The purpose of this document is to describe briefly the different steps in the development of a SALOME module in Python.
The example module chosen to illustrate the process to construct a module is extremely simple. It will contain a single component and this component will have a single service called getBanner that will accept a character string as the sole argument and that will return a character string obtained by concatenation of “Hello” and the input chain. This component will be completed by a graphic GUI written in PyQt.
The different steps in the development will be as follows:
- create a module tree structure
- create a SALOME component that can be loaded by a Python container
- configure the module so that the component is known to SALOME
- add a graphic GUI
Firstly, we will simply put a SALOME component written in Python and that can be loaded by a Python container, into the example module. An idl interface and a Python implementation of the component will be all that are necessary. The following file structure is necessary so that this can be implemented in a SALOME module:
+ PYHELLO1_SRC
+ CMakeLists.txt
+ adm_local
+ CMakeLists.txt
+ cmake_files
+ CMakeLists.txt
+ FindSalomePYHELLO.cmake
+ bin
+ CMakeLists.txt
+ VERSION.in
+ runAppli.in
+ myrunSalome.py
+ idl
+ CMakeLists.txt
+ PYHELLO_Gen.idl
+ src
+ CMakeLists.txt
+ PYHELLO
+ CMakeLists.txt
+ PYHELLO.py
+ doc
The module name is PYHELLO, the component name is PYHELLO and all the files will be put in a directory named PYHELLO1_SRC. All files are essential except for VERSION.in, runAppli.in and runSalome.py. VERSION.in is used to document the module, it must give its version and its compatibilities or incompatibilities with other modules. Therefore, it is strongly recommended but is not essential for operation. The runAppli.in and runSalome.py files are not essential but make the example easier to use.
Warning
the files of the basic platform (KERNEL) must not be copied to initialise a module tree structure. It is usually preferable to copy files from another module such as GEOM or MED.
The CMakeLists.txt files are used to describe the build procedure, in particular: - Test platform; - Test system configuration; - Detect pre-requisites; - Generate build rules (for example, standard UNIX makefiles on Linux, MSVC solutions, etc).
Project’s root directory provides main CMake configuration that allows build all targets into one set of binaries and libraries. Each sub-directory also includes CMake configuration file (CMakeLists.txt) that specifies targets being build.
The file CMakeLists.txt in root directory of the PYHELLO module provides basic build rules to be used in other CMakeLists.txt files. It sets main properties of project: name, version, pre-requisites, installation paths, programming languages being used by the project, tree of sub-directories, etc.
A lot of files used by the build procedure of HELLO module are located in SALOME KERNEL module (that is referenced by the KERNEL_ROOT_DIR environment variable), namely in its salome_adm sub-folder. Similarly, the GUI_ROOT_DIR environment variable is used for the graphical user interface (GUI) module of SALOME; this module also provides a set of configuration utilities (*.cmake files) in its adm_local folder.
The idl directory requires a CMakeLists.txt that must make the compilation of the idl PYHELLO_Gen.idl file and install all the generated files in the right module installation directories. This is done by using OMNIORB_ADD_MODULE() CMake macro:
OMNIORB_ADD_MODULE(SalomeIDLPYHELLO PYHELLO_Gen.idl ${KERNEL_ROOT_DIR}/idl/salome ${KERNEL_SalomeIDLKernel})
INSTALL(TARGETS SalomeIDLPYHELLO EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${SALOME_INSTALL_LIBS})
The idl file itself must define a CORBA module for which the name must be different from the module name to avoid name conflicts and define a CORBA interface that is derived at least from the EngineComponent interface of the Engines module. The name of the CORBA module will be PYHELLO_ORB and the name of the interface will be PYHELLO_Gen.
The src directory will contain all components and the GUI for the module. Each of these entities must have its own directory.
For the moment, the module will only contain a single directory for the engine of the PYHELLO component and its name will be PYHELLO.
The CMakeLists.txt file triggers the path of sub-directories described by the a ADD_SUBDIRECTORY() command.
This directory contains the Python module that represents the component and therefore contains the PYHELLO class and a CMakeLists.txt file that simply exports the PYHELLO.py module into the installation directory of the SALOME module.
The PYHELLO.py module contains the PYHELLO class that is derived from the PYHELLO_Gen interface of the CORBA PYHELLO_ORB_POA module and the SALOME_ComponentPy_i class of the SALOME_ComponentPy module.
This contains nothing for the moment. It could contain this document.
VERSION.in is used to document the module, it must define its version and its compatibilities or incompatibilities with other modules. Therefore, it is strongly recommended but is not essential for operation.
The runAppli.in file is the equivalent of the runSalome in the KERNEL module configured to implement the KERNEL module and this PYHELLO module.
The myrunSalome.py file is the file of the KERNEL module modified to run only with a Python container, with the test function that creates the PYHELLO component instead of a MED component, and automatic completion in Python.
The files presented above are sufficient to build and install the PYHELLO1_SRC module, to start the SALOME platform composed of the KERNEL and PYHELLO1 modules, and to request the Python container to load a PYHELLO component.
All the following steps are only possible if the SALOME prerequisite software is accessible in the module developer environment.
In PYHELLO1_SRC, enter:
export KERNEL_ROOT_DIR=<KERNEL installation path>
Go into ../PYHELLO1_BUILD and enter:
cmake -DCMAKE_BUILD_TYPE=<Mode> -DCMAKE_INSTALL_PREFIX=<PYHELLO1 installation path> ../PYHELLO1_SRC
make
make install
Where <Mode> is build mode (Release or Debug).
Move into the <PYHELLO1 module installation path> and enter:
./bin/salome/runAppli
This command runs SALOME configured for KERNEL and the PYHELLO1 module. At the end of running, the user sees a Python interpreter configured for SALOME that provides access to SALOME CORBA objects.
runAppli is a shell that executes a Python script, by passing arguments to it in a command line:
python -i $PYHELLO_ROOT_DIR/bin/salome/myrunSalome.py --modules=PYHELLO --killall
These arguments state that the myrunSalome.py script located in the PYHELLO module will be used, that the PYHELLO component will be activated and all SALOME processes that existed before the run will be killed.
This command will not function unless the following environment variables have previously been set:
export KERNEL_ROOT_DIR=<KERNEL installation path>
export PYHELLO_ROOT_DIR=<PYHELLO installation path>
Warning
it is possible that the SALOME run will not reach the end. In some circumstances, the time to start CORBA servers may be long and could exceed the timeout. If the reason for this is that the time to load dynamic libraries is long, it is possible that a second run immediately afterwards will be successful.
The PYHELLO_ORB module has to be imported before making a request to load the component into the Python container, to obtain access to methods of the component. This Python container was made accessible in the runSalome.py by means of the container variable:
import PYHELLO_ORB
c=container.load_impl("PYHELLO","PYHELLO")
c.makeBanner("Christian")
The last instruction must return ‘Hello Christian’.
Proceed as follows to see CORBA objects created by these actions:
clt.showNS()
For the moment, the PYHELLO component was loaded by making a direct request to the Python container. This is not the standard method for loading a component. The normal method uses the LifeCycle service that uses catalog services to identify the component and its properties and then calls the requested container to load the component.
Before this method can be used, the component must be declared in a catalog in the XML format, for which the name must be <Module>Catalog.xml. In our case, it will be PYHELLOCatalog.xml. This catalog will be stored in the resources directory.
Updated tree structure:
+ PYHELLO1_SRC
+ CMakeLists.txt
+ adm_local
+ bin
+ idl
+ src
+ doc
+ resources
+ PYHELLOCatalog.xml
The remainder of the files are identical, apart from adding the resources directory and the PYHELLOCatalog.xml file. However, the CMakeLists.txt has to be modified so that the catalog is actually installed in the installation directory.
There is no need to do another configure to take account of this modification. All that is necessary is to enter PYHELLO1_BUILD and then:
make
make install
The platform is started in the same way as before. Go into PYHELLO1_INSTALL and do:
./bin/salome/runAppli
The method of loading the component is not very different from that described above. The services of the LifeCycle module are used in this case instead of calling the container directly. The call sequence is contained in the runSalome.Py test function.
c=test(clt)
c.makeBanner("Christian")
The test function creates the LifeCycle. It then asks for the PYHELLO component to be loaded in the FactoryServerPy container:
def test(clt):
"""
Test function that creates an instance of PYHELLO component
usage : pyhello=test(clt)
"""
import LifeCycleCORBA
lcc = LifeCycleCORBA.LifeCycleCORBA(clt.orb)
import PYHELLO_ORB
pyhello = lcc.FindOrLoadComponent("FactoryServerPy", "PYHELLO")
return pyhello
Before a component can be loaded dynamically using the IAPP components bar, the icon representing the component will have to be declared in the catalog. It is declared by simply adding a line for the icon to the component catalog:
<component-icon>PYHELLO.png</component-icon>
and putting the corresponding file in the module resources directory.
The next step to complete the module consists of adding a graphic interface to the PYHELLO component, that will be written in Python using the Qt widgets library. This graphic interface must be integrated into the SALOME application interface (IAPP), and therefore must respect some constraints that we will see.
Firstly note the contour of the GUI of a component. The behaviour of the GUI is given by a Python module that has a standard name <Module>GUI.py. It must propose conventional entry points that the IAPP will use to activate this GUI or to inform it of specific events. GUI commands are activated through a menu bar and a button bar that are integrated into the menu bar and into the IAPP button bar.
The behaviour of the PYHELLO component GUI is implanted in the Python PYHELLOGUI.py module in the PYHELLOGUI sub-directory. The CMakeLists.txt located in the src directory must be updated to include the PYHELLOGUI subdirectory. A CMakeLists.txt must be added into the PYHELLOGUI subdirectory.