path: root/tests/org.eclipse.etrice.generator.java.tests/models/DynamicActorTest1.room

RoomModel DynamicActorTest1 {
	
	import room.basic.test.* from "../../../runtime/org.eclipse.etrice.modellib.java/model/Tests.room"
	import room.basic.types.* from "../../../runtime/org.eclipse.etrice.modellib.java/model/Types.room"
	
	LogicalSystem JavaGenTests {
		SubSystemRef da1Test : SubSystem_DynamicActorTest1
	}
	
	SubSystemClass SubSystem_DynamicActorTest1 {
		ActorRef appl : Appl
	
		LogicalThread defaultThread
	}
	
	ActorClass Appl {
		Structure {
			ActorRef cont: Container
		}
		Behavior { }
	}
	
	ActorClass Container {
		Structure {
			conjugated Port p0: PC
			Attribute caseId: int32
			optional ActorRef opt: Optional
			
			Binding p0 and opt.p0
		}
		Behavior {
			ctor {
				"caseId = etUnit_openAll(\"log\", \"DynamicActorTest1\", \"org.eclipse.etrice.generator.java.tests.DynamicActorTest1\", \"DynamicActorTest1_case\");"
			}
			dtor {
				"etUnit_closeAll(caseId);"
			}
			
			StateMachine {
				Transition init: initial -> CreateOptional2 { }
				Transition tr0: CreateOptional2 -> CreateOptional1 {
					triggers {
						<hello: p0>
					}
					action {
						"EXPECT_TRUE(caseId, \"<|MODEL_LOCATION|>\", transitionData.equals(\"AC3:/JavaGenTests/da1Test/appl/cont/opt/sub2/deep_sub\"));"
						"opt.destroyOptionalActor();"
					}
				}
				Transition tr2: CreateOptional1 -> ReceivedHelloAgain {
					triggers {
						<hello: p0>
					}
					action {
						"EXPECT_TRUE(caseId, \"<|MODEL_LOCATION|>\", transitionData.equals(\"AC1:/JavaGenTests/da1Test/appl/cont/opt/sub1\"));"
						"opt.destroyOptionalActor();"
					}
				}
				State CreateOptional2 {
					entry {
						"opt.createOptionalActor(\"Optional2\", getThread());"
						"p0.sayHello();"
					}
				}
				State CreateOptional1 {
					entry {
						"opt.createOptionalActor(\"Optional1\", getThread());"
						"p0.sayHello();"
					}
				}
				State ReceivedHelloAgain {
					entry {
						"IRTObject opt = getChild(\"opt\");"
						"int size = opt.getChildren().size();"
						""
						"// we expect the RTSystemPort and the InterfaceItemBroker"
						"EXPECT_EQUAL_INT32(caseId, \"<|MODEL_LOCATION|>\", 2, size);"
						""
						"etUnit_testFinished(caseId);"
					}
				}
			}
		}
	}
	
	// the class that is referenced as optional by the Container
	// since it is abstract it just serves as an interface
	abstract ActorClass Optional {
		Interface {
			Port p0: PC
		}
		Structure { }
		Behavior { }
	}
	
	// a sub class of Optional which is valid as optional actor
	ActorClass Optional1 extends Optional {
		Structure {
			ActorRef sub1: AC1
			Binding p0 and sub1.p0
		}
		Behavior { }
	}
	
	// a sub class of Optional which is valid as optional actor
	ActorClass Optional2 extends Optional {
		Structure {
			ActorRef sub2: AC2
			Binding p0 and sub2.p0
		}
		Behavior { }
	}
	
	// the following actor classes are part of the possible optional instance sub trees
	
	ActorClass AC1 {
		Interface {
			Port p0: PC
		}
		Structure {
			external Port p0
		}
		Behavior {
			StateMachine {
				Transition init: initial -> Ready { }
				Transition tr0: Ready -> Ready {
					triggers {
						<sayHello: p0>
					}
					action {
						"p0.hello(\"AC1:\"+getInstancePath());"
					}
				}
				State Ready
			}
		}
	}
	
	ActorClass AC2 {
		Interface {
			Port p0: PC
		}
		Structure {
			ActorRef deep_sub: AC3
			Binding p0 and deep_sub.p0
		}
		Behavior { }
	}
	
	ActorClass AC3 {
		Interface {
			Port p0: PC
		}
		Structure {
			external Port p0
		}
		Behavior {
			StateMachine {
				Transition init: initial -> Ready { }
				Transition tr0: Ready -> Ready {
					triggers {
						<sayHello: p0>
					}
					action {
						"p0.hello(\"AC3:\"+getInstancePath());"
					}
				}
				State Ready
			}
		}
	}
	
	// a simple protocol that is used to demonstrate that actors are connected
	ProtocolClass PC {
		incoming {
			Message sayHello()
		}
		outgoing {
			Message hello(txt: string)
		}
	}
}