering widgets
In the example below, we register a new ipywidget
widget for the
my_package.MyComponent
toolkey of the previous example. The function
simply returns the widget to display. The key module defines where the functions
resides.
GUI:
widgets:
ipywidgets:
# Each widget is declared using a dictionary with two keys, `module` and `function`.
my_package.MyComponent:
# The function that creates the widget
function: get_mycomponent_widget
# The module where the function resides.
module: my_package.widgets
Integration test suite
The integration test suite runs the test suite of hyperspy and hyperspy extension on a daily basis against both the release and development versions. The build matrix is as follows:
HyperSpy |
Extension |
Dependencies |
---|---|---|
Release |
Release |
Release |
Release |
Development |
Release |
RELEASE_next_patch |
Release |
Release |
RELEASE_next_patch |
Development |
Release |
RELEASE_next_minor |
Release |
Release |
RELEASE_next_minor |
Development |
Release |
RELEASE_next_minor |
Development |
Development |
RELEASE_next_minor |
Development |
Pre-release |
The development packages of the dependencies are provided by the
scipy-wheels-nightly
repository, which provides scipy
, numpy
, scikit-learn
and scikit-image
at the time of writing.
The pre-release packages are obtained from pypi and these
will be used for any dependency which provides a pre-release package on pypi.