Difference between revisions of "Documentation/4.1/Developers/Modules"
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Slicer supports 3 types of modules. While the developer has to choose between one of the 3 types to implement its module, the end user won't notice the difference as they all share the same look & feel. The choice for a given type of module is usually based on the type of inputs/parameters for a given module. | Slicer supports 3 types of modules. While the developer has to choose between one of the 3 types to implement its module, the end user won't notice the difference as they all share the same look & feel. The choice for a given type of module is usually based on the type of inputs/parameters for a given module. | ||
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CLIs are standalone executables with a limited input/output arguments complexity (simple argument types, no user interactions...). They are typically implemented using [http://www.itk.org ITK]. | CLIs are standalone executables with a limited input/output arguments complexity (simple argument types, no user interactions...). They are typically implemented using [http://www.itk.org ITK]. | ||
* Shared lib or executable | * Shared lib or executable | ||
− | * | + | * UI automatically generated |
* Where to start ? | * Where to start ? | ||
# Create initial skeleton using [[Documentation/{{documentation/version}}/Developers/ModuleWizard|module wizard]] | # Create initial skeleton using [[Documentation/{{documentation/version}}/Developers/ModuleWizard|module wizard]] | ||
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= Loadable Modules = | = Loadable Modules = | ||
− | Loadable modules are C++ plugins that are built against Slicer. They define custom GUIs for their specific behavior as they have full control over the application. | + | Loadable modules are [http://en.wikipedia.org/wiki/C%2B%2B C++] plugins that are built against Slicer. They define custom GUIs for their specific behavior as they have full control over the application. |
* C++ shared library | * C++ shared library | ||
− | * Full control over the | + | * Full control over the UI (based on [http://qt.nokia.com/products/ Qt]) and Slicer internals (MRML, logics, display managers...) |
* Optimized for heavy computations | * Optimized for heavy computations | ||
* Where to start ? | * Where to start ? | ||
Line 27: | Line 28: | ||
= Scripted Modules = | = Scripted Modules = | ||
− | Scripted modules are written in Python and typically but not necessarily use the high level API of Slicer and toolkits. | + | Scripted modules are written in [http://www.python.org/ Python] and typically but not necessarily use the high level API of Slicer and toolkits. |
* Python Console | * Python Console | ||
− | * Full access to the API: VTK, ITK, MRML, Qt and Slicer are fully wrapped | + | * Full access to the API: [http://www.vtk.org VTK], [http://www.itk.org ITK], MRML, [http://qt.nokia.com/products/ Qt] and Slicer are fully wrapped |
* Recommended for fast prototyping | * Recommended for fast prototyping | ||
* Where to start ? | * Where to start ? | ||
− | + | # Create initial skeleton using [[Documentation/{{documentation/version}}/Developers/ModuleWizard|module wizard]] | |
+ | # Read [[Documentation/{{documentation/version}}/Developers/Build_Module|Compiling slicer modules outside of the slicer source tree.]] | ||
+ | # Learn from existing [http://viewvc.slicer.org/viewvc.cgi/Slicer4/trunk/Modules/Scripted/ existing modules] | ||
* Links: | * Links: | ||
− | ** [http://www.slicer.org/ | + | ** [http://www.slicer.org/wiki/Documentation/{{documentation/version}}/Developers/Python_scripting Python Scripting] |
** [[Documentation/{{documentation/version}}/Training#Slicer4_Programming_Tutorial|Python Scripting Tutorial]] | ** [[Documentation/{{documentation/version}}/Training#Slicer4_Programming_Tutorial|Python Scripting Tutorial]] | ||
Latest revision as of 17:02, 21 November 2019
Home < Documentation < 4.1 < Developers < Modules
For the latest Slicer documentation, visit the read-the-docs. |
Slicer supports 3 types of modules. While the developer has to choose between one of the 3 types to implement its module, the end user won't notice the difference as they all share the same look & feel. The choice for a given type of module is usually based on the type of inputs/parameters for a given module.
Contents
Command Line Interface (CLI)
CLIs are standalone executables with a limited input/output arguments complexity (simple argument types, no user interactions...). They are typically implemented using ITK.
- Shared lib or executable
- UI automatically generated
- Where to start ?
- Create initial skeleton using module wizard
- Read Compiling slicer modules outside of the slicer source tree.
- Learn from existing existing modules
- Links:
- Slicer3 execution model (Slicer4 is very similar)
- CLI in Slicer4 (presentation of 2012 NAMIC AHM)
Loadable Modules
Loadable modules are C++ plugins that are built against Slicer. They define custom GUIs for their specific behavior as they have full control over the application.
- C++ shared library
- Full control over the UI (based on Qt) and Slicer internals (MRML, logics, display managers...)
- Optimized for heavy computations
- Where to start ?
- Create initial skeleton using module wizard
- Read Compiling slicer modules outside of the slicer source tree.
- Learn from existing existing modules
- Links:
- Loadable modules (presentation of 2012 NAMIC AHM)
- How to write a loadable module
Scripted Modules
Scripted modules are written in Python and typically but not necessarily use the high level API of Slicer and toolkits.
- Python Console
- Full access to the API: VTK, ITK, MRML, Qt and Slicer are fully wrapped
- Recommended for fast prototyping
- Where to start ?
- Create initial skeleton using module wizard
- Read Compiling slicer modules outside of the slicer source tree.
- Learn from existing existing modules
Module Factory
Loading modules into slicer happens in multiple steps:
- module factories must be registered into the factory manager
- directories where the modules to load are located must be passed to the factory manager
- Optionally specify module names to ignore
- scan the directories and test which file is a module and register it (not instantiated yet)
- Instantiate all the register modules
- Connect each module with the scene and the application
More details can be found in the online doc
ToDo
- Transform all core modules into Loadable modules.
- the factory manager only support file based modules, core modules are not file based (linked into the core factory itself)
- Move factory registration in qSlicerApplication (or a general application library) to support module discovery/loading without needing to instantiate Slicer.
- Currently can't be moved into qSlicerApplication as the CLI factories that are in QTCLI depend on QTGUI
- QtTesting is also limited with the QTCLI dependency on QtGUI (->qSlicerApplication would need to access QtTesting code from QtCli)
- Proposed architecture
Base Application -> classes that are useful to build an application (mix of qSlicerCoreApplication, qSlicerApplication, Main.cxx...) Core -> formally QtCore Modules -> contains the factories and module specific code Loadable CLI Scripted Scripted -> all that is python specific Cxx Python Widgets -> formally QtGUI
- Add category hierarchy in the Settings module panel
- Register factory settings/command-options(e.g. disable-loadable-modules) when registering module factories
- To have the settings panel be generic but have the code proper of each registered factory somewhere else
- Add mechanism for modules to register dialogs (toolbars that open dialogs), e.g. the sceneview module needs to register the sceneView dialog into an icon.
- Ignore modules from the launcher command line.
- cloning" of module panels at run time. See "here and here