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1	1	{{layout}}
2	2	{{layout-section ac:type="single"}}
3	3	{{layout-cell}}
	4	+
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4	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		-
7		-
8		-{{toc/}}
9		-
10	10	= Preliminaries =
11	11
12	12	There's a few things to do before we dive into the tutorial itself. For example, to do Eclipse programming, you will have to get your hands on an Eclipse installation first. Read through the following sections to get ready for the tutorial tasks.
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19	19
20	20	{{layout-section ac:type="three_equal"}}
21	21	{{layout-cell}}
22		-
23		-
24	24	Additionally, install the** EcoreViz** from the **Ecore Model Visualization** category from the **OpenKieler** update site: [[http:~~/~~/rtsys.informatik.uni-kiel.de/~~~~kieler/updatesite/nightly-openkieler/>>url:http://rtsys.informatik.uni-kiel.de/~~kieler/updatesite/nightly-openkieler/||rel="nofollow" shape="rect"]]. For this, choose //Install New Software...// in the //Help// tab.
25	25
26	26	Due to the ongoing migration you have to install a workaround for EcoreViz to function. You have to install the KLighD diagram view directly from [[http:~~/~~/rtsys.informatik.uni-kiel.de/~~~~kieler/updatesite/release_pragmatics_2016-02/>>url:http://rtsys.informatik.uni-kiel.de/~~kieler/updatesite/release_pragmatics_2016-02/||shape="rect"]]. Select the features
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32	32	{{/layout-cell}}
33	33
34	34	{{layout-cell}}
35		-
36		-
37	37	[[image:attach:InstallEcoreViz.png]]
38		-
39		-
40	40	{{/layout-cell}}
41	41
42	42	{{layout-cell}}
43		-
44		-
45	45	[[image:attach:InstallKLighDFeatures.png]]
46	46	{{/layout-cell}}
47	47	{{/layout-section}}
...	...	@@ -83,8 +83,6 @@
83	83	(% style="color: rgb(0,0,0);" %)Reinhard von Hanxleden and Michael Mendler and Joaquín Aguado and Björn Duderstadt and Insa Fuhrmann and Christian Motika and Stephen Mercer and Owen O’Brien and Partha Roop. Sequentially Constructive Concurrency—A Conservative Extension of the Synchronous Model of Computation. (% class="cmti-10" %)ACM Transactions on Embedded Computing(%%) (% class="cmti-10" %)Systems, Special Issue on Applications of Concurrency to System Design(%%), 13(4s):144:1–144:26, July 2014. (%%)[[pdf>>url:http://rtsys.informatik.uni-kiel.de/~~biblio/downloads/papers/tecs14.pdf||shape="rect"]](% style="color: rgb(0,0,0);" %), (%%)[[bib>>url:http://rtsys.informatik.uni-kiel.de/~~biblio/cgi-bin/bibcgi.cgi?key=vonHanxledenMA+14||shape="rect"]]
84	84	* **Overview and High-Level Transformations in Detail:**
85	85	(% style="color: rgb(0,0,0);" %)Reinhard von Hanxleden and Björn Duderstadt and Christian Motika and Steven Smyth and Michael Mendler and Joaquín Aguado and Stephen Mercer and Owen O’Brien. SCCharts: Sequentially Constructive Statecharts for Safety-Critical Applications. Technical Report 1311, Christian-Albrechts-Universität zu Kiel, Department of Computer Science, December 2013. ISSN 2192-6247. (%%)[[pdf>>url:http://rtsys.informatik.uni-kiel.de/~~biblio/downloads/papers/report-1311.pdf||shape="rect"]](% style="color: rgb(0,0,0);" %), (%%)[[bib>>url:http://rtsys.informatik.uni-kiel.de/~~biblio/cgi-bin/bibcgi.cgi?key=vonHanxledenDM+13b||shape="rect"]]
86		-
87		-
88	88	{{/layout-cell}}
89	89	{{/layout-section}}
90	90
...	...	@@ -94,20 +94,16 @@
94	94
95	95	Navigate to the {{code language="none"}}models{{/code}} folder of the plugin {{code language="none"}}de.cau.cs.kieler.sccharts{{/code}}. Here, open the {{code language="none"}}sccharts.ecore{{/code}} and right-click on the {{code language="none"}}sccharts.ecore{{/code}} file and select //Visualize Ecore Model//. Since you also installed **EcoreViz** from the OpenKieler Suite, you should now see a graphical representation of the SCCharts metamodel. Every SCChart will be a model of this metamodel.
96	96
97		-To see all class information check //Attributes/Literals// in the Diagram Options on the right.
98		-
99		-EcoreViz gives you an overview over the selected Ecore diagram. However, Ecore model definitions may depend on other Ecore definitions that are not displayed in the diagram. You can open new diagrams for these Ecore files as described before or use the Ecore tree editor to inspect all classes.
100		-
101	101	Try to understand most parts of the metamodel. You don't have to understand every detail but you should get the idea.
102	102
103	103	==== Model Task ====
104	104
105	105	1. Answer the following questions
	90	+11. Name the class of the root element of an SCChart
106	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	109	11. What is a valued object?
110	110	11. How do you get the type of an interface variable?
	94	+11. Outline the relationship between states, regions, transitions, and valued objects
111	111	11. What other metamodels are needed for the SCCharts metamodel and write down which one is needed for what?
112	112	1. Write down (on paper, text editor, etc) how the following SCChart models look like
113	113	11. Open the wiki page that explains the [[doc:KIELER.Textual SCCharts Language SCT]].
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120	120
121	121
122	122	{{info title="KLighD Screenshots"}}
123		-By the way: You can //right-click// on the Diagram View surface and select //Save as image...// to create a screenshot!
	107	+By the way: You can //right-click// on the Diagram View surface to select //Save as image...// to create a screenshot!
124	124	{{/info}}
125	125	{{/layout-cell}}
126	126
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127	127	{{layout-cell}}
128	128	[[image:attach:sccharts_metamodel.png]]
129	129
130		-[[image:attach:sccharts_metamodel_treeEditor.png]]
	114	+
131	131
	116	+
	117	+
	118	+
	119	+
	120	+
	121	+
132	132	[[image:attach:KLighDSaveAsImage.png]]
133	133	{{/layout-cell}}
134	134	{{/layout-section}}
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135	135
136	136	{{layout-section ac:type="single"}}
137	137	{{layout-cell}}
	128	+
	129	+
	130	+
	131	+{{/layout-cell}}
	132	+{{/layout-section}}
	133	+
	134	+{{layout-section ac:type="single"}}
	135	+{{layout-cell}}
	136	+
	137	+{{/layout-cell}}
	138	+{{/layout-section}}
	139	+
	140	+{{layout-section ac:type="single"}}
	141	+{{layout-cell}}
138	138	= Creating SCCharts Models Programmatically =
139	139
140	140	== Creating a Test Project ==
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141	141
142	142	We need a project for testing. Do the following:
143	143
144		-1. If you used the standard KIELER Oomph installation setup, create a new Working Set named Tutorial in the Package Explorer. Then...
145	145	1. Create a new empty //Plug-In Project//.
146	146	1. Add the project that contains the sccharts metamodel as a dependency of your new project through the //Plugin Manifest Editor//.
147	147	1. Create a simple Java class that implements a main method. Hint: In a new Java class, simply type main and hit Ctrl+Space. Eclipse content assist will create the method for you.
...	...	@@ -148,7 +148,7 @@
148	148
149	149	== Creating a Model ==
150	150
151		-To create a model programmatically you cannot directly use the Java classes generated for the model. Instead, the main package contains interfaces for all of your model object classes. The {{code language="none"}}impl{{/code}} package contains the actual implementation and the {{code language="none"}}util{{/code}} package contains some helper classes. Do not instantiate objects directly by manually calling {{code language="none"}}new{{/code}}. EMF generates a Factory to create new objects. The factory itself uses the singleton pattern to get access to it:
	154	+To create a model programmatically you cannot directly use the Java classes generated for the model. Instead, the main package contains interfaces for all of your model object classes. The {{code language="none"}}impl{{/code}} package contains the actual implementation and the {{code language="none"}}util{{/code}} package contains some helper classes. Do not instantiate objects directly by manually calling {{code language="none"}}new{{/code}}. EMF generates a Factory to create new objects. The factory itself uses the singleton pattern to get access to it:
152	152
153	153	{{code language="java"}}
154	154	SCChartsFactory sccFactory = SCChartsFactory.eINSTANCE;
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160	160
161	161	{{code language="java"}}
162	162	KExpressionsFactory kFactory = KExpressionsFactory.eINSTANCE;
163		-BoolValue boolValue = kFactory.createBoolValue();
	166	+BooleanValue boolValue = kFactory.createBooleanValue();
164	164	{{/code}}
165	165
166	166	For all simple attributes, there are getter and setter methods:
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179	179	List references (multiplicity of > 1) have only a list getter, which is used to manipulate the list:
180	180
181	181	{{code language="java"}}
182		-state.getOutgoingTransitions().add(transition);
	185	+state.outgoingTransitions.add(transition);
183	183	{{/code}}
184	184
185		-{{info title="Plugin Dependencies"}}
186		-You may have noticed that is was not necessary to add a dependency for the kexpressions classes. The SCCharts plugin reexports the dependencies of the other EMF metamodels. Look at the plugin.xml in the SCCharts plugin in the dependency tab for more information.
187		-{{/info}}
188		-
189	189	== Saving a Model ==
190	190
191	191	EMF uses the [[Eclipse Resource concept>>url:http://help.eclipse.org/juno/topic/org.eclipse.platform.doc.isv/guide/resInt.htm?cp=2_0_10||rel="nofollow" shape="rect" class="external-link"]] to save models to files and load models from files. It can use different //Resource Factories// that determine how exactly models are serialized. We will use the [[XMIResourceFactoryImpl>>url:http://download.eclipse.org/modeling/emf/emf/javadoc/2.8.0/org/eclipse/emf/ecore/xmi/impl/XMIResourceFactoryImpl.html||rel="nofollow" shape="rect" class="external-link"]] to save our models to XML files:
...	...	@@ -230,17 +230,7 @@
230	230	1. Execute the main method.
231	231	1. Inspect your SCT file.
232	232	1. Start your SCChart Editor Eclipse instance and load your SCT file. KLighD should now be able to visualize your ABO correctly.
233		-{{/layout-cell}}
234		-{{/layout-section}}
235	235
236		-{{layout-section ac:type="single"}}
237		-{{layout-cell}}
238		-
239		-{{/layout-cell}}
240		-{{/layout-section}}
241		-
242		-{{layout-section ac:type="single"}}
243		-{{layout-cell}}
244	244	= Transforming SCCharts =
245	245
246	246	Transformations from one model to another may be performed within the same metamodel or from metamodel to a different metamodel. Both methods are used in KIELER and in principle they do not really differ in implementation. Nevertheless, if working within the same metamodel you should keep in mind that you're potentially changing the actual model instead of changing another instance (after copying). Both is possible. Just make sure that you know what you're doing.

Confluence.Code.ConfluencePageClass[0]

Id

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1		-16810318
	1	+16810300

URL

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1		-https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/TUT/pages/16810318/SCCharts Development
	1	+https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/TUT/pages/16810300/SCCharts Development