/**
   * If a entry trigger is combined with a guard condition then the entry action is executed
   * conditionally with this trigger.
   */
  @Test
  public void testExitActionWithoutGuard() {

    Statechart sc = _createStatechart("test");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("main", sc);
    Entry e = _createEntry(EntryKind.INITIAL, null, r);
    State s1 = _createState("s1", r);
    State s2 = _createState("s2", r);
    _createTransition(e, s1);
    _createTransition(s1, s2);
    LocalReaction exitAction = _createExitAction(s2);
    _createVariableAssignment(
        v1, AssignmentOperator.ASSIGN, _createValue(42), (ReactionEffect) exitAction.getEffect());
    // ((ReactionTrigger)entryAction.getTrigger()).setGuardExpression(_createValue(true));

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    ExecutionState _s2 = flow.getStates().get(1);
    assertEquals(s1.getName(), _s1.getSimpleName());
    assertEquals(s2.getName(), _s2.getSimpleName());

    Sequence _exitSeq = (Sequence) _s2.getExitAction();

    assertClass(Sequence.class, _exitSeq.getSteps().get(0));
    assertAssignment(
        ((Sequence) _exitSeq.getSteps().get(0)).getSteps().get(0),
        "v1",
        AssignmentOperator.ASSIGN,
        "42");
  }
  /** The exit action must be part of the reaction effect sequence */
  @SuppressWarnings("unused")
  @Test
  public void testStateReaction_WithEntryAction() {
    SimpleFlatTSC tsc = new SimpleFlatTSC();

    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, tsc.s_scope);
    LocalReaction entryAction = _createEntryAction(tsc.s2);
    AssignmentExpression assign =
        _createVariableAssignment(
            v1,
            AssignmentOperator.ASSIGN,
            _createValue(21),
            (ReactionEffect) entryAction.getEffect());

    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState _s1 = flow.getStates().get(0);
    ExecutionState _s2 = flow.getStates().get(1);
    assertEquals(tsc.s1.getName(), _s1.getSimpleName());
    assertEquals(tsc.s2.getName(), _s2.getSimpleName());

    assertEquals(1, _s1.getReactions().size());
    Reaction reaction = _s1.getReactions().get(0);

    assertNotNull(reaction.getCheck());

    assertNotNull(reaction.getEffect());
    Sequence seq = (Sequence) reaction.getEffect();
    assertEquals(2, seq.getSteps().size());

    assertCall(seq, 0, _s1.getExitSequence());
    assertCall(seq, 1, _s2.getEnterSequences().get(0));
    assertCall(_s2.getEnterSequences().get(0), 0, _s2.getEntryAction());
  }
  /** Local reactions must be created for behavior with 'always' trigger */
  @Test
  public void testAlwaysLocalReaction() {

    Statechart sc = _createStatechart("test");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("main", sc);
    State s = _createState("s", r);

    LocalReaction timeTriggeredReaction =
        _createLocalReaction(s, StextFactory.eINSTANCE.createAlwaysEvent());
    AssignmentExpression assign =
        _createVariableAssignment(
            v1,
            AssignmentOperator.ASSIGN,
            _createValue(42),
            (ReactionEffect) timeTriggeredReaction.getEffect());

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s = flow.getStates().get(0);

    // assert that a local reaction is created
    Reaction reaction = _s.getReactions().get(0);
    PrimitiveValueExpression pve = (PrimitiveValueExpression) reaction.getCheck().getCondition();
    assertBoolLiteral(true, pve.getValue());
  }
 protected Object _execute(final ExitState exitState) {
   Object _xblockexpression = null;
   {
     ExecutionState[] _stateConfiguration = this.executionContext.getStateConfiguration();
     ExecutionState _state = exitState.getState();
     StateVector _stateVector = _state.getStateVector();
     int _offset = _stateVector.getOffset();
     ((List<ExecutionState>) Conversions.doWrapArray(_stateConfiguration)).set(_offset, null);
     _xblockexpression = (null);
   }
   return _xblockexpression;
 }
  /**
   * A leaf state must have a enter sequence. This enter sequence consists of an entry action call
   * and a state enter step.
   */
  @SuppressWarnings("unused")
  @Test
  public void testLeafStateEnterSequence() {
    Statechart sc = _createStatechart("cs");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("r", sc);
    State s1 = _createState("s1", r);
    LocalReaction entryAction = _createEntryAction(s1);
    _createVariableAssignment(
        v1, AssignmentOperator.ASSIGN, _createValue(42), (ReactionEffect) entryAction.getEffect());

    Entry e = _createEntry(EntryKind.INITIAL, null, r);
    Transition t = _createTransition(e, s1);

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals(s1.getName(), _s1.getSimpleName());

    assertNotNull(_s1.getEntryAction());
    assertNotNull(_s1.getEnterSequences().get(0));
    assertEquals(2, _s1.getEnterSequences().get(0).getSteps().size());

    assertCall(_s1.getEnterSequences().get(0), 0, _s1.getEntryAction());

    assertClass(EnterState.class, _s1.getEnterSequences().get(0).getSteps().get(1));
  }
  /** entry actions of a substate must not be included in a states entry action list */
  @Test
  public void testSubStateEntryActionExclusion() {
    Statechart sc = _createStatechart("test");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("main", sc);
    // Entry e = _createEntry(EntryKind.INITIAL, null, r);
    State s2 = _createState("s2", r);

    Region s2_r = _createRegion("sub", s2);
    State s2_1 = _createState("s2_1", s2_r);
    LocalReaction entryAction = _createEntryAction(s2_1);
    _createVariableAssignment(
        v1, AssignmentOperator.ASSIGN, _createValue(42), (ReactionEffect) entryAction.getEffect());
    LocalReaction exitAction = _createExitAction(s2_1);
    _createVariableAssignment(
        v1, AssignmentOperator.ASSIGN, _createValue(43), (ReactionEffect) exitAction.getEffect());

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s2 = flow.getStates().get(0);
    ExecutionState _s2_1 = flow.getStates().get(1);
    assertEquals(s2.getName(), _s2.getSimpleName());
    assertEquals(s2_1.getName(), _s2_1.getSimpleName());

    assertNull(_s2.getEntryAction());
    assertNotNull(_s2_1.getEntryAction());

    assertNull(_s2.getExitAction());
    assertNotNull(_s2_1.getExitAction());
  }
  /** The transition action must be part of the reaction effect sequence */
  @Test
  public void testStateReaction_WithTransitionAction() {
    SimpleFlatTSC tsc = new SimpleFlatTSC();
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, tsc.s_scope);
    ReactionEffect effect = _createReactionEffect(tsc.t1);
    AssignmentExpression assign =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(42), effect);

    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);
    ExecutionState s2 = flow.getStates().get(1);
    assertEquals(tsc.s1.getName(), s1.getSimpleName());
    assertEquals(tsc.s2.getName(), s2.getSimpleName());

    assertEquals(1, s1.getReactions().size());
    Reaction reaction = s1.getReactions().get(0);

    assertNotNull(reaction.getCheck());

    assertNotNull(reaction.getEffect());
    Sequence seq = (Sequence) reaction.getEffect();

    assertCall(seq, 0, s1.getExitSequence());

    assertClass(Sequence.class, seq.getSteps().get(1));
    Execution _exec = (Execution) ((Sequence) seq.getSteps().get(1)).getSteps().get(0);
    AssignmentExpression _assign = (AssignmentExpression) _exec.getStatement();
    assertNotSame(_assign, assign);
    assertNotSame(_assign.getVarRef(), assign.getVarRef());
    assertNotSame(_assign.getVarRef(), v1);

    assertCall(seq, 2, s2.getEnterSequences().get(0));
  }
  /** The enter sequence must be called withnin incoming transitions. */
  @SuppressWarnings("unused")
  @Test
  public void testFinalStateEnterSequenceCall() {

    Statechart sc = _createStatechart("sc");
    {
      InterfaceScope s_scope = _createInterfaceScope("Interface", sc);
      VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, s_scope);
      EventDefinition e1 = _createEventDefinition("e1", s_scope);

      Region r = _createRegion("r", sc);
      {
        State s1 = _createState("s1", r);

        FinalState fs = _createFinalState(r);

        Transition t_s1_fs = _createTransition(s1, fs);
        _createReactionTrigger(t_s1_fs);
        _createRegularEventSpec(e1, (ReactionTrigger) t_s1_fs.getTrigger());
      }
    }

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals("sc.r.s1", _s1.getName());

    ExecutionState _fs = flow.getStates().get(1);
    assertEquals("sc.r._final_", _fs.getName());

    assertNull(_fs.getEntryAction());
    assertNull(_fs.getExitAction());

    // the transition s1 -> fs must includes the fs exit sequence call
    Sequence cycle = _s1.getReactSequence();
    If _if = (If) SCTTestUtil.flattenSequenceStepsAsList(cycle).get(0);
    assertCall(_if.getThenStep(), _s1.getReactions().get(0).getEffect());

    Sequence _seq = (Sequence) _s1.getReactions().get(0).getEffect();
    assertCall(_seq, 1, _fs.getEnterSequences().get(0));
  }
  @Test
  public void testSingleLocalTimeTrigger() {

    Statechart sc = _createStatechart("test");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("main", sc);
    State s = _createState("s", r);

    LocalReaction timeTriggeredReaction =
        _createTimeTriggeredReaction(s, TimeEventType.AFTER, _createValue(2), TimeUnit.MILLISECOND);
    AssignmentExpression assign =
        _createVariableAssignment(
            v1,
            AssignmentOperator.ASSIGN,
            _createValue(42),
            (ReactionEffect) timeTriggeredReaction.getEffect());

    ExecutionFlow flow = sequencer.transform(sc);

    Scope timerScope = flow.getScopes().get(1);
    assertTrue(timerScope.getDeclarations().get(0) instanceof TimeEvent);

    TimeEvent te = (TimeEvent) timerScope.getDeclarations().get(0);

    // assert that the reaction check checks the time event
    ExecutionState _s = flow.getStates().get(0);

    // assert the scheduling of the time event during state entry
    assertNotNull(_s.getEntryAction());
    Sequence entryAction = (Sequence) _s.getEntryAction();
    ScheduleTimeEvent ste = (ScheduleTimeEvent) entryAction.getSteps().get(0);
    assertSame(te, ste.getTimeEvent());
    PrimitiveValueExpression value = (PrimitiveValueExpression) ste.getTimeValue();
    assertIntLiteral(2, value.getValue());
    assertNotNull(_s.getExitAction());
    Sequence exitAction = (Sequence) _s.getExitAction();
    UnscheduleTimeEvent ute = (UnscheduleTimeEvent) exitAction.getSteps().get(0);
    assertSame(te, ute.getTimeEvent());
  }
Exemplo n.º 10
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 public void runCycle() throws ExecutionException {
   {
     this.externalExecutionContext.flush();
     this.nextSVIdx = 0;
     this.execute(this.brc);
     ExecutionState[] _stateConfiguration = this.executionContext.getStateConfiguration();
     int _size = ((List<ExecutionState>) Conversions.doWrapArray(_stateConfiguration)).size();
     boolean _operator_lessThan =
         ComparableExtensions.<Integer>operator_lessThan(
             ((Integer) this.nextSVIdx), ((Integer) _size));
     Boolean _xwhileexpression = _operator_lessThan;
     while (_xwhileexpression) {
       {
         ExecutionState[] _stateConfiguration_1 = this.executionContext.getStateConfiguration();
         ExecutionState _get =
             ((List<ExecutionState>) Conversions.doWrapArray(_stateConfiguration_1))
                 .get(this.nextSVIdx);
         ExecutionState state = _get;
         boolean _operator_notEquals = ObjectExtensions.operator_notEquals(state, null);
         if (_operator_notEquals) {
           Sequence _reactSequence = state.getReactSequence();
           this.execute(_reactSequence);
         }
         int _operator_plus =
             IntegerExtensions.operator_plus(((Integer) this.nextSVIdx), ((Integer) 1));
         this.nextSVIdx = _operator_plus;
       }
       ExecutionState[] _stateConfiguration_2 = this.executionContext.getStateConfiguration();
       int _size_1 =
           ((List<ExecutionState>) Conversions.doWrapArray(_stateConfiguration_2)).size();
       boolean _operator_lessThan_1 =
           ComparableExtensions.<Integer>operator_lessThan(
               ((Integer) this.nextSVIdx), ((Integer) _size_1));
       _xwhileexpression = _operator_lessThan_1;
     }
     this.executionContext.resetRaisedEvents();
     this.execute(this.erc);
   }
 }
Exemplo n.º 11
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  /** Exit action behaviors are not directly part of the states cycle steps */
  @SuppressWarnings("unused")
  @Test
  public void testStateCycle_ExitActionExclusion() {
    MinimalTSC tsc = new MinimalTSC();

    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, tsc.s_scope);

    // add a simple entry action: "entry / x=42;"
    LocalReaction lr = _createExitAction(tsc.s1);
    ReactionEffect lr_eff = _createReactionEffect(lr);
    AssignmentExpression assign1 =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(42), lr_eff);

    // TRANSFORM
    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);

    assertEquals(0, s1.getReactions().size());
    assertNotNull(s1.getReactSequence());
    assertEquals(1, s1.getReactSequence().getSteps().size());
  }
  /**
   * If a time trigger is defined for a transition then an event must be introduced into the
   * execution flow.
   */
  @Test
  public void testSingleTransitionTimeTrigger() {

    Statechart sc = _createStatechart("test");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("main", sc);
    State s = _createState("s", r);

    Transition t = _createTransition(s, s);
    ReactionTrigger tr1 = _createReactionTrigger(t);
    _createTimeEventSpec(TimeEventType.AFTER, _createValue(1), TimeUnit.SECOND, tr1);

    AssignmentExpression assign =
        _createVariableAssignment(
            v1, AssignmentOperator.ASSIGN, _createValue(42), (ReactionEffect) t.getEffect());

    ExecutionFlow flow = sequencer.transform(sc);

    // assert definition of time event
    Scope timerScope = flow.getScopes().get(1);
    assertTrue(timerScope.getDeclarations().get(0) instanceof TimeEvent);

    TimeEvent te = (TimeEvent) timerScope.getDeclarations().get(0);

    // assert that the reaction check checks the time event
    assertEquals(1, flow.getStates().size());
    ExecutionState _s = flow.getStates().get(0);
    assertEquals(s.getName(), _s.getSimpleName());
    If _if =
        (If)
            SCTTestUtil.flattenSequenceStepsAsList(flow.getStates().get(0).getReactSequence())
                .get(0);

    ElementReferenceExpression _ere = (ElementReferenceExpression) _if.getCheck().getCondition();
    assertSame(te, _ere.getReference());

    // assert the scheduling of the time event during state entry
    assertNotNull(_s.getEntryAction());
    Sequence entryAction = (Sequence) _s.getEntryAction();
    ScheduleTimeEvent ste = (ScheduleTimeEvent) entryAction.getSteps().get(0);
    assertSame(te, ste.getTimeEvent());
    NumericalMultiplyDivideExpression multiply =
        (NumericalMultiplyDivideExpression) ste.getTimeValue();
    assertIntLiteral(1, ((PrimitiveValueExpression) multiply.getLeftOperand()).getValue());
    assertIntLiteral(1000, ((PrimitiveValueExpression) multiply.getRightOperand()).getValue());
    assertEquals(MultiplicativeOperator.MUL, multiply.getOperator());

    // assert the unscheduling of the time events during state exit
    assertNotNull(_s.getExitAction());
    Sequence exitAction = (Sequence) _s.getExitAction();
    UnscheduleTimeEvent ute = (UnscheduleTimeEvent) exitAction.getSteps().get(0);
    assertSame(te, ute.getTimeEvent());
  }
Exemplo n.º 13
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  @Test
  public void testStateReaction_SimpleFlatTSC() {
    SimpleFlatTSC tsc = new SimpleFlatTSC();

    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);
    ExecutionState s2 = flow.getStates().get(1);
    assertEquals(tsc.s1.getName(), s1.getSimpleName());
    assertEquals(tsc.s2.getName(), s2.getSimpleName());

    assertEquals(1, s1.getReactions().size());
    Reaction reaction = s1.getReactions().get(0);

    assertNotNull(reaction.getCheck());

    assertNotNull(reaction.getEffect());
    Sequence seq = (Sequence) reaction.getEffect();

    assertCall(seq, 0, s1.getExitSequence());
    assertCall(seq, 1, s2.getEnterSequences().get(0));
  }
Exemplo n.º 14
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  /**
   * A leaf state must have a enter sequence. This enter sequence consists of an entry action call
   * and a state enter step.
   */
  @SuppressWarnings("unused")
  @Test
  public void testFinalStateEnterSequence() {
    Statechart sc = _createStatechart("cs");
    Scope scope = _createInterfaceScope("interface", sc);
    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);
    Region r = _createRegion("r", sc);
    FinalState fs = _createFinalState(r);

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _fs = flow.getStates().get(0);
    assertEquals("_final_0", _fs.getSimpleName());
    assertSame(fs, _fs.getSourceElement());

    assertNull(_fs.getEntryAction());
    assertNotNull(_fs.getEnterSequences().get(0));

    assertEquals(1, _fs.getEnterSequences().get(0).getSteps().size());
    assertClass(EnterState.class, _fs.getEnterSequences().get(0).getSteps().get(0));
  }
Exemplo n.º 15
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  /** A final state must have a exit sequence. This exit sequence consists of a state exit step. */
  @SuppressWarnings("unused")
  @Test
  public void testFinalStateExitSequence() {
    Statechart sc = _createStatechart("cs");
    Scope scope = _createInterfaceScope("interface", sc);
    Region r = _createRegion("r", sc);
    FinalState fs = _createFinalState(r);

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _fs = flow.getStates().get(0);
    assertEquals("_final_0", _fs.getSimpleName());

    assertNull(_fs.getExitAction());
    assertNotNull(_fs.getExitSequence());
    assertEquals(1, _fs.getExitSequence().getSteps().size());

    assertClass(ExitState.class, _fs.getExitSequence().getSteps().get(0));
  }
Exemplo n.º 16
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  /**
   * Local reactions that define regular and entry triggers side by side must also be part of the
   * cycle steps.
   */
  @SuppressWarnings("unused")
  @Test
  public void testStateCycle_LocalReactionWithMixedRegularAndEntryTrigger() {
    MinimalTSC tsc = new MinimalTSC();

    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, tsc.s_scope);

    // add a simple entry action: "entry / x=42;"
    LocalReaction lr = _createEntryAction(tsc.s1);
    _createRegularEventSpec(tsc.e1, (ReactionTrigger) lr.getTrigger());
    ReactionEffect lr_eff = _createReactionEffect(lr);
    AssignmentExpression assign1 =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(42), lr_eff);

    // TRANSFORM
    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);

    assertEquals(1, s1.getReactions().size());
    assertNotNull(s1.getReactSequence());
    assertEquals(1, s1.getReactSequence().getSteps().size());

    Sequence _seq = (Sequence) s1.getReactSequence().getSteps().get(0);

    If _lr1 =
        (If)
            assertedSequence(assertedSequence(_seq.getSteps().get(0)).getSteps().get(0))
                .getSteps()
                .get(0);
    assertClass(ElementReferenceExpression.class, _lr1.getCheck().getCondition());
    assertSame(s1.getReactions().get(0).getCheck().getCondition(), _lr1.getCheck().getCondition());
    Call _lr1_eff_call = (Call) _lr1.getThenStep();
    assertSame(s1.getReactions().get(0).getEffect(), _lr1_eff_call.getStep());
  }
  public ExecutionState getAssertedExState(ExecutionFlow flow, int offset, String name) {
    ExecutionState s = flow.getStates().get(offset);
    assertEquals(name, s.getName());

    return s;
  }
Exemplo n.º 18
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  /**
   * A composite state must have a enter sequence. This enter sequence consists of an entry action
   * call and a enter sequence call for each sub region.
   */
  @Test
  public void testCompositeStateEnterSequence() {
    Statechart sc = _createStatechart("cs");
    {
      Scope scope = _createInterfaceScope("interface", sc);
      VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);

      Region r = _createRegion("r", sc);
      {
        State s1 = _createState("s1", r);
        {
          _createEntryAssignment(v1, s1, 1);
          Region r1_s1 = _createRegion("r1", s1);
          {
            Entry e = _createEntry(EntryKind.INITIAL, null, r1_s1);
            State s2 = _createState("s2", r1_s1);
            _createTransition(e, s2);
          }
          Region r2_s1 = _createRegion("r2", s1);
          {
            Entry e = _createEntry(EntryKind.INITIAL, null, r2_s1);
            State s3 = _createState("s3", r2_s1);
            _createTransition(e, s3);
          }
        }

        Entry e = _createEntry(EntryKind.INITIAL, null, r);
        _createTransition(e, s1);
      }
    }

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals("s1", _s1.getSimpleName());

    ExecutionState _s2 = flow.getStates().get(1);
    assertEquals("s2", _s2.getSimpleName());

    ExecutionState _s3 = flow.getStates().get(2);
    assertEquals("s3", _s3.getSimpleName());

    assertNotNull(_s1.getEntryAction());
    assertNotNull(_s1.getEnterSequences().get(0));
    assertEquals(3, _s1.getEnterSequences().get(0).getSteps().size());

    assertCall(_s1.getEnterSequences().get(0), 0, _s1.getEntryAction());
    assertCall(_s1.getEnterSequences().get(0), 1, _s2.getSuperScope().getEnterSequences().get(0));
    Sequence r1EntryReactSequence = flow.getNodes().get(0).getReactSequence();
    assertCall(_s2.getSuperScope().getEnterSequences().get(0), 0, r1EntryReactSequence);
    assertCall(
        ((Sequence) r1EntryReactSequence.getSteps().get(0)), 0, _s2.getEnterSequences().get(0));

    assertCall(_s1.getEnterSequences().get(0), 2, _s3.getSuperScope().getEnterSequences().get(0));
    Sequence r2EntryReactSequence = flow.getNodes().get(1).getReactSequence();
    assertCall(_s3.getSuperScope().getEnterSequences().get(0), 0, r2EntryReactSequence);
    assertCall(
        ((Sequence) r2EntryReactSequence.getSteps().get(0)), 0, _s3.getEnterSequences().get(0));
  }
Exemplo n.º 19
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  /** The state cycle must contain all reactions of parent states. */
  @SuppressWarnings("unused")
  @Test
  public void testStateCycle_WithParent() {

    Statechart sc = _createStatechart("sc");
    {
      InterfaceScope s_scope = _createInterfaceScope("Interface", sc);
      VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, s_scope);
      EventDefinition e1 = _createEventDefinition("e1", s_scope);

      Region r = _createRegion("r", sc);
      {
        State s1 = _createState("s1", r);
        {
          // a local reaction: "e1 / x=42;"
          LocalReaction lr1 = _createLocalReaction(s1, null);
          _createRegularEventSpec(e1, (ReactionTrigger) lr1.getTrigger());
          ReactionEffect lr1_eff = _createReactionEffect(lr1);
          AssignmentExpression assign1 =
              _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(42), lr1_eff);

          Region r_s1 = _createRegion("r", s1);
          {
            State s3 = _createState("s3", r_s1);
            {
              _createEntryAssignment(v1, s3, 2);

              Region r_s3 = _createRegion("r", s3);
              {
                State s4 = _createState("s4", r_s3);
                _createEntryAssignment(v1, s4, 3);

                State s5 = _createState("s5", r_s3);
              }
            }
          }
        }
        State s2 = _createState("s2", r);
        {
          Region r_s1 = _createRegion("r", s2);
          {
            _createState("s6", r_s1);
          }
        }
      }

      Transition t_s4_s5 = _createTransition(findState(sc, "s4"), findState(sc, "s5"));
      _createReactionTrigger(t_s4_s5);
      _createRegularEventSpec(e1, (ReactionTrigger) t_s4_s5.getTrigger());

      Transition t_s3_s6 = _createTransition(findState(sc, "s3"), findState(sc, "s6"));
      _createReactionTrigger(t_s3_s6);
      _createRegularEventSpec(e1, (ReactionTrigger) t_s3_s6.getTrigger());
    }

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals("sc.r.s1", _s1.getName());

    ExecutionState _s3 = flow.getStates().get(1);
    assertEquals("sc.r.s1.r.s3", _s3.getName());

    ExecutionState _s4 = flow.getStates().get(2);
    assertEquals("sc.r.s1.r.s3.r.s4", _s4.getName());

    ExecutionState _s6 = flow.getStates().get(5);
    assertEquals("sc.r.s2.r.s6", _s6.getName());

    Sequence cycle = _s4.getReactSequence();

    Sequence _seq = (Sequence) cycle.getSteps().get(0);

    // first entry is the s1 local reaction
    List<Step> steps = SCTTestUtil.flattenSequenceStepsAsList(_seq);
    If _if = (If) steps.get(0);
    assertCall(_if.getThenStep(), _s1.getReactions().get(0).getEffect());

    // second entry is the s3 cycle with the transition reaction
    _if = (If) steps.get(1);
    assertCall(_if.getThenStep(), _s3.getReactions().get(0).getEffect());
    assertTrue(_s3.getReactions().get(0).isTransition());

    // third is the s4 cycle with the transition reaction
    _seq = (Sequence) _if.getElseStep();
    cycle = (Sequence) _seq.getSteps().get(0);
    _if = (If) cycle.getSteps().get(0);
    assertCall(_if.getThenStep(), _s4.getReactions().get(0).getEffect());
    assertTrue(_s4.getReactions().get(0).isTransition());
    assertNull(_if.getElseStep());
    assertEquals(1, cycle.getSteps().size());
  }
Exemplo n.º 20
0
  /**
   * The cycle sequence of a state that only consists of local reactions includes sequential
   * processing of the local reactions.
   */
  @SuppressWarnings("unused")
  @Test
  public void testStateCycle_WithLocalReactionsOnly() {
    MinimalTSC tsc = new MinimalTSC();

    VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, tsc.s_scope);

    // the first local reaction conforms to "e1 / x=42;"
    LocalReaction lr1 = _createLocalReaction(tsc.s1, null);
    _createRegularEventSpec(tsc.e1, (ReactionTrigger) lr1.getTrigger());
    ReactionEffect lr1_eff = _createReactionEffect(lr1);
    AssignmentExpression assign1 =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(42), lr1_eff);

    // the secont local reaction conforms to "e1 [x==42] / x=0;"
    LocalReaction lr2 = _createLocalReaction(tsc.s1, null);
    _createRegularEventSpec(tsc.e1, (ReactionTrigger) lr2.getTrigger());
    LogicalRelationExpression lr2_equals =
        ExpressionsFactory.eINSTANCE.createLogicalRelationExpression();
    lr2_equals.setOperator(RelationalOperator.EQUALS);
    ElementReferenceExpression lr2_varRef =
        ExpressionsFactory.eINSTANCE.createElementReferenceExpression();
    lr2_varRef.setReference(v1);
    PrimitiveValueExpression lr2_value = _createValue(42);
    lr2_equals.setLeftOperand(lr2_varRef);
    lr2_equals.setRightOperand(lr2_value);
    ((ReactionTrigger) lr2.getTrigger()).setGuard(createGuardExpression(lr2_equals));
    ReactionEffect lr2_eff = _createReactionEffect(lr2);
    AssignmentExpression assign2 =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(0), lr2_eff);

    // the third local reaction conforms to: "[x==0] / x=1;"
    LocalReaction lr3 = _createLocalReaction(tsc.s1, null);
    LogicalRelationExpression lr3_equals =
        ExpressionsFactory.eINSTANCE.createLogicalRelationExpression();
    lr3_equals.setOperator(RelationalOperator.EQUALS);
    ElementReferenceExpression lr3_varRef =
        ExpressionsFactory.eINSTANCE.createElementReferenceExpression();
    lr3_varRef.setReference(v1);
    PrimitiveValueExpression lr3_value = _createValue(0);
    lr3_equals.setLeftOperand(lr3_varRef);
    lr3_equals.setRightOperand(lr3_value);
    ((ReactionTrigger) lr3.getTrigger()).setGuard(createGuardExpression(lr3_equals));
    ReactionEffect lr3_eff = _createReactionEffect(lr3);
    AssignmentExpression assign3 =
        _createVariableAssignment(v1, AssignmentOperator.ASSIGN, _createValue(1), lr3_eff);

    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);
    assertEquals(tsc.s1.getName(), s1.getSimpleName());

    assertEquals(3, s1.getReactions().size());

    assertNotNull(s1.getReactSequence());

    Step step = s1.getReactSequence().getSteps().get(0);
    Sequence _seq =
        (Sequence) assertedSequence(assertedSequence(step).getSteps().get(0)).getSteps().get(0);
    assertEquals(3, _seq.getSteps().size());

    // check first local reaction
    If _lr1 = (If) _seq.getSteps().get(0);
    assertClass(ElementReferenceExpression.class, _lr1.getCheck().getCondition());
    assertSame(s1.getReactions().get(0).getCheck().getCondition(), _lr1.getCheck().getCondition());
    Call _lr1_eff_call = (Call) _lr1.getThenStep();
    assertSame(s1.getReactions().get(0).getEffect(), _lr1_eff_call.getStep());

    // check second local reaction
    If _lr2 = (If) _seq.getSteps().get(1);
    assertClass(LogicalAndExpression.class, _lr2.getCheck().getCondition());
    assertSame(s1.getReactions().get(1).getCheck().getCondition(), _lr2.getCheck().getCondition());
    Call _lr2_eff_call = (Call) _lr2.getThenStep();
    assertSame(s1.getReactions().get(1).getEffect(), _lr2_eff_call.getStep());

    // check the third local reaction
    If _lr3 = (If) _seq.getSteps().get(2);
    assertClass(LogicalRelationExpression.class, _lr3.getCheck().getCondition());
    assertSame(s1.getReactions().get(2).getCheck().getCondition(), _lr3.getCheck().getCondition());
    Call _lr3_eff_call = (Call) _lr3.getThenStep();
    assertSame(s1.getReactions().get(2).getEffect(), _lr3_eff_call.getStep());
  }
Exemplo n.º 21
0
  @Test
  public void testStateCycle() {
    OrthogonalFlatTSC tsc = new OrthogonalFlatTSC();

    ExecutionFlow flow = sequencer.transform(tsc.sc);

    // test state with one outgoing transition
    ExecutionState s1 = flow.getStates().get(0);
    ExecutionState s2 = flow.getStates().get(1);
    assertEquals(tsc.s1.getName(), s1.getSimpleName());
    assertEquals(tsc.s2.getName(), s2.getSimpleName());
    assertNotNull(s1.getReactSequence());

    Step step = s1.getReactSequence().getSteps().get(0);
    If _if = (If) assertedSequence(assertedSequence(step).getSteps().get(0)).getSteps().get(0);
    assertNotNull(_if.getThenStep());
    assertClass(Call.class, _if.getThenStep());
    assertNull(_if.getElseStep());

    Call seq = (Call) _if.getThenStep();
    assertEquals(s1.getReactions().get(0).getEffect(), seq.getStep());

    // assertTrue(seq.getSteps().get(0) instanceof ExitState);
    // assertEquals(s1, ((ExitState)seq.getSteps().get(0)).getState());
    // assertTrue(seq.getSteps().get(1) instanceof EnterState);
    // assertEquals(s2, ((EnterState)seq.getSteps().get(1)).getState());
    //

    // test state with two outgoing transitions
    ExecutionState s3 = flow.getStates().get(2);
    assertEquals(tsc.s3.getName(), s3.getSimpleName());
    assertNotNull(s3.getReactSequence());

    step = s3.getReactSequence().getSteps().get(0);
    _if = (If) step;
    assertNotNull(_if.getThenStep());
    assertClass(Call.class, _if.getThenStep());
    assertNotNull(_if.getElseStep());
    assertClass(If.class, _if.getElseStep());
  }
Exemplo n.º 22
0
  /**
   * A composite state must have a exit sequence. This exit sequence consists of an exit action call
   * and a state switch for all leaf states.
   */
  @SuppressWarnings("unused")
  @Test
  public void testCompositeStateExitSequence() {
    Statechart sc = _createStatechart("cs");
    {
      Scope scope = _createInterfaceScope("interface", sc);
      VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, scope);

      Region r = _createRegion("r", sc);
      {
        State s1 = _createState("s1", r);
        {
          _createExitAssignment(v1, s1, 1);
          Region r1_s1 = _createRegion("r1", s1);
          {
            Entry e = _createEntry(EntryKind.INITIAL, null, r1_s1);
            State s2 = _createState("s2", r1_s1);
            State s3 = _createState("s3", r1_s1);
            _createTransition(e, s2);
            _createTransition(s2, s3);
          }
          Region r2_s1 = _createRegion("r2", s1);
          {
            Entry e = _createEntry(EntryKind.INITIAL, null, r2_s1);
            State s4 = _createState("s4", r2_s1);
            State s5 = _createState("s5", r2_s1);
            State s6 = _createState("s6", r2_s1);
            _createTransition(e, s4);
          }
        }
      }
    }

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals("s1", _s1.getSimpleName());

    ExecutionState _s2 = flow.getStates().get(1);
    assertEquals("s2", _s2.getSimpleName());

    ExecutionState _s3 = flow.getStates().get(2);
    assertEquals("s3", _s3.getSimpleName());

    ExecutionState _s4 = flow.getStates().get(3);
    assertEquals("s4", _s4.getSimpleName());

    ExecutionState _s5 = flow.getStates().get(4);
    assertEquals("s5", _s5.getSimpleName());

    ExecutionState _s6 = flow.getStates().get(5);
    assertEquals("s6", _s6.getSimpleName());

    assertNotNull(_s1.getExitAction());
    assertNotNull(_s1.getExitSequence());
    assertEquals(3, _s1.getExitSequence().getSteps().size());

    Sequence _r1_s1 = _s2.getSuperScope().getExitSequence();
    assertCall(_s1.getExitSequence(), 0, _r1_s1);
    Sequence _r2_s1 = _s4.getSuperScope().getExitSequence();
    assertCall(_s1.getExitSequence(), 1, _r2_s1);

    Step _switch = _r1_s1.getSteps().get(0);
    assertStateSwitch(_switch, _s2, _s3);
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s2).getStep()), 0, _s2.getExitSequence());
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s3).getStep()), 0, _s3.getExitSequence());

    _switch = _r2_s1.getSteps().get(0);
    assertStateSwitch(_switch, _s4, _s5, _s6);
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s4).getStep()), 0, _s4.getExitSequence());
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s5).getStep()), 0, _s5.getExitSequence());
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s6).getStep()), 0, _s6.getExitSequence());

    assertCall(_s1.getExitSequence(), 2, _s1.getExitAction());
  }
Exemplo n.º 23
0
  /**
   * A composite state must have a exit sequence. This exit sequence consists of an exit action call
   * and a state switch for all leaf states.
   */
  @SuppressWarnings("unused")
  @Test
  public void testCompositeStateExitSequence_Deep() {

    Statechart sc = _createStatechart("sc");
    {
      InterfaceScope s_scope = _createInterfaceScope("Interface", sc);
      VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, s_scope);
      EventDefinition e1 = _createEventDefinition("e1", s_scope);

      Region r = _createRegion("r", sc);
      {
        State s1 = _createState("s1", r);
        {
          _createExitAssignment(v1, s1, 1);

          Region r_s1 = _createRegion("r", s1);
          {
            State s3 = _createState("s3", r_s1);
            {
              _createExitAssignment(v1, s3, 2);

              Region r_s3 = _createRegion("r", s3);
              {
                State s4 = _createState("s4", r_s3);
                _createExitAssignment(v1, s4, 3);

                FinalState fs = _createFinalState(r_s3);
              }
            }
          }
        }
        State s2 = _createState("s2", r);
        {
          Region r_s1 = _createRegion("r", s2);
          {
            _createState("s6", r_s1);
          }
        }
      }
    }

    ExecutionFlow flow = sequencer.transform(sc);

    ExecutionState _s1 = flow.getStates().get(0);
    assertEquals("sc.r.s1", _s1.getName());

    ExecutionState _s3 = flow.getStates().get(1);
    assertEquals("sc.r.s1.r.s3", _s3.getName());

    ExecutionState _s4 = flow.getStates().get(2);
    assertEquals("sc.r.s1.r.s3.r.s4", _s4.getName());

    ExecutionState _fs = flow.getStates().get(3);
    assertEquals("sc.r.s1.r.s3.r._final_", _fs.getName());

    ExecutionState _s6 = flow.getStates().get(5);
    assertEquals("sc.r.s2.r.s6", _s6.getName());

    assertNull(_fs.getEntryAction());
    assertNull(_fs.getExitAction());
    assertNotNull(_fs.getExitSequence());
    assertEquals(2, _s1.getExitSequence().getSteps().size());

    ExecutionScope _r_s1 = _s1.getSubScopes().get(0);

    assertCall(_s1.getExitSequence(), 0, _r_s1.getExitSequence());
    Step _switch = _r_s1.getExitSequence().getSteps().get(0);
    assertStateSwitch(_switch, _s4, _fs);
    assertCall(
        assertedSequence(assertedStateCase(_switch, _s4).getStep()), 0, _s4.getExitSequence());
    assertCall(assertedSequence(assertedStateCase(_switch, _s4).getStep()), 1, _s3.getExitAction());
    assertCall(
        assertedSequence(assertedStateCase(_switch, _fs).getStep()), 0, _fs.getExitSequence());
    assertCall(assertedSequence(assertedStateCase(_switch, _fs).getStep()), 1, _s3.getExitAction());

    assertCall(_s1.getExitSequence(), 1, _s1.getExitAction());
  }