Changes for page SCCharts Development

Last modified by Richard Kreissig on 2023/09/14 10:04
<
From version < 25.1 >
edited by ssm
on 2016/04/22 16:57
To version < 24.1 >
edited by ssm
on 2016/04/22 15:54
>
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1 1  {{layout}}
2 2  {{layout-section ac:type="single"}}
3 3  {{layout-cell}}
4 -is is a light-weight tutorial for developing transformations/additions for SCCharts in KIELER. It will use Eclipse, EMF, and Xtend and therefore, finishing the corresponding tutorials could prove useful. However, they are not a strict requirement for this tutorial.
4 +This is a light-weight tutorial for developing additions for SCCharts in KIELER. It will use Eclipse, EMF, and Xtend and therefore, finishing the corresponding tutorials could prove useful. However, they are not a strict requirement for this tutorial.
5 5  
6 6  
7 7  
... ... @@ -13,7 +13,7 @@
13 13  
14 14  == Required Software ==
15 15  
16 -As you're going to develop for KIELER SCCharts, we recommend to use the Oomph setup as described in [[doc:KIELER.Getting Eclipse]] (Oomph Setup). However, you could also install all componentes by yourself. Please consult the other tutorials if you want to do that. You would need to install the Modeling Tools and the Xtext SDK.
16 +As you're going to develop for KIELER SCCharts we recommend to use the semantic Oomph setup as described in [[doc:KIELER.Getting Eclipse]] (Oomph Setup). However, you could also install all componentes by yourself. Please consult the other tutorials if you want to do that. You would need to install the Modeling Tools and the Xtext SDK.
17 17  {{/layout-cell}}
18 18  {{/layout-section}}
19 19  
... ... @@ -102,30 +102,21 @@
102 102  
103 103  ==== Model Task ====
104 104  
105 -{{task-list}}
106 -{{task id="1" status="incomplete"}}
107 -(% style="line-height: 1.42857;" %)Answer the following questions
105 +1. Answer the following questions
106 +11. How do you describe a superstate in the model?
107 +11. Outline the relationship between states, regions, transitions, and valued objects.\\
108 +11. Name the class of the root element of an SCChart.
109 +11. What is a valued object?
110 +11. How do you get the type of an interface variable?
111 +11. What other metamodels are needed for the SCCharts metamodel and write down which one is needed for what?
112 +1. Write down (on paper, text editor, etc) how the following SCChart models look like
113 +11. Open the wiki page that explains the [[doc:KIELER.Textual SCCharts Language SCT]].
114 +11. Search the //SCChart, Initial State, State, Transition and Immediate Transition //example and ...
115 +111. write down (on paper or text editor, etc) how the model of that SCChart looks like.
116 +111. The user now marks C as final. What has to be changed in the model? What semantic problem do you see?
117 +11. Now, navigate to the //Super State: Strong Abort Transition //example. Write down (on paper) how the model of that SCCharts looks like.
118 +11. And finally a more sophisticated model: Write down the model of ABO (from [[doc:KIELER.Examples]]).
108 108  
109 -1. How do you describe a superstate in the model?
110 -1. Outline the relationship between states, regions, transitions, and valued objects.\\
111 -1. Name the class of the root element of an SCChart.
112 -1. What is a valued object?
113 -1. How do you get the type of an interface variable?
114 -1. What other metamodels are needed for the SCCharts metamodel and write down which one is needed for what?
115 -{{/task}}
116 -
117 -{{task id="2" status="incomplete"}}
118 -Write down (on paper, text editor, etc) how the following SCChart models look like
119 -
120 -1. Open the wiki page that explains the [[doc:KIELER.Textual SCCharts Language SCT]].
121 -1. Search the //SCChart, Initial State, State, Transition and Immediate Transition //example and ...
122 -11. write down (on paper or text editor, etc) how the model of that SCChart looks like.
123 -11. The user now marks C as final. What has to be changed in the model? What semantic problem do you see?
124 -1. Now, navigate to the //Super State: Strong Abort Transition //example. Write down (on paper) how the model of that SCCharts looks like.
125 -1. And finally a more sophisticated model: Write down the model of ABO (from [[doc:KIELER.Examples]]).
126 -{{/task}}
127 -{{/task-list}}
128 -
129 129  
130 130  
131 131  {{info title="KLighD Screenshots"}}
... ... @@ -248,42 +248,24 @@
248 248  
249 249  You are now equipped with the fundamentals you need to create models programmatically. Let's try it:
250 250  
251 -{{task-list}}
252 -{{task id="3" status="incomplete"}}
253 -(% style="line-height: 1.42857;" %)The code fragments listed above do not suffice to create a grammatically correct model. Try to generate a model that corresponds with the serialized model listed on the right side.
242 +1. The code fragments listed above do not suffice to create a grammatically correct model. Try to generate a model that corresponds with the serialized model listed on the right side.
243 +11. Run the {{code language="none"}}main(){{/code}} method by right-clicking its class and selecting (% style="line-height: 1.42857;" %)//Run as//(%%) -> (% style="line-height: 1.42857;" %)//Java Application//(%%). Note that this runs your {{code language="none"}}main(){{/code}} method as a simple Java program, not a complete Eclipse application. EMF models can be used in any simple Java context, not just in Eclipse applications.
244 +11. Execute the main method.
245 +11. (((
246 +Inspect your SCT file. (Press F5 to refresh your file view.)
254 254  
255 -1. (% style="line-height: 1.42857;" %)Run the {{code language="none"}}main(){{/code}} method by right-clicking its class and selecting //Run as// -> //Java Application//. Note that this runs your {{code language="none"}}main(){{/code}} method as a simple Java program, not a complete Eclipse application. EMF models can be used in any simple Java context, not just in Eclipse applications.
256 -1. Execute the main method.
257 -1. (((
258 -(% style="line-height: 1.42857;" %)Inspect your SCT file. (Press F5 to refresh your file view.)
259 -
260 260  {{note title="Kext Warning"}}
261 261  It is possible that kext generates a Null Pointer Exception when you save your model this way. This is a known issue. We're working on it. Just ignore it for now.
262 262  {{/note}}
263 263  )))
264 -{{/task}}
252 +1. Now, create a new Java class and proceed as before to generate a model of ABO in the {{code language="none"}}main(){{/code}} method.
253 +1. Start your SCChart Editor Eclipse instance and load your SCT file. KLighD should now be able to visualize your ABO correctly.
254 +11. For this, open tab //Run// and select// Run Configurations...//
255 +11. Create a new //Eclipse Application// and name it appropriately.
256 +11. As product select {{code language="none"}}de.cau.cs.kieler.core.product.product{{/code}}.
257 +11. Click //Run// (or //Debug// if you opened// Debug Configuration...//)
258 +11. Create a new project and add you generated model.
265 265  
266 -{{task id="4" status="incomplete"}}
267 -Now, create a new Java class and proceed as before to generate a model of ABO in the 
268 -
269 -{{code language="none"}}
270 -main()
271 -{{/code}}
272 -
273 - method.
274 -{{/task}}
275 -
276 -{{task id="5" status="incomplete"}}
277 -(% style="line-height: 1.42857;" %)Start your SCChart Editor Eclipse instance and load your SCT file. KLighD should now be able to visualize your ABO correctly.(%%)\\
278 -
279 -1. For this, open tab //Run// and select// Run Configurations...//
280 -1. Create a new //Eclipse Application// and name it appropriately.
281 -1. As product select {{code language="none"}}de.cau.cs.kieler.core.product.product{{/code}}.
282 -1. Click //Run// (or //Debug// if you opened// Debug Configuration...//)
283 -1. Create a new project and add you generated model.
284 -{{/task}}
285 -{{/task-list}}
286 -
287 287  
288 288  {{/layout-cell}}
289 289  
... ... @@ -311,7 +311,7 @@
311 311  {{/layout-cell}}
312 312  
313 313  {{layout-cell}}
314 -[[image:attach:KielerSCTEditor.png]]
287 +
315 315  {{/layout-cell}}
316 316  {{/layout-section}}
317 317  
... ... @@ -319,15 +319,11 @@
319 319  {{layout-cell}}
320 320  ==== Transformation Creation Task ====
321 321  
322 -{{task-list}}
323 -{{task id="6" status="incomplete"}}
324 -Create your first transformation...
325 -
326 -1. Create a new project within your tutorial working set as before.
327 -1. Add plugin dependencies to {{code language="none"}}de.cau.cs.kieler.kico{{/code}} and {{code language="none"}}de.cau.cs.kieler.sccharts{{/code}}.
328 -1. Create a new //Xtend class// in you package and name it "DoubleStates" and use {{code language="none"}}AbstractProductionTransformation{{/code}} as superclass.
329 -1. Here, you can automatically add the missing Xtend files by using the quickfix //Add Xtend lib to class path. //Alternatively you can simply add {{code language="none"}}com.google.guava{{/code}}, {{code language="none"}}org.eclipse.xtext.xbase.lib{{/code}}, {{code language="none"}}org.eclipse.xtend.lib{{/code}}, and {{code language="none"}}org.eclipse.xtend.lib.macro{{/code}} to you plugin dependencies.
330 -1. Click on //Add unimplemented methods//.
295 +1. Therefore, create a new project within your tutorial working set as before.
296 +1. Add plugin dependencies to {{code language="none"}}de.cau.cs.kieler.kico{{/code}} and {{code language="none"}}de.cau.cs.kieler.sccharts{{/code}}.
297 +1. Create a new //Xtend class// in you package and name it "DoubleStates" and use {{code language="none"}}AbstractProductionTransformation{{/code}} as superclass.
298 +1. Here, you can automatically add the missing Xtend files by using the quickfix //Add Xtend lib to class path. //Alternatively you can simply add {{code language="none"}}com.google.guava{{/code}}, {{code language="none"}}org.eclipse.xtext.xbase.lib{{/code}}, {{code language="none"}}org.eclipse.xtend.lib{{/code}}, and {{code language="none"}}org.eclipse.xtend.lib.macro{{/code}} to you plugin dependencies.
299 +1. Click on //Add unimplemented methods//.
331 331  1. (((
332 332  Now, you should have a class similar to the following one.
333 333  
... ... @@ -357,67 +357,29 @@
357 357  * You may be tempted to add a few global variables that hold things like a global input variable or a pointer to the current state. While you could to that, {{code language="none"}}def create {{/code}}methods might offer a better alternative...
358 358  {{/info}}
359 359  )))
360 -{{/task}}
329 +1. (((
330 +As you can see, it is mandatory to add an id for the transformation and another id of the feature that this transformation produces. Name your transformation **tutorial.doubleStates **and the id of feature you want to produce is **sccharts.doubleStates**.
361 361  
362 -{{task id="7" status="incomplete"}}
363 -As you can see, it is mandatory to add an id for the transformation and another id of the feature that this transformation produces. Name your transformation **tutorial.doubleStates **and the id of feature you want to produce is **sccharts.doubleStates**.
364 -
365 365  {{info title="Programming Guidelines"}}
366 366  You should really think about some constants here. You can also look at the sccharts transformation and features constants in the sccharts plugin.
367 367  {{/info}}
368 -{{/task}}
369 -{{/task-list}}
370 -{{/layout-cell}}
371 -
372 -{{layout-cell}}
373 -
374 -{{/layout-cell}}
375 -{{/layout-section}}
376 -
377 -{{layout-section ac:type="two_right_sidebar"}}
378 -{{layout-cell}}
379 -{{task-list}}
380 -{{task id="8" status="incomplete"}}
381 -KiCo must know about the new feature and also about your new transformation. 
382 -
383 -1. Add a new Xtend class with Feature as superclass. Add all unimplemented methods. Also set** sccharts.doubleStates** as Id.
384 -1. Go to the Extension tab inside your plugin configuration. 
385 -11. Add a new Extension Point de.cau.cs.kieler.kico.feature. Create a new featureClass and point it to your new feature class.
386 -11. Also add a new Extension Point de.cau.cs.kieler.kico.transformation. Create a new productionTransformationClass and point it to your transformation class.
387 -11. Finally, you have to link your transformation to the SCT Editor. Add the Extension point de.cau.cs.kieler.kico.ui.transformation. Create an editor link and fill in the following values:
388 -111. editor: {{code language="none"}}de.cau.cs.kieler.sccharts.text.sct.Sct{{/code}}
389 -111. features: sccharts.doubleStates
390 -111. label: Tutorial Compilation
391 -111. priority: 101
392 -111. preferred: (leave it blank)
393 -1. {{note title="Plugin Tasks"}}In general it is bad to mix non-ui plugins/tasks with ui plugin/tasks because (in the context of KiCo) even if you're not working with an active UI your transformations should work (e.g. a command line compiler). To keep this tutorial simple, you can add this dependency to your plugin nevertheless. However, you shouldn't do this in real products. Always keep the UI separated.{{/note}}If you start your KIELER instance now, you should get a new compilation chain which has only one transformation: yours, which doesn't do anything.
394 -{{/task}}
395 -
396 -{{task id="9" status="incomplete"}}
397 -If you want to rename your feature in the Compiler Selection (without changing its Id), override the
398 -
399 -{{code language="none"}}
400 -getName
401 -{{/code}}
402 -
403 - method and return a new name. Rename your feature appropriately.
404 -{{/task}}
405 -{{/task-list}}
406 -{{/layout-cell}}
407 -
408 -{{layout-cell}}
409 -[[image:attach:KielerSCTEditorOwnTransformation.png]]
410 -{{/layout-cell}}
411 -{{/layout-section}}
412 -
413 -{{layout-section ac:type="two_right_sidebar"}}
414 -{{layout-cell}}
415 -{{task-list}}
416 -{{task id="10" status="incomplete"}}
417 -Now, fill your transformation with life:
418 -
419 -1. Inside your transformation class, add a new method with the following signature: {{code language="none"}}def State transform(State rootState, KielerCompilerContext context){{/code}}. This transformation will be executed if the feature is selected in the Compiler Selection.
420 -1. (((
335 +)))
336 +1. KiCo must know about the new feature and also about your new transformation. 
337 +11. Add a new Xtend class with Feature as superclass. Add all unimplemented methods. Also set** sccharts.doubleStates** as Id.
338 +11. Go to the Extension tab inside your plugin configuration. 
339 +111. Add a new Extension Point de.cau.cs.kieler.kico.feature. Create a new featureClass and point it to your new feature class.
340 +111. Also add a new Extension Point de.cau.cs.kieler.kico.transformation. Create a new productionTransformationClass and point it to your transformation class.
341 +111. Finally, you have to link your transformation to the SCT Editor. Add the Extension point de.cau.cs.kieler.kico.ui.transformation. Create an editor link and fill in the following values:
342 +1111. editor: de.cau.cs.kieler.sccharts.text.sct.Sct
343 +1111. features: sccharts.doubleStates
344 +1111. label: Tutorial Compilation
345 +1111. priority: 101
346 +1111. preferred: (leave it blank)
347 +11. {{note title="Plugin Tasks"}}In general it is bad to mix non-ui plugins/tasks with ui plugin/tasks because (in the context of KiCo) even if you're not working with an active UI your transformations should work (e.g. a command line compiler). To keep this tutorial simple, you can add this dependency to your plugin nevertheless. However, you shouldn't do this in real products. Always keep the UI separated.{{/note}}If you start your KIELER instance now, you should get a new compilation chain which has only one transformation: yours, which doesn't do anything.
348 +1. If you want to rename your feature in the Compiler Selection (without changing its Id), override the getName method and return a new name. Rename your feature appropriately.
349 +1. Now, fill your transformation with life:
350 +11. Inside your transformation class, add a new method with the following signature: def State transform(State rootState, KielerCompilerContext context). This transformation will be executed if the feature is selected in the Compiler Selection.
351 +11. (((
421 421  Add thew following body to the function and try to understand the Xtend code. Import unknown class via code assist.
422 422  
423 423  {{code language="java" title="transform"}}
... ... @@ -433,43 +433,24 @@
433 433   }
434 434  {{/code}}
435 435  )))
436 -1. When selecting your transformation, the SCChart gets transformed and looks like the version on the right.
437 -{{/task}}
367 +11. When selecting your transformation, the SCChart gets transformed and looks like the version on the right.
368 +1. Extend the transformation so that the transition is split up in two and connected via a transient state meaning that the original transformation should point to the new state and a new immediate transformation then points to the original target state. Try it out.
369 +1. (((
370 +Xtend supports extensions that can be used to extend the function set of you classes (i.e. models). Add {{code language="none"}}com.google.inject{{/code}} to the dependencies of your plugin. Now, add the following code fragment to the beginning of your class.
438 438  
439 -{{task id="11" status="incomplete"}}
440 -Extend the transformation so that the transition is split up in two and connected via a transient state meaning that the original transformation should point to the new state and a new immediate transformation then points to the original target state. Try it out.
441 -{{/task}}
442 -
443 -{{task id="12" status="incomplete"}}
444 -Xtend supports extensions that can be used to extend the function set of you classes (i.e. models). Add {{code language="none"}}com.google.inject{{/code}} to the dependencies of your plugin. Now, add the following code fragment to the beginning of your class.
445 -
446 446  {{code language="java" title="Code injection"}}
447 447   @Inject
448 448   extension SCChartsExtension
449 449  {{/code}}
450 450  
451 -There are several Extensions classes within the KIELER project that extend the functionality of various classes. Basically, there are one or more for each metamodel (e.g. SCCharts, SCG, KExpressions, etc). You don't want to invent the wheel again. Use these methods. For example: there is a method that gives you all contained states of a state in a list: {{code language="none"}}getAllContainedStatesList{{/code}}. You can use it on your {{code language="none"}}rootState{{/code}}: {{code language="none"}}rootState.allContainedStatesList{{/code}}. There are also several convenient methods for creating model elements so that you don't have to use the factories directly.
377 +There are several Extensions classes within the KIELER project that extend the functionality of various classes. Basically, there are one or more for each metamodel (e.g. SCCharts, SCG, KExpressions, etc). You don't want to invent the wheel again. Use these methods. For example: there is a method that gives you all contained states of a state in a list: {{code language="none"}}getAllContainedStatesList{{/code}}. You can use it on your {{code language="none"}}rootState{{/code}}: {{code language="none"}}rootState.allContainedStatesList{{/code}}. There are also several convenient methods for creating model elements so that you don't have to use the factories directly.
452 452  
453 453  {{note title="Extensions Naming Scheme"}}
454 454  Extensions are also just classes. You can add your own to improve the structure of your own projects. In KIELER all extensions end with "Extensions"; except SCChartsExtension for legacy reasons. This will be renamed in after the next snapshot to SCChartsExtensions. So, if you're going to add new extensions to the project, please name them accordingly.
455 455  {{/note}}
456 -{{/task}}
457 -{{/task-list}}
458 -{{/layout-cell}}
382 +)))
383 +1. Extend your transformation so that it is applied on all states (except the root state). Try your new transformation with ABO. The result should look like the example on the right.
459 459  
460 -{{layout-cell}}
461 -[[image:attach:KielerSCTEditorOwnTransformationOlolo.png]]
462 -{{/layout-cell}}
463 -{{/layout-section}}
464 -
465 -{{layout-section ac:type="two_right_sidebar"}}
466 -{{layout-cell}}
467 -{{task-list}}
468 -{{task id="13" status="incomplete"}}
469 -Extend your transformation so that it is applied on all states (except the root state). Try your new transformation with ABO. The result should look like the example on the right.
470 -{{/task}}
471 -{{/task-list}}
472 -
473 473  == The existing Compilation Chain ==
474 474  
475 475  Congratulations. You added and executed your own KiCo transformation. Nevertheless, often you want to extend the existing compilation chain. To do this, you proceed as before but instead of creating your own compilation chain, you must modify the existing chains (e.g. the netlist compilation in de.cau.cs.kieler.sccharts.ui). To add a specific transformation at a specific point in the chain, you must tell KiCo what features are required for the transformation. For that you must override the method getRequiredFeatureIds and return a set with all required features.
... ... @@ -482,13 +482,13 @@
482 482  {{/layout-cell}}
483 483  
484 484  {{layout-cell}}
485 -[[image:attach:ABODoubleStates.png]]
397 +[[image:attach:KielerSCTEditor.png]]
486 486  
487 -
399 +[[image:attach:KielerSCTEditorOwnTransformation.png]]
488 488  
489 -
401 +[[image:attach:KielerSCTEditorOwnTransformationOlolo.png]]
490 490  
491 -
403 +[[image:attach:ABODoubleStates.png]]
492 492  {{/layout-cell}}
493 493  {{/layout-section}}
494 494  
... ... @@ -550,36 +550,14 @@
550 550  
551 551  Write a transformation that transforms your normalized version of ABO's HandleA into its corresponding SCG.
552 552  
553 -{{task-list}}
554 -{{task id="14" status="incomplete"}}
555 -Proceed as before. Create a new plugin (or copy your last one) Make sure, you also add de.cau.cs.kieler.scg to your dependencies.
556 -{{/task}}
465 +1. Proceed as before. Create a new plugin (or copy your last one) Make sure, you also add de.cau.cs.kieler.scg to your dependencies.
466 +1. Write a transformation that is able to transform {{code language="none"}}ABO_norm_HandleA{{/code}} into its corresponding SCG.
467 +1. **Verify your generated SCG**. If you added your transformation correctly, the SCG should be displayed automatically as soon as selected. If your SCG looks like the SCG depicted earlier, then everything is fine.
468 +1. Check your SCG semantically. Is there anything you could improve/optimize? 
469 +11. Write a second transformation (just as before) and add it to the transformation chain right after the transformation you already added.
470 +11. Optimize the given SCG and compare the result with the previous one.
471 +11. Make sure that the two SCGs are still semantically identical.
557 557  
558 -{{task id="15" status="incomplete"}}
559 -Write a transformation that is able to transform 
560 -
561 -{{code language="none"}}
562 -ABO_norm_HandleA
563 -{{/code}}
564 -
565 - into its corresponding SCG.
566 -{{/task}}
567 -
568 -{{task id="16" status="incomplete"}}
569 -**Verify your generated SCG**. If you added your transformation correctly, the SCG should be displayed automatically as soon as selected. If your SCG looks like the SCG depicted earlier, then everything is fine.
570 -{{/task}}
571 -
572 -{{task id="17" status="incomplete"}}
573 -Check your SCG semantically. Is there anything you could improve/optimize? 
574 -
575 -1. Write a second transformation (just as before) and add it to the transformation chain right after the transformation you already added.
576 -1. Optimize the given SCG and compare the result with the previous one.
577 -1. Make sure that the two SCGs are still semantically identical.
578 -{{/task}}
579 -{{/task-list}}
580 -
581 -
582 -
583 583  Congratulations! You finished the SCCharts Development Tutorial. Ask your supervisor for further instructions!
584 584  
585 585  
Confluence.Code.ConfluencePageClass[0]
Id
... ... @@ -1,1 +1,1 @@
1 -16810379
1 +16810378
URL
... ... @@ -1,1 +1,1 @@
1 -https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/TUT/pages/16810379/SCCharts Development
1 +https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/TUT/pages/16810378/SCCharts Development

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