/** */ package ua.ansymo.hintco.impl; import org.eclipse.emf.ecore.EAttribute; import org.eclipse.emf.ecore.EClass; import org.eclipse.emf.ecore.EDataType; import org.eclipse.emf.ecore.EOperation; import org.eclipse.emf.ecore.EPackage; import org.eclipse.emf.ecore.EReference; import org.eclipse.emf.ecore.EcorePackage; import org.eclipse.emf.ecore.impl.EPackageImpl; import ua.ansymo.hintco.Adaptation; import ua.ansymo.hintco.Alternative; import ua.ansymo.hintco.ApproximationAdaptation; import ua.ansymo.hintco.CosimUnitDeclaration; import ua.ansymo.hintco.CosimUnitInstance; import ua.ansymo.hintco.DecompositionPortAdaptation; import ua.ansymo.hintco.DecompositionUnitAdaptation; import ua.ansymo.hintco.ExtrapolationAdaptation; import ua.ansymo.hintco.HierarchicalCosimUnit; import ua.ansymo.hintco.HierarchicalUnitPort; import ua.ansymo.hintco.HintConfiguration; import ua.ansymo.hintco.HintcoFactory; import ua.ansymo.hintco.HintcoPackage; import ua.ansymo.hintco.IDed; import ua.ansymo.hintco.InputPortInstance; import ua.ansymo.hintco.InterpolationAdaptation; import ua.ansymo.hintco.MultiRateAdaptation; import ua.ansymo.hintco.OutputPortInstance; import ua.ansymo.hintco.PortAdaptation; import ua.ansymo.hintco.PortInstance; import ua.ansymo.hintco.PowerBondAdaptation; import ua.ansymo.hintco.PrecendenceNode; import ua.ansymo.hintco.RollbackInterpolationAdaptation; import ua.ansymo.hintco.RootCandidateScenario; import ua.ansymo.hintco.Scenario; import ua.ansymo.hintco.UnitAdaptation; import ua.ansymo.hintco.UnitInstance; import ua.ansymo.hintco.VariantDiagram; import ua.ansymo.hintco.XorPortAdaptation; import ua.ansymo.hintco.XorUnitAdaptation; /** * * An implementation of the model Package. * * @generated */ public class HintcoPackageImpl extends EPackageImpl implements HintcoPackage { /** * * * @generated */ private EClass iDedEClass = null; /** * * * @generated */ private EClass hintConfigurationEClass = null; /** * * * @generated */ private EClass variantDiagramEClass = null; /** * * * @generated */ private EClass precendenceNodeEClass = null; /** * * * @generated */ private EClass rootCandidateScenarioEClass = null; /** * * * @generated */ private EClass scenarioEClass = null; /** * * * @generated */ private EClass hierarchicalCosimUnitEClass = null; /** * * * @generated */ private EClass cosimUnitDeclarationEClass = null; /** * * * @generated */ private EClass unitInstanceEClass = null; /** * * * @generated */ private EClass cosimUnitInstanceEClass = null; /** * * * @generated */ private EClass portInstanceEClass = null; /** * * * @generated */ private EClass hierarchicalUnitPortEClass = null; /** * * * @generated */ private EClass inputPortInstanceEClass = null; /** * * * @generated */ private EClass outputPortInstanceEClass = null; /** * * * @generated */ private EClass alternativeEClass = null; /** * * * @generated */ private EClass adaptationEClass = null; /** * * * @generated */ private EClass portAdaptationEClass = null; /** * * * @generated */ private EClass decompositionPortAdaptationEClass = null; /** * * * @generated */ private EClass unitAdaptationEClass = null; /** * * * @generated */ private EClass decompositionUnitAdaptationEClass = null; /** * * * @generated */ private EClass xorUnitAdaptationEClass = null; /** * * * @generated */ private EClass xorPortAdaptationEClass = null; /** * * * @generated */ private EClass approximationAdaptationEClass = null; /** * * * @generated */ private EClass multiRateAdaptationEClass = null; /** * * * @generated */ private EClass powerBondAdaptationEClass = null; /** * * * @generated */ private EClass extrapolationAdaptationEClass = null; /** * * * @generated */ private EClass rollbackInterpolationAdaptationEClass = null; /** * * * @generated */ private EClass interpolationAdaptationEClass = null; /** * * * @generated */ private EDataType intEDataType = null; /** * Creates an instance of the model Package, registered with * {@link org.eclipse.emf.ecore.EPackage.Registry EPackage.Registry} by the package * package URI value. *

Note: the correct way to create the package is via the static * factory method {@link #init init()}, which also performs * initialization of the package, or returns the registered package, * if one already exists. * * * @see org.eclipse.emf.ecore.EPackage.Registry * @see ua.ansymo.hintco.HintcoPackage#eNS_URI * @see #init() * @generated */ private HintcoPackageImpl() { super(eNS_URI, HintcoFactory.eINSTANCE); } /** * * * @generated */ private static boolean isInited = false; /** * Creates, registers, and initializes the Package for this model, and for any others upon which it depends. * *

This method is used to initialize {@link HintcoPackage#eINSTANCE} when that field is accessed. * Clients should not invoke it directly. Instead, they should simply access that field to obtain the package. * * * @see #eNS_URI * @see #createPackageContents() * @see #initializePackageContents() * @generated */ public static HintcoPackage init() { if (isInited) return (HintcoPackage)EPackage.Registry.INSTANCE.getEPackage(HintcoPackage.eNS_URI); // Obtain or create and register package Object registeredHintcoPackage = EPackage.Registry.INSTANCE.get(eNS_URI); HintcoPackageImpl theHintcoPackage = registeredHintcoPackage instanceof HintcoPackageImpl ? (HintcoPackageImpl)registeredHintcoPackage : new HintcoPackageImpl(); isInited = true; // Initialize simple dependencies EcorePackage.eINSTANCE.eClass(); // Create package meta-data objects theHintcoPackage.createPackageContents(); // Initialize created meta-data theHintcoPackage.initializePackageContents(); // Mark meta-data to indicate it can't be changed theHintcoPackage.freeze(); // Update the registry and return the package EPackage.Registry.INSTANCE.put(HintcoPackage.eNS_URI, theHintcoPackage); return theHintcoPackage; } /** * * * @generated */ public EClass getIDed() { return iDedEClass; } /** * * * @generated */ public EAttribute getIDed_Identifier() { return (EAttribute)iDedEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EClass getHintConfiguration() { return hintConfigurationEClass; } /** * * * @generated */ public EReference getHintConfiguration_Candidates() { return (EReference)hintConfigurationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getHintConfiguration_CsuDeclarations() { return (EReference)hintConfigurationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getHintConfiguration_Root() { return (EReference)hintConfigurationEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EReference getHintConfiguration_Nodes() { return (EReference)hintConfigurationEClass.getEStructuralFeatures().get(3); } /** * * * @generated */ public EClass getVariantDiagram() { return variantDiagramEClass; } /** * * * @generated */ public EReference getVariantDiagram_Children() { return (EReference)variantDiagramEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getVariantDiagram_Alternative() { return (EReference)variantDiagramEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EAttribute getVariantDiagram_Name() { return (EAttribute)variantDiagramEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EClass getPrecendenceNode() { return precendenceNodeEClass; } /** * * * @generated */ public EReference getPrecendenceNode_Precedes() { return (EReference)precendenceNodeEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getPrecendenceNode_Succeeds() { return (EReference)precendenceNodeEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getPrecendenceNode_Before() { return (EReference)precendenceNodeEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EReference getPrecendenceNode_After() { return (EReference)precendenceNodeEClass.getEStructuralFeatures().get(3); } /** * * * @generated */ public EClass getRootCandidateScenario() { return rootCandidateScenarioEClass; } /** * * * @generated */ public EAttribute getRootCandidateScenario_Name() { return (EAttribute)rootCandidateScenarioEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getRootCandidateScenario_StopTime() { return (EAttribute)rootCandidateScenarioEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EAttribute getRootCandidateScenario_StepSize() { return (EAttribute)rootCandidateScenarioEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EAttribute getRootCandidateScenario_OutputStepSize() { return (EAttribute)rootCandidateScenarioEClass.getEStructuralFeatures().get(3); } /** * * * @generated */ public EAttribute getRootCandidateScenario_MaxInitIterations() { return (EAttribute)rootCandidateScenarioEClass.getEStructuralFeatures().get(4); } /** * * * @generated */ public EClass getScenario() { return scenarioEClass; } /** * * * @generated */ public EReference getScenario_Cosimunits() { return (EReference)scenarioEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EClass getHierarchicalCosimUnit() { return hierarchicalCosimUnitEClass; } /** * * * @generated */ public EOperation getHierarchicalCosimUnit__Valid() { return hierarchicalCosimUnitEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getCosimUnitDeclaration() { return cosimUnitDeclarationEClass; } /** * * * @generated */ public EAttribute getCosimUnitDeclaration_Path() { return (EAttribute)cosimUnitDeclarationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getCosimUnitDeclaration_Guid() { return (EAttribute)cosimUnitDeclarationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EClass getUnitInstance() { return unitInstanceEClass; } /** * * * @generated */ public EReference getUnitInstance_Scenario() { return (EReference)unitInstanceEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getUnitInstance_Adaptation() { return (EReference)unitInstanceEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getUnitInstance_Ports() { return (EReference)unitInstanceEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EOperation getUnitInstance__SelectedAdaptations() { return unitInstanceEClass.getEOperations().get(0); } /** * * * @generated */ public EOperation getUnitInstance__GetOutputPorts() { return unitInstanceEClass.getEOperations().get(1); } /** * * * @generated */ public EOperation getUnitInstance__GetInputPorts() { return unitInstanceEClass.getEOperations().get(2); } /** * * * @generated */ public EOperation getUnitInstance__ToString() { return unitInstanceEClass.getEOperations().get(3); } /** * * * @generated */ public EClass getCosimUnitInstance() { return cosimUnitInstanceEClass; } /** * * * @generated */ public EReference getCosimUnitInstance_Declaration() { return (EReference)cosimUnitInstanceEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EClass getPortInstance() { return portInstanceEClass; } /** * * * @generated */ public EReference getPortInstance_Unit() { return (EReference)portInstanceEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getPortInstance_Adaptation() { return (EReference)portInstanceEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getPortInstance__SelectedAdaptations() { return portInstanceEClass.getEOperations().get(0); } /** * * * @generated */ public EOperation getPortInstance__IsInput() { return portInstanceEClass.getEOperations().get(1); } /** * * * @generated */ public EOperation getPortInstance__GetsValueFrom__PortInstance() { return portInstanceEClass.getEOperations().get(2); } /** * * * @generated */ public EOperation getPortInstance__ToString() { return portInstanceEClass.getEOperations().get(3); } /** * * * @generated */ public EClass getHierarchicalUnitPort() { return hierarchicalUnitPortEClass; } /** * * * @generated */ public EOperation getHierarchicalUnitPort__IsInput() { return hierarchicalUnitPortEClass.getEOperations().get(0); } /** * * * @generated */ public EOperation getHierarchicalUnitPort__AltIsInput() { return hierarchicalUnitPortEClass.getEOperations().get(1); } /** * * * @generated */ public EClass getInputPortInstance() { return inputPortInstanceEClass; } /** * * * @generated */ public EAttribute getInputPortInstance_ExtrapolationCost() { return (EAttribute)inputPortInstanceEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getInputPortInstance_InternalValueTo() { return (EReference)inputPortInstanceEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getInputPortInstance_ValueFrom() { return (EReference)inputPortInstanceEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EOperation getInputPortInstance__GetRealValueFrom() { return inputPortInstanceEClass.getEOperations().get(0); } /** * * * @generated */ public EOperation getInputPortInstance__GetsValueFrom__PortInstance() { return inputPortInstanceEClass.getEOperations().get(1); } /** * * * @generated */ public EOperation getInputPortInstance__IsInput() { return inputPortInstanceEClass.getEOperations().get(2); } /** * * * @generated */ public EClass getOutputPortInstance() { return outputPortInstanceEClass; } /** * * * @generated */ public EReference getOutputPortInstance_ValueTo() { return (EReference)outputPortInstanceEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getOutputPortInstance_InternalValueFrom() { return (EReference)outputPortInstanceEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getOutputPortInstance__IsInput() { return outputPortInstanceEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getAlternative() { return alternativeEClass; } /** * * * @generated */ public EAttribute getAlternative_Weight() { return (EAttribute)alternativeEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getAlternative_Selected() { return (EAttribute)alternativeEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getAlternative_Implies() { return (EReference)alternativeEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EClass getAdaptation() { return adaptationEClass; } /** * * * @generated */ public EClass getPortAdaptation() { return portAdaptationEClass; } /** * * * @generated */ public EReference getPortAdaptation_Port() { return (EReference)portAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getPortAdaptation_Parent() { return (EReference)portAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getPortAdaptation__Adapted() { return portAdaptationEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getDecompositionPortAdaptation() { return decompositionPortAdaptationEClass; } /** * * * @generated */ public EReference getDecompositionPortAdaptation_Children() { return (EReference)decompositionPortAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getDecompositionPortAdaptation_Name() { return (EAttribute)decompositionPortAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getDecompositionPortAdaptation__SelectedAdaptations() { return decompositionPortAdaptationEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getUnitAdaptation() { return unitAdaptationEClass; } /** * * * @generated */ public EReference getUnitAdaptation_Unit() { return (EReference)unitAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getUnitAdaptation_Parent() { return (EReference)unitAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getUnitAdaptation__Adapted() { return unitAdaptationEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getDecompositionUnitAdaptation() { return decompositionUnitAdaptationEClass; } /** * * * @generated */ public EReference getDecompositionUnitAdaptation_Children() { return (EReference)decompositionUnitAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getDecompositionUnitAdaptation_Name() { return (EAttribute)decompositionUnitAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EOperation getDecompositionUnitAdaptation__SelectedAdaptations() { return decompositionUnitAdaptationEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getXorUnitAdaptation() { return xorUnitAdaptationEClass; } /** * * * @generated */ public EClass getXorPortAdaptation() { return xorPortAdaptationEClass; } /** * * * @generated */ public EClass getApproximationAdaptation() { return approximationAdaptationEClass; } /** * * * @generated */ public EAttribute getApproximationAdaptation_Order() { return (EAttribute)approximationAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EClass getMultiRateAdaptation() { return multiRateAdaptationEClass; } /** * * * @generated */ public EAttribute getMultiRateAdaptation_Rate() { return (EAttribute)multiRateAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EAttribute getMultiRateAdaptation_Name() { return (EAttribute)multiRateAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EClass getPowerBondAdaptation() { return powerBondAdaptationEClass; } /** * * * @generated */ public EReference getPowerBondAdaptation_Effort() { return (EReference)powerBondAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EReference getPowerBondAdaptation_Flow() { return (EReference)powerBondAdaptationEClass.getEStructuralFeatures().get(1); } /** * * * @generated */ public EReference getPowerBondAdaptation_POut() { return (EReference)powerBondAdaptationEClass.getEStructuralFeatures().get(2); } /** * * * @generated */ public EReference getPowerBondAdaptation_PIn() { return (EReference)powerBondAdaptationEClass.getEStructuralFeatures().get(3); } /** * * * @generated */ public EAttribute getPowerBondAdaptation_Name() { return (EAttribute)powerBondAdaptationEClass.getEStructuralFeatures().get(4); } /** * * * @generated */ public EOperation getPowerBondAdaptation__GetDual() { return powerBondAdaptationEClass.getEOperations().get(0); } /** * * * @generated */ public EClass getExtrapolationAdaptation() { return extrapolationAdaptationEClass; } /** * * * @generated */ public EAttribute getExtrapolationAdaptation_Name() { return (EAttribute)extrapolationAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EClass getRollbackInterpolationAdaptation() { return rollbackInterpolationAdaptationEClass; } /** * * * @generated */ public EClass getInterpolationAdaptation() { return interpolationAdaptationEClass; } /** * * * @generated */ public EAttribute getInterpolationAdaptation_Name() { return (EAttribute)interpolationAdaptationEClass.getEStructuralFeatures().get(0); } /** * * * @generated */ public EDataType getInt() { return intEDataType; } /** * * * @generated */ public HintcoFactory getHintcoFactory() { return (HintcoFactory)getEFactoryInstance(); } /** * * * @generated */ private boolean isCreated = false; /** * Creates the meta-model objects for the package. This method is * guarded to have no affect on any invocation but its first. * * * @generated */ public void createPackageContents() { if (isCreated) return; isCreated = true; // Create classes and their features iDedEClass = createEClass(IDED); createEAttribute(iDedEClass, IDED__IDENTIFIER); hintConfigurationEClass = createEClass(HINT_CONFIGURATION); createEReference(hintConfigurationEClass, HINT_CONFIGURATION__CANDIDATES); createEReference(hintConfigurationEClass, HINT_CONFIGURATION__CSU_DECLARATIONS); createEReference(hintConfigurationEClass, HINT_CONFIGURATION__ROOT); createEReference(hintConfigurationEClass, HINT_CONFIGURATION__NODES); variantDiagramEClass = createEClass(VARIANT_DIAGRAM); createEReference(variantDiagramEClass, VARIANT_DIAGRAM__CHILDREN); createEReference(variantDiagramEClass, VARIANT_DIAGRAM__ALTERNATIVE); createEAttribute(variantDiagramEClass, VARIANT_DIAGRAM__NAME); precendenceNodeEClass = createEClass(PRECENDENCE_NODE); createEReference(precendenceNodeEClass, PRECENDENCE_NODE__PRECEDES); createEReference(precendenceNodeEClass, PRECENDENCE_NODE__SUCCEEDS); createEReference(precendenceNodeEClass, PRECENDENCE_NODE__BEFORE); createEReference(precendenceNodeEClass, PRECENDENCE_NODE__AFTER); rootCandidateScenarioEClass = createEClass(ROOT_CANDIDATE_SCENARIO); createEAttribute(rootCandidateScenarioEClass, ROOT_CANDIDATE_SCENARIO__NAME); createEAttribute(rootCandidateScenarioEClass, ROOT_CANDIDATE_SCENARIO__STOP_TIME); createEAttribute(rootCandidateScenarioEClass, ROOT_CANDIDATE_SCENARIO__STEP_SIZE); createEAttribute(rootCandidateScenarioEClass, ROOT_CANDIDATE_SCENARIO__OUTPUT_STEP_SIZE); createEAttribute(rootCandidateScenarioEClass, ROOT_CANDIDATE_SCENARIO__MAX_INIT_ITERATIONS); scenarioEClass = createEClass(SCENARIO); createEReference(scenarioEClass, SCENARIO__COSIMUNITS); hierarchicalCosimUnitEClass = createEClass(HIERARCHICAL_COSIM_UNIT); createEOperation(hierarchicalCosimUnitEClass, HIERARCHICAL_COSIM_UNIT___VALID); cosimUnitDeclarationEClass = createEClass(COSIM_UNIT_DECLARATION); createEAttribute(cosimUnitDeclarationEClass, COSIM_UNIT_DECLARATION__PATH); createEAttribute(cosimUnitDeclarationEClass, COSIM_UNIT_DECLARATION__GUID); unitInstanceEClass = createEClass(UNIT_INSTANCE); createEReference(unitInstanceEClass, UNIT_INSTANCE__SCENARIO); createEReference(unitInstanceEClass, UNIT_INSTANCE__ADAPTATION); createEReference(unitInstanceEClass, UNIT_INSTANCE__PORTS); createEOperation(unitInstanceEClass, UNIT_INSTANCE___SELECTED_ADAPTATIONS); createEOperation(unitInstanceEClass, UNIT_INSTANCE___GET_OUTPUT_PORTS); createEOperation(unitInstanceEClass, UNIT_INSTANCE___GET_INPUT_PORTS); createEOperation(unitInstanceEClass, UNIT_INSTANCE___TO_STRING); cosimUnitInstanceEClass = createEClass(COSIM_UNIT_INSTANCE); createEReference(cosimUnitInstanceEClass, COSIM_UNIT_INSTANCE__DECLARATION); portInstanceEClass = createEClass(PORT_INSTANCE); createEReference(portInstanceEClass, PORT_INSTANCE__UNIT); createEReference(portInstanceEClass, PORT_INSTANCE__ADAPTATION); createEOperation(portInstanceEClass, PORT_INSTANCE___SELECTED_ADAPTATIONS); createEOperation(portInstanceEClass, PORT_INSTANCE___IS_INPUT); createEOperation(portInstanceEClass, PORT_INSTANCE___GETS_VALUE_FROM__PORTINSTANCE); createEOperation(portInstanceEClass, PORT_INSTANCE___TO_STRING); hierarchicalUnitPortEClass = createEClass(HIERARCHICAL_UNIT_PORT); createEOperation(hierarchicalUnitPortEClass, HIERARCHICAL_UNIT_PORT___IS_INPUT); createEOperation(hierarchicalUnitPortEClass, HIERARCHICAL_UNIT_PORT___ALT_IS_INPUT); inputPortInstanceEClass = createEClass(INPUT_PORT_INSTANCE); createEAttribute(inputPortInstanceEClass, INPUT_PORT_INSTANCE__EXTRAPOLATION_COST); createEReference(inputPortInstanceEClass, INPUT_PORT_INSTANCE__INTERNAL_VALUE_TO); createEReference(inputPortInstanceEClass, INPUT_PORT_INSTANCE__VALUE_FROM); createEOperation(inputPortInstanceEClass, INPUT_PORT_INSTANCE___GET_REAL_VALUE_FROM); createEOperation(inputPortInstanceEClass, INPUT_PORT_INSTANCE___GETS_VALUE_FROM__PORTINSTANCE); createEOperation(inputPortInstanceEClass, INPUT_PORT_INSTANCE___IS_INPUT); outputPortInstanceEClass = createEClass(OUTPUT_PORT_INSTANCE); createEReference(outputPortInstanceEClass, OUTPUT_PORT_INSTANCE__VALUE_TO); createEReference(outputPortInstanceEClass, OUTPUT_PORT_INSTANCE__INTERNAL_VALUE_FROM); createEOperation(outputPortInstanceEClass, OUTPUT_PORT_INSTANCE___IS_INPUT); alternativeEClass = createEClass(ALTERNATIVE); createEAttribute(alternativeEClass, ALTERNATIVE__WEIGHT); createEAttribute(alternativeEClass, ALTERNATIVE__SELECTED); createEReference(alternativeEClass, ALTERNATIVE__IMPLIES); adaptationEClass = createEClass(ADAPTATION); portAdaptationEClass = createEClass(PORT_ADAPTATION); createEReference(portAdaptationEClass, PORT_ADAPTATION__PORT); createEReference(portAdaptationEClass, PORT_ADAPTATION__PARENT); createEOperation(portAdaptationEClass, PORT_ADAPTATION___ADAPTED); decompositionPortAdaptationEClass = createEClass(DECOMPOSITION_PORT_ADAPTATION); createEReference(decompositionPortAdaptationEClass, DECOMPOSITION_PORT_ADAPTATION__CHILDREN); createEAttribute(decompositionPortAdaptationEClass, DECOMPOSITION_PORT_ADAPTATION__NAME); createEOperation(decompositionPortAdaptationEClass, DECOMPOSITION_PORT_ADAPTATION___SELECTED_ADAPTATIONS); unitAdaptationEClass = createEClass(UNIT_ADAPTATION); createEReference(unitAdaptationEClass, UNIT_ADAPTATION__UNIT); createEReference(unitAdaptationEClass, UNIT_ADAPTATION__PARENT); createEOperation(unitAdaptationEClass, UNIT_ADAPTATION___ADAPTED); decompositionUnitAdaptationEClass = createEClass(DECOMPOSITION_UNIT_ADAPTATION); createEReference(decompositionUnitAdaptationEClass, DECOMPOSITION_UNIT_ADAPTATION__CHILDREN); createEAttribute(decompositionUnitAdaptationEClass, DECOMPOSITION_UNIT_ADAPTATION__NAME); createEOperation(decompositionUnitAdaptationEClass, DECOMPOSITION_UNIT_ADAPTATION___SELECTED_ADAPTATIONS); xorUnitAdaptationEClass = createEClass(XOR_UNIT_ADAPTATION); xorPortAdaptationEClass = createEClass(XOR_PORT_ADAPTATION); approximationAdaptationEClass = createEClass(APPROXIMATION_ADAPTATION); createEAttribute(approximationAdaptationEClass, APPROXIMATION_ADAPTATION__ORDER); multiRateAdaptationEClass = createEClass(MULTI_RATE_ADAPTATION); createEAttribute(multiRateAdaptationEClass, MULTI_RATE_ADAPTATION__RATE); createEAttribute(multiRateAdaptationEClass, MULTI_RATE_ADAPTATION__NAME); powerBondAdaptationEClass = createEClass(POWER_BOND_ADAPTATION); createEReference(powerBondAdaptationEClass, POWER_BOND_ADAPTATION__EFFORT); createEReference(powerBondAdaptationEClass, POWER_BOND_ADAPTATION__FLOW); createEReference(powerBondAdaptationEClass, POWER_BOND_ADAPTATION__POUT); createEReference(powerBondAdaptationEClass, POWER_BOND_ADAPTATION__PIN); createEAttribute(powerBondAdaptationEClass, POWER_BOND_ADAPTATION__NAME); createEOperation(powerBondAdaptationEClass, POWER_BOND_ADAPTATION___GET_DUAL); extrapolationAdaptationEClass = createEClass(EXTRAPOLATION_ADAPTATION); createEAttribute(extrapolationAdaptationEClass, EXTRAPOLATION_ADAPTATION__NAME); rollbackInterpolationAdaptationEClass = createEClass(ROLLBACK_INTERPOLATION_ADAPTATION); interpolationAdaptationEClass = createEClass(INTERPOLATION_ADAPTATION); createEAttribute(interpolationAdaptationEClass, INTERPOLATION_ADAPTATION__NAME); // Create data types intEDataType = createEDataType(INT); } /** * * * @generated */ private boolean isInitialized = false; /** * Complete the initialization of the package and its meta-model. This * method is guarded to have no affect on any invocation but its first. * * * @generated */ public void initializePackageContents() { if (isInitialized) return; isInitialized = true; // Initialize package setName(eNAME); setNsPrefix(eNS_PREFIX); setNsURI(eNS_URI); // Obtain other dependent packages EcorePackage theEcorePackage = (EcorePackage)EPackage.Registry.INSTANCE.getEPackage(EcorePackage.eNS_URI); // Create type parameters // Set bounds for type parameters // Add supertypes to classes variantDiagramEClass.getESuperTypes().add(this.getIDed()); rootCandidateScenarioEClass.getESuperTypes().add(this.getIDed()); rootCandidateScenarioEClass.getESuperTypes().add(this.getAlternative()); rootCandidateScenarioEClass.getESuperTypes().add(this.getScenario()); scenarioEClass.getESuperTypes().add(this.getIDed()); hierarchicalCosimUnitEClass.getESuperTypes().add(this.getScenario()); hierarchicalCosimUnitEClass.getESuperTypes().add(this.getUnitInstance()); cosimUnitDeclarationEClass.getESuperTypes().add(this.getIDed()); unitInstanceEClass.getESuperTypes().add(this.getIDed()); unitInstanceEClass.getESuperTypes().add(this.getPrecendenceNode()); cosimUnitInstanceEClass.getESuperTypes().add(this.getUnitInstance()); portInstanceEClass.getESuperTypes().add(this.getPrecendenceNode()); portInstanceEClass.getESuperTypes().add(this.getIDed()); hierarchicalUnitPortEClass.getESuperTypes().add(this.getInputPortInstance()); hierarchicalUnitPortEClass.getESuperTypes().add(this.getOutputPortInstance()); inputPortInstanceEClass.getESuperTypes().add(this.getPortInstance()); outputPortInstanceEClass.getESuperTypes().add(this.getPortInstance()); adaptationEClass.getESuperTypes().add(this.getAlternative()); portAdaptationEClass.getESuperTypes().add(this.getAdaptation()); decompositionPortAdaptationEClass.getESuperTypes().add(this.getPortAdaptation()); unitAdaptationEClass.getESuperTypes().add(this.getAdaptation()); decompositionUnitAdaptationEClass.getESuperTypes().add(this.getUnitAdaptation()); xorUnitAdaptationEClass.getESuperTypes().add(this.getDecompositionUnitAdaptation()); xorPortAdaptationEClass.getESuperTypes().add(this.getDecompositionPortAdaptation()); approximationAdaptationEClass.getESuperTypes().add(this.getPortAdaptation()); multiRateAdaptationEClass.getESuperTypes().add(this.getUnitAdaptation()); powerBondAdaptationEClass.getESuperTypes().add(this.getUnitAdaptation()); extrapolationAdaptationEClass.getESuperTypes().add(this.getApproximationAdaptation()); rollbackInterpolationAdaptationEClass.getESuperTypes().add(this.getExtrapolationAdaptation()); interpolationAdaptationEClass.getESuperTypes().add(this.getApproximationAdaptation()); // Initialize classes, features, and operations; add parameters initEClass(iDedEClass, IDed.class, "IDed", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getIDed_Identifier(), theEcorePackage.getEString(), "identifier", null, 0, 1, IDed.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(hintConfigurationEClass, HintConfiguration.class, "HintConfiguration", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getHintConfiguration_Candidates(), this.getRootCandidateScenario(), null, "candidates", null, 0, -1, HintConfiguration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getHintConfiguration_CsuDeclarations(), this.getCosimUnitDeclaration(), null, "csuDeclarations", null, 0, -1, HintConfiguration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getHintConfiguration_Root(), this.getVariantDiagram(), null, "root", null, 0, 1, HintConfiguration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getHintConfiguration_Nodes(), this.getVariantDiagram(), null, "nodes", null, 0, -1, HintConfiguration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(variantDiagramEClass, VariantDiagram.class, "VariantDiagram", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getVariantDiagram_Children(), this.getVariantDiagram(), null, "children", null, 0, -1, VariantDiagram.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getVariantDiagram_Alternative(), this.getAlternative(), null, "alternative", null, 0, 1, VariantDiagram.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getVariantDiagram_Name(), theEcorePackage.getEString(), "name", null, 0, 1, VariantDiagram.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEClass(precendenceNodeEClass, PrecendenceNode.class, "PrecendenceNode", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getPrecendenceNode_Precedes(), this.getPrecendenceNode(), this.getPrecendenceNode_Succeeds(), "precedes", null, 0, -1, PrecendenceNode.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPrecendenceNode_Succeeds(), this.getPrecendenceNode(), this.getPrecendenceNode_Precedes(), "succeeds", null, 0, -1, PrecendenceNode.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPrecendenceNode_Before(), this.getPrecendenceNode(), this.getPrecendenceNode_After(), "before", null, 0, 1, PrecendenceNode.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPrecendenceNode_After(), this.getPrecendenceNode(), this.getPrecendenceNode_Before(), "after", null, 0, 1, PrecendenceNode.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(rootCandidateScenarioEClass, RootCandidateScenario.class, "RootCandidateScenario", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getRootCandidateScenario_Name(), theEcorePackage.getEString(), "name", null, 0, 1, RootCandidateScenario.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEAttribute(getRootCandidateScenario_StopTime(), theEcorePackage.getEDouble(), "stopTime", null, 0, 1, RootCandidateScenario.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getRootCandidateScenario_StepSize(), theEcorePackage.getEDouble(), "stepSize", null, 0, 1, RootCandidateScenario.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getRootCandidateScenario_OutputStepSize(), theEcorePackage.getEDouble(), "outputStepSize", null, 0, 1, RootCandidateScenario.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getRootCandidateScenario_MaxInitIterations(), theEcorePackage.getEInt(), "maxInitIterations", "10", 0, 1, RootCandidateScenario.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(scenarioEClass, Scenario.class, "Scenario", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getScenario_Cosimunits(), this.getUnitInstance(), this.getUnitInstance_Scenario(), "cosimunits", null, 0, -1, Scenario.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(hierarchicalCosimUnitEClass, HierarchicalCosimUnit.class, "HierarchicalCosimUnit", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEOperation(getHierarchicalCosimUnit__Valid(), theEcorePackage.getEBoolean(), "valid", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(cosimUnitDeclarationEClass, CosimUnitDeclaration.class, "CosimUnitDeclaration", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getCosimUnitDeclaration_Path(), theEcorePackage.getEString(), "path", null, 0, 1, CosimUnitDeclaration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getCosimUnitDeclaration_Guid(), theEcorePackage.getEString(), "guid", null, 0, 1, CosimUnitDeclaration.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(unitInstanceEClass, UnitInstance.class, "UnitInstance", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getUnitInstance_Scenario(), this.getScenario(), this.getScenario_Cosimunits(), "scenario", null, 0, 1, UnitInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getUnitInstance_Adaptation(), this.getUnitAdaptation(), this.getUnitAdaptation_Unit(), "adaptation", null, 0, 1, UnitInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getUnitInstance_Ports(), this.getPortInstance(), this.getPortInstance_Unit(), "ports", null, 0, -1, UnitInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getUnitInstance__SelectedAdaptations(), this.getUnitAdaptation(), "selectedAdaptations", 0, -1, !IS_UNIQUE, IS_ORDERED); initEOperation(getUnitInstance__GetOutputPorts(), this.getOutputPortInstance(), "getOutputPorts", 0, -1, !IS_UNIQUE, IS_ORDERED); initEOperation(getUnitInstance__GetInputPorts(), this.getInputPortInstance(), "getInputPorts", 0, -1, !IS_UNIQUE, IS_ORDERED); initEOperation(getUnitInstance__ToString(), theEcorePackage.getEString(), "toString", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(cosimUnitInstanceEClass, CosimUnitInstance.class, "CosimUnitInstance", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getCosimUnitInstance_Declaration(), this.getCosimUnitDeclaration(), null, "declaration", null, 1, 1, CosimUnitInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(portInstanceEClass, PortInstance.class, "PortInstance", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getPortInstance_Unit(), this.getUnitInstance(), this.getUnitInstance_Ports(), "unit", null, 0, 1, PortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPortInstance_Adaptation(), this.getPortAdaptation(), this.getPortAdaptation_Port(), "adaptation", null, 0, 1, PortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getPortInstance__SelectedAdaptations(), this.getPortAdaptation(), "selectedAdaptations", 0, -1, !IS_UNIQUE, IS_ORDERED); initEOperation(getPortInstance__IsInput(), theEcorePackage.getEBoolean(), "isInput", 0, 1, !IS_UNIQUE, IS_ORDERED); EOperation op = initEOperation(getPortInstance__GetsValueFrom__PortInstance(), theEcorePackage.getEBoolean(), "getsValueFrom", 0, 1, !IS_UNIQUE, IS_ORDERED); addEParameter(op, this.getPortInstance(), "p", 0, 1, !IS_UNIQUE, IS_ORDERED); initEOperation(getPortInstance__ToString(), theEcorePackage.getEString(), "toString", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(hierarchicalUnitPortEClass, HierarchicalUnitPort.class, "HierarchicalUnitPort", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEOperation(getHierarchicalUnitPort__IsInput(), theEcorePackage.getEBoolean(), "isInput", 0, 1, !IS_UNIQUE, IS_ORDERED); initEOperation(getHierarchicalUnitPort__AltIsInput(), theEcorePackage.getEBoolean(), "altIsInput", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(inputPortInstanceEClass, InputPortInstance.class, "InputPortInstance", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getInputPortInstance_ExtrapolationCost(), theEcorePackage.getEFloat(), "extrapolationCost", "1.0", 0, 1, InputPortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getInputPortInstance_InternalValueTo(), this.getOutputPortInstance(), this.getOutputPortInstance_InternalValueFrom(), "internalValueTo", null, 0, -1, InputPortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getInputPortInstance_ValueFrom(), this.getOutputPortInstance(), this.getOutputPortInstance_ValueTo(), "valueFrom", null, 0, 1, InputPortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getInputPortInstance__GetRealValueFrom(), this.getOutputPortInstance(), "getRealValueFrom", 0, 1, !IS_UNIQUE, IS_ORDERED); op = initEOperation(getInputPortInstance__GetsValueFrom__PortInstance(), theEcorePackage.getEBoolean(), "getsValueFrom", 0, 1, !IS_UNIQUE, IS_ORDERED); addEParameter(op, this.getPortInstance(), "p", 0, 1, !IS_UNIQUE, IS_ORDERED); initEOperation(getInputPortInstance__IsInput(), theEcorePackage.getEBoolean(), "isInput", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(outputPortInstanceEClass, OutputPortInstance.class, "OutputPortInstance", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getOutputPortInstance_ValueTo(), this.getInputPortInstance(), this.getInputPortInstance_ValueFrom(), "valueTo", null, 0, -1, OutputPortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getOutputPortInstance_InternalValueFrom(), this.getInputPortInstance(), this.getInputPortInstance_InternalValueTo(), "internalValueFrom", null, 0, -1, OutputPortInstance.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getOutputPortInstance__IsInput(), theEcorePackage.getEBoolean(), "isInput", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(alternativeEClass, Alternative.class, "Alternative", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getAlternative_Weight(), theEcorePackage.getEInt(), "weight", null, 0, 1, Alternative.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getAlternative_Selected(), theEcorePackage.getEBoolean(), "selected", null, 0, 1, Alternative.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getAlternative_Implies(), this.getAlternative(), null, "implies", null, 0, -1, Alternative.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(adaptationEClass, Adaptation.class, "Adaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEClass(portAdaptationEClass, PortAdaptation.class, "PortAdaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getPortAdaptation_Port(), this.getPortInstance(), this.getPortInstance_Adaptation(), "port", null, 0, 1, PortAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPortAdaptation_Parent(), this.getDecompositionPortAdaptation(), this.getDecompositionPortAdaptation_Children(), "parent", null, 0, 1, PortAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getPortAdaptation__Adapted(), this.getPortInstance(), "adapted", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(decompositionPortAdaptationEClass, DecompositionPortAdaptation.class, "DecompositionPortAdaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getDecompositionPortAdaptation_Children(), this.getPortAdaptation(), this.getPortAdaptation_Parent(), "children", null, 0, -1, DecompositionPortAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getDecompositionPortAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, DecompositionPortAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEOperation(getDecompositionPortAdaptation__SelectedAdaptations(), this.getPortAdaptation(), "selectedAdaptations", 0, -1, !IS_UNIQUE, IS_ORDERED); initEClass(unitAdaptationEClass, UnitAdaptation.class, "UnitAdaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getUnitAdaptation_Unit(), this.getUnitInstance(), this.getUnitInstance_Adaptation(), "unit", null, 0, 1, UnitAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getUnitAdaptation_Parent(), this.getDecompositionUnitAdaptation(), this.getDecompositionUnitAdaptation_Children(), "parent", null, 0, 1, UnitAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEOperation(getUnitAdaptation__Adapted(), this.getUnitInstance(), "adapted", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(decompositionUnitAdaptationEClass, DecompositionUnitAdaptation.class, "DecompositionUnitAdaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getDecompositionUnitAdaptation_Children(), this.getUnitAdaptation(), this.getUnitAdaptation_Parent(), "children", null, 0, -1, DecompositionUnitAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getDecompositionUnitAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, DecompositionUnitAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEOperation(getDecompositionUnitAdaptation__SelectedAdaptations(), this.getUnitAdaptation(), "selectedAdaptations", 0, -1, !IS_UNIQUE, IS_ORDERED); initEClass(xorUnitAdaptationEClass, XorUnitAdaptation.class, "XorUnitAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEClass(xorPortAdaptationEClass, XorPortAdaptation.class, "XorPortAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEClass(approximationAdaptationEClass, ApproximationAdaptation.class, "ApproximationAdaptation", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getApproximationAdaptation_Order(), theEcorePackage.getEInt(), "order", null, 0, 1, ApproximationAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEClass(multiRateAdaptationEClass, MultiRateAdaptation.class, "MultiRateAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getMultiRateAdaptation_Rate(), theEcorePackage.getEInt(), "rate", null, 0, 1, MultiRateAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getMultiRateAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, MultiRateAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEClass(powerBondAdaptationEClass, PowerBondAdaptation.class, "PowerBondAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEReference(getPowerBondAdaptation_Effort(), this.getPortInstance(), null, "effort", null, 0, 1, PowerBondAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPowerBondAdaptation_Flow(), this.getPortInstance(), null, "flow", null, 0, 1, PowerBondAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPowerBondAdaptation_POut(), this.getOutputPortInstance(), null, "pOut", null, 0, 1, PowerBondAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEReference(getPowerBondAdaptation_PIn(), this.getInputPortInstance(), null, "pIn", null, 0, 1, PowerBondAdaptation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED); initEAttribute(getPowerBondAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, PowerBondAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEOperation(getPowerBondAdaptation__GetDual(), this.getPowerBondAdaptation(), "getDual", 0, 1, !IS_UNIQUE, IS_ORDERED); initEClass(extrapolationAdaptationEClass, ExtrapolationAdaptation.class, "ExtrapolationAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getExtrapolationAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, ExtrapolationAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); initEClass(rollbackInterpolationAdaptationEClass, RollbackInterpolationAdaptation.class, "RollbackInterpolationAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEClass(interpolationAdaptationEClass, InterpolationAdaptation.class, "InterpolationAdaptation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS); initEAttribute(getInterpolationAdaptation_Name(), theEcorePackage.getEString(), "name", null, 0, 1, InterpolationAdaptation.class, IS_TRANSIENT, IS_VOLATILE, !IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, IS_DERIVED, IS_ORDERED); // Initialize data types initEDataType(intEDataType, int.class, "Int", IS_SERIALIZABLE, !IS_GENERATED_INSTANCE_CLASS); // Create resource createResource(eNS_URI); } } //HintcoPackageImpl