/**
* generated by Xtext 2.21.0
*/
package org.eclipse.viatra.solver.language.solverLanguage.impl;
import org.eclipse.emf.common.notify.Notification;
import org.eclipse.emf.common.notify.NotificationChain;
import org.eclipse.emf.ecore.EClass;
import org.eclipse.emf.ecore.InternalEObject;
import org.eclipse.emf.ecore.impl.ENotificationImpl;
import org.eclipse.viatra.solver.language.solverLanguage.ArgumentList;
import org.eclipse.viatra.solver.language.solverLanguage.Call;
import org.eclipse.viatra.solver.language.solverLanguage.Reference;
import org.eclipse.viatra.solver.language.solverLanguage.SolverLanguagePackage;
/**
*
* An implementation of the model object 'Call'.
*
*
* The following features are implemented:
*
*
* - {@link org.eclipse.viatra.solver.language.solverLanguage.impl.CallImpl#getFunctor Functor}
* - {@link org.eclipse.viatra.solver.language.solverLanguage.impl.CallImpl#isTransitiveClosure Transitive Closure}
* - {@link org.eclipse.viatra.solver.language.solverLanguage.impl.CallImpl#isReflexiveTransitiveClosure Reflexive Transitive Closure}
* - {@link org.eclipse.viatra.solver.language.solverLanguage.impl.CallImpl#getArgumentList Argument List}
*
*
* @generated
*/
public class CallImpl extends ExpressionImpl implements Call
{
/**
* The cached value of the '{@link #getFunctor() Functor}' containment reference.
*
*
* @see #getFunctor()
* @generated
* @ordered
*/
protected Reference functor;
/**
* The default value of the '{@link #isTransitiveClosure() Transitive Closure}' attribute.
*
*
* @see #isTransitiveClosure()
* @generated
* @ordered
*/
protected static final boolean TRANSITIVE_CLOSURE_EDEFAULT = false;
/**
* The cached value of the '{@link #isTransitiveClosure() Transitive Closure}' attribute.
*
*
* @see #isTransitiveClosure()
* @generated
* @ordered
*/
protected boolean transitiveClosure = TRANSITIVE_CLOSURE_EDEFAULT;
/**
* The default value of the '{@link #isReflexiveTransitiveClosure() Reflexive Transitive Closure}' attribute.
*
*
* @see #isReflexiveTransitiveClosure()
* @generated
* @ordered
*/
protected static final boolean REFLEXIVE_TRANSITIVE_CLOSURE_EDEFAULT = false;
/**
* The cached value of the '{@link #isReflexiveTransitiveClosure() Reflexive Transitive Closure}' attribute.
*
*
* @see #isReflexiveTransitiveClosure()
* @generated
* @ordered
*/
protected boolean reflexiveTransitiveClosure = REFLEXIVE_TRANSITIVE_CLOSURE_EDEFAULT;
/**
* The cached value of the '{@link #getArgumentList() Argument List}' containment reference.
*
*
* @see #getArgumentList()
* @generated
* @ordered
*/
protected ArgumentList argumentList;
/**
*
*
* @generated
*/
protected CallImpl()
{
super();
}
/**
*
*
* @generated
*/
@Override
protected EClass eStaticClass()
{
return SolverLanguagePackage.Literals.CALL;
}
/**
*
*
* @generated
*/
@Override
public Reference getFunctor()
{
return functor;
}
/**
*
*
* @generated
*/
public NotificationChain basicSetFunctor(Reference newFunctor, NotificationChain msgs)
{
Reference oldFunctor = functor;
functor = newFunctor;
if (eNotificationRequired())
{
ENotificationImpl notification = new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__FUNCTOR, oldFunctor, newFunctor);
if (msgs == null) msgs = notification; else msgs.add(notification);
}
return msgs;
}
/**
*
*
* @generated
*/
@Override
public void setFunctor(Reference newFunctor)
{
if (newFunctor != functor)
{
NotificationChain msgs = null;
if (functor != null)
msgs = ((InternalEObject)functor).eInverseRemove(this, EOPPOSITE_FEATURE_BASE - SolverLanguagePackage.CALL__FUNCTOR, null, msgs);
if (newFunctor != null)
msgs = ((InternalEObject)newFunctor).eInverseAdd(this, EOPPOSITE_FEATURE_BASE - SolverLanguagePackage.CALL__FUNCTOR, null, msgs);
msgs = basicSetFunctor(newFunctor, msgs);
if (msgs != null) msgs.dispatch();
}
else if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__FUNCTOR, newFunctor, newFunctor));
}
/**
*
*
* @generated
*/
@Override
public boolean isTransitiveClosure()
{
return transitiveClosure;
}
/**
*
*
* @generated
*/
@Override
public void setTransitiveClosure(boolean newTransitiveClosure)
{
boolean oldTransitiveClosure = transitiveClosure;
transitiveClosure = newTransitiveClosure;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__TRANSITIVE_CLOSURE, oldTransitiveClosure, transitiveClosure));
}
/**
*
*
* @generated
*/
@Override
public boolean isReflexiveTransitiveClosure()
{
return reflexiveTransitiveClosure;
}
/**
*
*
* @generated
*/
@Override
public void setReflexiveTransitiveClosure(boolean newReflexiveTransitiveClosure)
{
boolean oldReflexiveTransitiveClosure = reflexiveTransitiveClosure;
reflexiveTransitiveClosure = newReflexiveTransitiveClosure;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__REFLEXIVE_TRANSITIVE_CLOSURE, oldReflexiveTransitiveClosure, reflexiveTransitiveClosure));
}
/**
*
*
* @generated
*/
@Override
public ArgumentList getArgumentList()
{
return argumentList;
}
/**
*
*
* @generated
*/
public NotificationChain basicSetArgumentList(ArgumentList newArgumentList, NotificationChain msgs)
{
ArgumentList oldArgumentList = argumentList;
argumentList = newArgumentList;
if (eNotificationRequired())
{
ENotificationImpl notification = new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__ARGUMENT_LIST, oldArgumentList, newArgumentList);
if (msgs == null) msgs = notification; else msgs.add(notification);
}
return msgs;
}
/**
*
*
* @generated
*/
@Override
public void setArgumentList(ArgumentList newArgumentList)
{
if (newArgumentList != argumentList)
{
NotificationChain msgs = null;
if (argumentList != null)
msgs = ((InternalEObject)argumentList).eInverseRemove(this, EOPPOSITE_FEATURE_BASE - SolverLanguagePackage.CALL__ARGUMENT_LIST, null, msgs);
if (newArgumentList != null)
msgs = ((InternalEObject)newArgumentList).eInverseAdd(this, EOPPOSITE_FEATURE_BASE - SolverLanguagePackage.CALL__ARGUMENT_LIST, null, msgs);
msgs = basicSetArgumentList(newArgumentList, msgs);
if (msgs != null) msgs.dispatch();
}
else if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, SolverLanguagePackage.CALL__ARGUMENT_LIST, newArgumentList, newArgumentList));
}
/**
*
*
* @generated
*/
@Override
public NotificationChain eInverseRemove(InternalEObject otherEnd, int featureID, NotificationChain msgs)
{
switch (featureID)
{
case SolverLanguagePackage.CALL__FUNCTOR:
return basicSetFunctor(null, msgs);
case SolverLanguagePackage.CALL__ARGUMENT_LIST:
return basicSetArgumentList(null, msgs);
}
return super.eInverseRemove(otherEnd, featureID, msgs);
}
/**
*
*
* @generated
*/
@Override
public Object eGet(int featureID, boolean resolve, boolean coreType)
{
switch (featureID)
{
case SolverLanguagePackage.CALL__FUNCTOR:
return getFunctor();
case SolverLanguagePackage.CALL__TRANSITIVE_CLOSURE:
return isTransitiveClosure();
case SolverLanguagePackage.CALL__REFLEXIVE_TRANSITIVE_CLOSURE:
return isReflexiveTransitiveClosure();
case SolverLanguagePackage.CALL__ARGUMENT_LIST:
return getArgumentList();
}
return super.eGet(featureID, resolve, coreType);
}
/**
*
*
* @generated
*/
@Override
public void eSet(int featureID, Object newValue)
{
switch (featureID)
{
case SolverLanguagePackage.CALL__FUNCTOR:
setFunctor((Reference)newValue);
return;
case SolverLanguagePackage.CALL__TRANSITIVE_CLOSURE:
setTransitiveClosure((Boolean)newValue);
return;
case SolverLanguagePackage.CALL__REFLEXIVE_TRANSITIVE_CLOSURE:
setReflexiveTransitiveClosure((Boolean)newValue);
return;
case SolverLanguagePackage.CALL__ARGUMENT_LIST:
setArgumentList((ArgumentList)newValue);
return;
}
super.eSet(featureID, newValue);
}
/**
*
*
* @generated
*/
@Override
public void eUnset(int featureID)
{
switch (featureID)
{
case SolverLanguagePackage.CALL__FUNCTOR:
setFunctor((Reference)null);
return;
case SolverLanguagePackage.CALL__TRANSITIVE_CLOSURE:
setTransitiveClosure(TRANSITIVE_CLOSURE_EDEFAULT);
return;
case SolverLanguagePackage.CALL__REFLEXIVE_TRANSITIVE_CLOSURE:
setReflexiveTransitiveClosure(REFLEXIVE_TRANSITIVE_CLOSURE_EDEFAULT);
return;
case SolverLanguagePackage.CALL__ARGUMENT_LIST:
setArgumentList((ArgumentList)null);
return;
}
super.eUnset(featureID);
}
/**
*
*
* @generated
*/
@Override
public boolean eIsSet(int featureID)
{
switch (featureID)
{
case SolverLanguagePackage.CALL__FUNCTOR:
return functor != null;
case SolverLanguagePackage.CALL__TRANSITIVE_CLOSURE:
return transitiveClosure != TRANSITIVE_CLOSURE_EDEFAULT;
case SolverLanguagePackage.CALL__REFLEXIVE_TRANSITIVE_CLOSURE:
return reflexiveTransitiveClosure != REFLEXIVE_TRANSITIVE_CLOSURE_EDEFAULT;
case SolverLanguagePackage.CALL__ARGUMENT_LIST:
return argumentList != null;
}
return super.eIsSet(featureID);
}
/**
*
*
* @generated
*/
@Override
public String toString()
{
if (eIsProxy()) return super.toString();
StringBuilder result = new StringBuilder(super.toString());
result.append(" (transitiveClosure: ");
result.append(transitiveClosure);
result.append(", reflexiveTransitiveClosure: ");
result.append(reflexiveTransitiveClosure);
result.append(')');
return result.toString();
}
} //CallImpl