Examples with ExecutionState org.yakindu.sct.model.sexec.ExecutionState used on opensource projects

Example 51 with ExecutionState

use of org.yakindu.sct.model.sexec.ExecutionState in project statecharts by Yakindu.

the class TreeNamingServiceTest method testDefaultNamingServiceState_NoDoubles.

@Test
public void testDefaultNamingServiceState_NoDoubles() {
    for (Statechart statechart : statecharts) {
        // Transform statechart
        ExecutionFlow flow = sequencer.transform(statechart);
        flow = optimizer.transform(flow);
        List<String> names = new ArrayList<>();
        executionflowNamingService.setMaxLength(15);
        executionflowNamingService.setSeparator('_');
        // Initialize naming services for statechart and ExecutionFlow
        executionflowNamingService.initializeNamingService(flow);
        for (ExecutionState state : flow.getStates()) {
            String name = executionflowNamingService.getShortName(state);
            assertEquals(names.contains(name), false);
            names.add(name);
        }
    }
}

Example 52 with ExecutionState

use of org.yakindu.sct.model.sexec.ExecutionState in project statecharts by Yakindu.

the class TreeNamingServiceTest method optimizerCombinationsTest.

@Test
public void optimizerCombinationsTest() {
    Statechart toTest = null;
    for (Statechart statechart : statecharts) {
        if (statechart.getName().equals("DeepEntry")) {
            toTest = statechart;
        }
    }
    assertEquals(true, toTest != null);
    ExecutionFlow flow = sequencer.transform(toTest);
    executionflowNamingService.setMaxLength(0);
    executionflowNamingService.setSeparator('_');
    for (int i = 0; i < (1 << 9); i++) {
        optimizer.inlineReactions((i & (1)) != 0);
        optimizer.inlineExitActions((i & (1 << 1)) != 0);
        optimizer.inlineEntryActions((i & (1 << 2)) != 0);
        optimizer.inlineEnterSequences((i & (1 << 3)) != 0);
        optimizer.inlineExitSequences((i & (1 << 4)) != 0);
        optimizer.inlineChoices((i & (1 << 5)) != 0);
        optimizer.inlineEntries((i & (1 << 6)) != 0);
        optimizer.inlineEnterRegion((i & (1 << 7)) != 0);
        optimizer.inlineExitRegion((i & (1 << 8)) != 0);
        ExecutionFlow optimizedflow = optimizer.transform(flow);
        List<String> names = new ArrayList<>();
        executionflowNamingService.initializeNamingService(optimizedflow);
        for (ExecutionState state : flow.getStates()) {
            String name = executionflowNamingService.getShortName(state);
            assertEquals(names.contains(name), false);
            names.add(name);
        }
    }
}

Example 53 with ExecutionState

use of org.yakindu.sct.model.sexec.ExecutionState in project statecharts by Yakindu.

the class TreeNamingServiceTest method nameLengthTest.

private void nameLengthTest(int maxLength) {
    int num_statecharts = statecharts.size();
    long cumulated_time = 0L;
    for (Statechart statechart : statecharts) {
        // Transform statechart
        ExecutionFlow flow = sequencer.transform(statechart);
        flow = optimizer.transform(flow);
        List<String> names = new ArrayList<>();
        executionflowNamingService.setMaxLength(maxLength);
        executionflowNamingService.setSeparator('_');
        long t0 = System.currentTimeMillis();
        executionflowNamingService.initializeNamingService(flow);
        cumulated_time += System.currentTimeMillis() - t0;
        for (ExecutionState state : flow.getStates()) {
            String name = executionflowNamingService.getShortName(state);
            assertEquals(names.contains(name), false);
            assertEquals(true, name.length() <= maxLength);
            names.add(name);
        }
    }
}

Example 54 with ExecutionState

use of org.yakindu.sct.model.sexec.ExecutionState in project statecharts by Yakindu.

the class ModelSequencerOrthogonalityTest method testBottomUpExitSequence_TwoLevels.

/**
 * When exiting an orthogonal state exits must be performed in a well
 * defined order bottom up with highest priority/order states first.
 */
@Test
public void testBottomUpExitSequence_TwoLevels() {
    Statechart sc = _createStatechart("sc");
    {
        InterfaceScope s_scope = _createInterfaceScope("Interface", sc);
        VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, s_scope);
        Region r = _createRegion("r", sc);
        {
            State s = _createState("s", r);
            {
                _createExitAssignment(v1, s, 42);
                Region r2 = _createRegion("r2", s);
                {
                    State s2 = _createState("s2", r2);
                    {
                        _createExitAssignment(v1, s2, 42);
                        Region r2a = _createRegion("r2a", s2);
                        {
                            _createState("s2a1", r2a);
                            _createState("s2a2", r2a);
                        }
                        Region r2b = _createRegion("r2b", s2);
                        {
                            _createState("s2b1", r2b);
                            _createState("s2b2", r2b);
                        }
                        Region r2c = _createRegion("r2c", s2);
                        {
                            _createState("s2c1", r2c);
                            _createState("s2c2", r2c);
                        }
                    }
                }
                Region r3 = _createRegion("r3", s);
                {
                    State s3 = _createState("s3", r3);
                    {
                        _createExitAssignment(v1, s3, 42);
                        Region r3a = _createRegion("r3a", s3);
                        {
                            _createState("s3a1", r3a);
                            _createState("s3a2", r3a);
                        }
                        Region r3b = _createRegion("r3b", s3);
                        {
                            _createState("s3b1", r3b);
                            _createState("s3b2", r3b);
                        }
                    }
                }
                Region r4 = _createRegion("r4", s);
                {
                    State s4 = _createState("s4", r4);
                    {
                        _createExitAssignment(v1, s4, 42);
                        Region r4a = _createRegion("r4a", s4);
                        {
                            _createState("s4a1", r4a);
                            _createState("s4a2", r4a);
                        }
                        Region r4b = _createRegion("r4b", s4);
                        {
                            _createState("s4b1", r4b);
                            _createState("s4b2", r4b);
                        }
                    }
                }
            }
        }
    }
    ExecutionFlow flow = sequencer.transform(sc);
    ExecutionState _s = assertedState(flow, 0, "sc.r.s");
    ExecutionState _s2 = assertedState(flow, 1, "sc.r.s.r2.s2");
    ExecutionState _s2a1 = assertedState(flow, 2, "sc.r.s.r2.s2.r2a.s2a1");
    ExecutionState _s2a2 = assertedState(flow, 3, "sc.r.s.r2.s2.r2a.s2a2");
    ExecutionState _s2b1 = assertedState(flow, 4, "sc.r.s.r2.s2.r2b.s2b1");
    ExecutionState _s2b2 = assertedState(flow, 5, "sc.r.s.r2.s2.r2b.s2b2");
    ExecutionState _s2c1 = assertedState(flow, 6, "sc.r.s.r2.s2.r2c.s2c1");
    ExecutionState _s2c2 = assertedState(flow, 7, "sc.r.s.r2.s2.r2c.s2c2");
    ExecutionState _s3 = assertedState(flow, 8, "sc.r.s.r3.s3");
    ExecutionState _s3a1 = assertedState(flow, 9, "sc.r.s.r3.s3.r3a.s3a1");
    ExecutionState _s3a2 = assertedState(flow, 10, "sc.r.s.r3.s3.r3a.s3a2");
    ExecutionState _s3b1 = assertedState(flow, 11, "sc.r.s.r3.s3.r3b.s3b1");
    ExecutionState _s3b2 = assertedState(flow, 12, "sc.r.s.r3.s3.r3b.s3b2");
    ExecutionState _s4 = assertedState(flow, 13, "sc.r.s.r4.s4");
    ExecutionState _s4a1 = assertedState(flow, 14, "sc.r.s.r4.s4.r4a.s4a1");
    ExecutionState _s4a2 = assertedState(flow, 15, "sc.r.s.r4.s4.r4a.s4a2");
    ExecutionState _s4b1 = assertedState(flow, 16, "sc.r.s.r4.s4.r4b.s4b1");
    ExecutionState _s4b2 = assertedState(flow, 17, "sc.r.s.r4.s4.r4b.s4b2");
    // check the exit sequence of _s
    Sequence _exit = _s.getExitSequence();
    assertEquals("wrong steps: " + stepListAsString(_exit), 4, _exit.getSteps().size());
    assertCall(_exit, 0, _s2.getSuperScope().getExitSequence());
    assertCall(_exit, 1, _s3.getSuperScope().getExitSequence());
    assertCall(_exit, 2, _s4.getSuperScope().getExitSequence());
    StateSwitch _switch0 = assertedSwitch(_s2.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch0, _s2a1, _s2a2);
    assertSequenceSize(1, assertedStateCase(_switch0, _s2a1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch0, _s2a1).getStep()), 0, _s2a1.getExitSequence());
    assertSequenceSize(1, assertedStateCase(_switch0, _s2a2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch0, _s2a2).getStep()), 0, _s2a2.getExitSequence());
    StateSwitch _switch1 = assertedSwitch(_s2b1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch1, _s2b1, _s2b2);
    assertSequenceSize(1, assertedStateCase(_switch1, _s2b1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch1, _s2b1).getStep()), 0, _s2b1.getExitSequence());
    assertSequenceSize(1, assertedStateCase(_switch1, _s2b2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch1, _s2b2).getStep()), 0, _s2b2.getExitSequence());
    StateSwitch _switch2 = assertedSwitch(_s2c1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch2, _s2c1, _s2c2);
    assertSequenceSize(1, assertedStateCase(_switch2, _s2c1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch2, _s2c1).getStep()), 0, _s2c1.getExitSequence());
    assertSequenceSize(4, _s2.getExitSequence());
    assertCall(_s2.getExitSequence(), 3, _s2.getExitAction());
    assertSequenceSize(1, assertedStateCase(_switch2, _s2c2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch2, _s2c2).getStep()), 0, _s2c2.getExitSequence());
    StateSwitch _switch3 = assertedSwitch(_s3a1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch3, _s3a1, _s3a2);
    assertSequenceSize(1, assertedStateCase(_switch3, _s3a1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch3, _s3a1).getStep()), 0, _s3a1.getExitSequence());
    assertSequenceSize(1, assertedStateCase(_switch3, _s3a2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch3, _s3a2).getStep()), 0, _s3a2.getExitSequence());
    StateSwitch _switch4 = assertedSwitch(_s3b1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch4, _s3b1, _s3b2);
    assertSequenceSize(1, assertedStateCase(_switch4, _s3b1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch4, _s3b1).getStep()), 0, _s3b1.getExitSequence());
    assertCall(assertedSequence(assertedStateCase(_s3.getSuperScope().getExitSequence().getSteps().get(1), _s3b1).getStep()), 1, _s3.getExitAction());
    assertSequenceSize(1, assertedStateCase(_switch4, _s3b2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch4, _s3b2).getStep()), 0, _s3b2.getExitSequence());
    assertCall(assertedSequence(assertedStateCase(_s3.getSuperScope().getExitSequence().getSteps().get(1), _s3b2).getStep()), 1, _s3.getExitAction());
    StateSwitch _switch5 = assertedSwitch(_s4a1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch5, _s4a1, _s4a2);
    assertSequenceSize(1, assertedStateCase(_switch5, _s4a1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch5, _s4a1).getStep()), 0, _s4a1.getExitSequence());
    assertSequenceSize(1, assertedStateCase(_switch5, _s4a2).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch5, _s4a2).getStep()), 0, _s4a2.getExitSequence());
    StateSwitch _switch6 = assertedSwitch(_s4b1.getSuperScope().getExitSequence().getSteps().get(0));
    assertStateSwitch(_switch6, _s4b1, _s4b2);
    assertSequenceSize(1, assertedStateCase(_switch6, _s4b1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch6, _s4b1).getStep()), 0, _s4b1.getExitSequence());
    assertCall(assertedSequence(assertedStateCase(_s4.getSuperScope().getExitSequence().getSteps().get(1), _s4b1).getStep()), 1, _s4.getExitAction());
    assertSequenceSize(1, assertedStateCase(_switch6, _s4b1).getStep());
    assertCall(assertedSequence(assertedStateCase(_switch6, _s4b2).getStep()), 0, _s4b2.getExitSequence());
    assertCall(_s4.getExitSequence(), 2, _s4.getExitAction());
    assertCall(_exit, 3, _s.getExitAction());
}

Example 55 with ExecutionState

use of org.yakindu.sct.model.sexec.ExecutionState in project statecharts by Yakindu.

the class ModelSequencerOrthogonalityTest method testSiblingRegionExitOnComposite.

/**
 * For a transition all composite state with orthogonal siblings on the exit
 * path must invoke the exit sequence of the orthogonal sibling regions.
 */
@Test
public void testSiblingRegionExitOnComposite() {
    Statechart sc = _createStatechart("sc");
    {
        InterfaceScope s_scope = _createInterfaceScope("Interface", sc);
        VariableDefinition v1 = _createVariableDefinition("v1", TYPE_INTEGER, s_scope);
        Region r = _createRegion("r", sc);
        {
            Entry r_entry = _createEntry(EntryKind.INITIAL, null, r);
            State s1 = _createState("s1", r);
            {
                Region r2 = _createRegion("r2", s1);
                {
                    Entry r2_entry = _createEntry(EntryKind.INITIAL, null, r2);
                    State s2 = _createState("s2", r2);
                    _createTransition(r2_entry, s2);
                }
                Region r3 = _createRegion("r3", s1);
                {
                    Entry r3_entry = _createEntry(EntryKind.INITIAL, null, r3);
                    State s3 = _createState("s3", r3);
                    {
                        Region r3a = _createRegion("r3a", s3);
                        {
                            Entry r3a_entry = _createEntry(EntryKind.INITIAL, null, r3a);
                            State s3a = _createState("s3a", r3a);
                            _createTransition(r3a_entry, s3a);
                        }
                        Region r3b = _createRegion("r3b", s3);
                        {
                            Entry r3b_entry = _createEntry(EntryKind.INITIAL, null, r3b);
                            State s3b = _createState("s3b", r3b);
                            _createTransition(r3b_entry, s3b);
                        }
                        Region r3c = _createRegion("r3c", s3);
                        {
                            Entry r3c_entry = _createEntry(EntryKind.INITIAL, null, r3c);
                            State s3c = _createState("s3c", r3c);
                            _createTransition(r3c_entry, s3c);
                        }
                    }
                    _createEntryAssignment(v1, s3, 42);
                    _createTransition(r3_entry, s3);
                }
                Region r4 = _createRegion("r4", s1);
                {
                    Entry r4_entry = _createEntry(EntryKind.INITIAL, null, r4);
                    State s4 = _createState("s4", r4);
                    _createTransition(r4_entry, s4);
                }
            }
            _createTransition(r_entry, s1);
            State s5 = _createState("s5", r);
            _createTransition(findState(sc, "s3b"), s5);
        }
    }
    ExecutionFlow flow = sequencer.transform(sc);
    ExecutionState _s2 = flow.getStates().get(1);
    assertEquals("sc.r.s1.r2.s2", _s2.getName());
    ExecutionState _s3 = flow.getStates().get(2);
    assertEquals("sc.r.s1.r3.s3", _s3.getName());
    ExecutionState _s3a = flow.getStates().get(3);
    assertEquals("sc.r.s1.r3.s3.r3a.s3a", _s3a.getName());
    ExecutionState _s3b = flow.getStates().get(4);
    assertEquals("sc.r.s1.r3.s3.r3b.s3b", _s3b.getName());
    ExecutionState _s3c = flow.getStates().get(5);
    assertEquals("sc.r.s1.r3.s3.r3c.s3c", _s3c.getName());
    ExecutionState _s4 = flow.getStates().get(6);
    assertEquals("sc.r.s1.r4.s4", _s4.getName());
    ExecutionState _s5 = flow.getStates().get(7);
    assertEquals("sc.r.s5", _s5.getName());
    Reaction _t = _s3b.getReactions().get(0);
    assertTrue(_t.isTransition());
    Sequence _effect = (Sequence) _t.getEffect();
    assertEquals(2, _effect.getSteps().size());
    assertedOrder(_effect, Lists.newArrayList(_s2, _s3a, _s3b, _s3c, _s4), Lists.newArrayList(new StepLeaf(_s2.getExitSequence()), new StepLeaf(_s3a.getExitSequence()), new StepLeaf(_s3b.getExitSequence()), new StepLeaf(_s3c.getExitSequence()), new StepLeaf(_s4.getExitSequence())));
    // Step _switch = _effect.getSteps().get(0);
    // assertStateSwitch(_switch, _s2);
    // assertCall(assertedSequence(assertedStateCase(_switch,
    // _s2).getStep()),
    // 0, _s2.getExitSequence());
    // 
    // _switch = _effect.getSteps().get(1);
    // assertStateSwitch(_switch, _s3a);
    // assertCall(
    // assertedSequence(assertedStateCase(_switch, _s3a).getStep()),
    // 0, _s3a.getExitSequence());
    // 
    // assertCall(_effect, 2, _s3b.getExitSequence());
    // 
    // _switch = _effect.getSteps().get(3);
    // assertStateSwitch(_switch, _s3c);
    // assertCall(
    // assertedSequence(assertedStateCase(_switch, _s3c).getStep()),
    // 0, _s3c.getExitSequence());
    // 
    // _switch = _effect.getSteps().get(4);
    // assertStateSwitch(_switch, _s4);
    // assertCall(assertedSequence(assertedStateCase(_switch,
    // _s4).getStep()),
    // 0, _s4.getExitSequence());
    assertCall(_effect, 1, _s5.getEnterSequences().get(0));
}