@Test public void testToyTemplateInstantiation() { String path = UNIT_BASEDIR + "loc_init/"; SpaceExDocument spaceExDoc = SpaceExImporter.importModels(path + "one_init.cfg", path + "model.xml"); // 2. convert the SpaceEx data structures to template automata Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(spaceExDoc); // 3. run any component template passes here (future) // 4. instantiate the component templates into a networked configuration Configuration c = ConfigurationMaker.fromSpaceEx(spaceExDoc, componentTemplates); Assert.assertTrue( "first configuration plot variable is t", c.settings.plotVariableNames[0].equals("t")); Assert.assertTrue("root is a network component", c.root instanceof NetworkComponent); NetworkComponent system = (NetworkComponent) c.root; Assert.assertTrue("root has one child", system.children.size() == 1); BaseComponent toy = (BaseComponent) system.children.values().iterator().next().child; Assert.assertTrue("child has two transitions", toy.transitions.size() == 2); }
@Test public void testToyFullyQualified() { String path = UNIT_BASEDIR + "loc_init/"; SpaceExDocument spaceExDoc = SpaceExImporter.importModels(path + "one_init.cfg", path + "model.xml"); // 2. convert the SpaceEx data structures to template automata Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(spaceExDoc); // 3. run any component template passes here (future) // 4. instantiate the component templates into a networked configuration Configuration c = ConfigurationMaker.fromSpaceEx(spaceExDoc, componentTemplates); FlattenRenameUtils.convertToFullyQualifiedParams(c.root); Assert.assertTrue("root is a network component", c.root instanceof NetworkComponent); NetworkComponent system = (NetworkComponent) c.root; Assert.assertTrue("root has one child", system.children.size() == 1); BaseComponent toy = (BaseComponent) system.children.values().iterator().next().child; Assert.assertTrue( "fully-qualified child (toy) has constant renamed to timeout", toy.constants.containsKey("timeout")); Assert.assertTrue("child has two transitions", toy.transitions.size() == 2); c.root.validate(); }
@Test public void testHeaterInstantiation() { String path = UNIT_BASEDIR + "controller_heater/"; SpaceExDocument spaceExDoc = SpaceExImporter.importModels( path + "controller_heater.cfg", path + "controller_heater.xml"); // 2. convert the SpaceEx data structures to template automata Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(spaceExDoc); BaseComponent controller = (BaseComponent) componentTemplates.get("ControllerTemplate"); Assert.assertTrue( "controller's first transition has a label", controller.transitions.get(0).label != null); Assert.assertTrue( "controller's first transition's label is 'turn_on'", controller.transitions.get(0).label.equals("turn_on")); BaseComponent heater = (BaseComponent) componentTemplates.get("HeaterTemplate"); Assert.assertTrue( "heaters first transition has a label", heater.transitions.get(0).label != null); Assert.assertTrue( "heaters first transition's label is 'turn_on'", heater.transitions.get(0).label.equals("turn_on")); ConfigurationMaker.fromSpaceEx(spaceExDoc, componentTemplates); }
public static Configuration flatten(SpaceExDocument spaceExDoc) { // 2. convert the SpaceEx data structures to template automata Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(spaceExDoc); // 3. run any component template passes here (future) // 4. instantiate the component templates into a networked configuration Configuration config = ConfigurationMaker.fromSpaceEx(spaceExDoc, componentTemplates); FlattenAutomatonPass.flattenAndOptimize(config); return config; }
@Test public void testPrintInitStates() { // Luan's import test. Init was printing as null when it wasn't null String cfgPath = UNIT_BASEDIR + "loc_init/one_init.cfg"; String xmlPath = UNIT_BASEDIR + "loc_init/model.xml"; SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); Configuration config = com.verivital.hyst.importer.ConfigurationMaker.fromSpaceEx(doc, componentTemplates); String initString = AutomatonUtil.getMapExpressionString(config.init); Assert.assertTrue("init string is not null", initString != null); }
@Test public void testLocalVarsInstantiation() { String path = UNIT_BASEDIR + "local_vars/"; SpaceExDocument spaceExDoc = SpaceExImporter.importModels(path + "sys.cfg", path + "sys.xml"); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(spaceExDoc); Assert.assertTrue("two templates were imported", componentTemplates.size() == 2); Assert.assertTrue( "'template' template got imported", componentTemplates.containsKey("template")); Assert.assertTrue("system template got imported", componentTemplates.containsKey("system")); ConfigurationMaker.fromSpaceEx(spaceExDoc, componentTemplates); }
@Test public void testInputOutputError() { // test illegal model with input and output (one of the automata // contains a variable that is not defined in all modes) String cfgPath = UNIT_BASEDIR + "comp_in_out_mismatch/sys.cfg"; String xmlPath = UNIT_BASEDIR + "comp_in_out_mismatch/sys.xml"; try { SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); ConfigurationMaker.fromSpaceEx(doc, componentTemplates); Assert.fail("Validation exception not raised on invalid input / output automaton"); } catch (AutomatonValidationException e) { // expected } }
@Test public void testBadInitComponent() { // model contains an init(X)=Y expression where component X is not an // instance in the model String cfgPath = UNIT_BASEDIR + "bad_init_comp/bad_init_comp.cfg"; String xmlPath = UNIT_BASEDIR + "bad_init_comp/bad_init_comp.xml"; try { SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); com.verivital.hyst.importer.ConfigurationMaker.fromSpaceEx(doc, componentTemplates); Assert.fail("no exception raised"); } catch (AutomatonExportException e) { // expected } }
@Test public void testDisjunctionForbidden() { // test model with input and output variables String cfgPath = UNIT_BASEDIR + "disjunction_forbidden/disjunction_forbidden.cfg"; String xmlPath = UNIT_BASEDIR + "disjunction_forbidden/disjunction_forbidden.xml"; SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); Configuration config = ConfigurationMaker.fromSpaceEx(doc, componentTemplates); // [[loc1]] with equation x >= 5 // [[loc1]] with equation t >= 5 // [[loc3]] with equation t <= 5 Assert.assertEquals("two forbidden states", 2, config.forbidden.size()); String loc1 = config.forbidden.get("loc1").toDefaultString(); String loc3 = config.forbidden.get("loc3").toDefaultString(); Assert.assertTrue(loc1.contains("x >= 5")); Assert.assertTrue(loc1.contains("t >= 5")); Assert.assertEquals(loc3, "t <= 5"); }
@Test public void testSixTank() { // network component inside another network component, all with renaming // & locals at each level // this is the 6 tank model // test illegal model with input and output (one of the automata // contains a variable that is not defined in all modes) String cfgPath = UNIT_BASEDIR + "three_hier/tank6.cfg"; String xmlPath = UNIT_BASEDIR + "three_hier/tank6.xml"; // 1. import spaceex doc SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); // 2. convert the SpaceEx data structures to template automata Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); // 3. run any component template passes here (future) // 4. instantiate the component templates into a networked configuration Configuration c = ConfigurationMaker.fromSpaceEx(doc, componentTemplates); ArrayList<String> originalOrder = new ArrayList<String>(); originalOrder.addAll(c.root.variables); FlattenAutomatonPass.flattenAndOptimize(c); Assert.assertEquals("Single mode after flattening", 1, ((BaseComponent) c.root).modes.size()); // variable names should remain ordered after flattening for (int i = 0; i < 6; ++i) { String expectedVarName = originalOrder.get(i); String varName = c.root.variables.get(i); Assert.assertEquals( "variable name at index " + i + " was incorrect", expectedVarName, varName); } }
@Test public void testInputOutput() { // test model with input and output variables String cfgPath = UNIT_BASEDIR + "comp_in_out/sys.cfg"; String xmlPath = UNIT_BASEDIR + "comp_in_out/sys.xml"; SpaceExDocument doc = SpaceExImporter.importModels(cfgPath, xmlPath); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(doc); Configuration config = ConfigurationMaker.fromSpaceEx(doc, componentTemplates); NetworkComponent nc = (NetworkComponent) config.root; BaseComponent bcX = (BaseComponent) nc.children.get("out_x_1").child; BaseComponent bcY = (BaseComponent) nc.children.get("out_y_1").child; Assert.assertEquals("two variables in out_x component", 2, bcX.variables.size()); Assert.assertEquals( "one defined flow in out_x component", 1, bcX.modes.values().iterator().next().flowDynamics.size()); // also test AutomatonUtil.isOutputVariable() Assert.assertTrue( "x is an output variable of base component 'out_x_1'", AutomatonUtil.isOutputVariable(bcX, "x")); Assert.assertTrue( "y is NOT an output variable of base component 'out_x_1'", !AutomatonUtil.isOutputVariable(bcX, "y")); Assert.assertTrue( "x is NOT an output variable of base component 'out_y_1'", !AutomatonUtil.isOutputVariable(bcY, "x")); Assert.assertTrue( "y is an output variable of base component 'out_y_1'", AutomatonUtil.isOutputVariable(bcY, "y")); }
@Test public void testConvertLinearDynamicTwoVarTwoHavocTwoInput() { String path = UNIT_BASEDIR + "linear_dynamic/"; SpaceExDocument test1 = SpaceExImporter.importModels( path + "four_var_two_input.cfg", path + "four_var_two_input.xml"); Map<String, Component> componentTemplates = TemplateImporter.createComponentTemplates(test1); Configuration c = ConfigurationMaker.fromSpaceEx(test1, componentTemplates); new FlattenAutomatonPass().runVanillaPass(c, null); BaseComponent ha = (BaseComponent) c.root; // Configuration c = flatten(test1); // BaseComponent ha = (BaseComponent)c.root; Classification cls = new Classification(); Classification.ha = ha; cls.setVarID(ha); SimulinkStateflowPrinter sp = new SimulinkStateflowPrinter(); sp.ha = ha; // sp.setVarID(ha); AutomatonMode mode = ha.modes.get("running"); cls.setLinearMatrix(mode); // test A matrix String A = sp.convertFlowToAMatrix(mode); String resultA = "[1.0 4.0 ;0.5 -3.0 ;]"; Assert.assertEquals(A, resultA); // test B matrix String B = sp.convertInputToBMatrix(mode); String resultB = "[0.5 -2.0 ;-0.2 3.0 ;]"; Assert.assertEquals(B, resultB); // test A matrix String C = sp.convertInvToMatrix(mode); String resultC = "[1 2.0 ;0 1 ;]"; Assert.assertEquals(C, resultC); }