Code Generation Activity: Difference between revisions
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** Rodin 2.0 compatibility. | ** Rodin 2.0 compatibility. | ||
** Introduction of sensed variables. | ** Introduction of sensed variables. | ||
** Support for Interrupts. | |||
** Event grouping in shared machines mapping to branching statements in protected objects. | ** Event grouping in shared machines mapping to branching statements in protected objects. | ||
** Accommodation of duplicate event names in tasking developments. | ** Accommodation of duplicate event names in tasking developments. |
Revision as of 11:44, 1 December 2010
The Code Generation Demonstrator
First release: 30 November 2010.
available from:
https://sourceforge.net/projects/codegenerationd/files/
The zip file contains a windows XP bundle, and a Windows V7 bundle. Alternatively, if you wish to build using an update-site, this is also included in the zip file, along with some notes on installation. However, note that the demonstrator tool is only compatible with Rodin 1.3.
A simple shared buffer example is provided. This will form the basis of a tutorial (which is work in progress). The WindowsBundles directory contains a Rodin 1.3.1 platform with the Code Generation plug-ins, together with a patch plug-in. The patch plug-in is required to correct an inconsistency in the org.eventb.emf.persistence plug-in. For the bundles, simply extract the appropriate zip file into a directory and run the rodin.exe. The plug-ins are pre-installed - the only configuration necessary may be to switch workspace to <installPath>\rodin1.3bWin7\workspace. When using the update-site the example projects, and the project forming the basis of a simple tutorial, are provided in the accompanying zip file. These should be imported manually.
Mac users - no bundled version available at present, but use the update site in the 'advanced' folder.
A step-by-step tutorial will be available soon at http://wiki.event-b.org/index.php/Code_Generation_Tutorial
About the Initial Release
The Code Generation (CG) Feature in the initial release is a demonstration tool; a proof of concept, rather than a prototype. The tool has no static checker and, therefore, there will be a heavy reliance on docs and dialogue to facilitate exploration of the tools and concepts.
Source Code
The sources are available from,
https://codegenerationd.svn.sourceforge.net/svnroot/codegenerationd
Note - I used Eclipse 3.5 Galileo, and you will need to install (or have sources from) Epsilon's interim update site. There is also dependency on Camille v2.0.0
Code Generation Status
Current Work
- Demonstrator plug-in,
- Rodin 1.3.1 version is ready for release.
- The Code Generation feature consists of,
- a tasking Development Generator.
- a tasking Development Editor (Based on an EMF Tree Editor).
- a translator, from Tasking Development to Common Language Model (IL1).
- a translator, from the Tasking Development to Event-B model of the implementation.
- a pretty-printer for the Tasking Development.
- a pretty-printer for Common Language Model, which generates Ada Source Code.
Ongoing Work
- A tutorial
- Step 1 - Create the tasking development.
- Step 2 - Add annotations.
- Step 3 - Invoke translators.
Future Work
- For the next release, our target is
- Rodin 2.0 compatibility.
- Introduction of sensed variables.
- Support for Interrupts.
- Event grouping in shared machines mapping to branching statements in protected objects.
- Accommodation of duplicate event names in tasking developments.
Metamodels
- In the plug-in we define several meta-models:
- CompositeControl: for the control flow (algorithmic) constructs such as branch, loop and sequence etc. These constructs may be used in the specification of either sequential or concurrent systems.
- Tasking Meta-model: defines the tasking model where we attach tasking specific details, such as task priority, task type. The tasking structures provide the ability to define single tasking or multi-tasking (concurrent) systems. We make use of the composite control plug-in to specify the flow of control.
- Common Language (IL1) Meta-model: defines an abstraction of common programming language constructs for use in translations to implementations.
Translation Rules
- Tasking to IL1/Event-B translation rules [[1]]