public static ComponentInComponent_c[] getManyCN_CICsOnR4202(
Component_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new ComponentInComponent_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_CanNestComponentInComponentCanNest_R4202) {
for (int i = 0; i < target.backPointer_CanNestComponentInComponentCanNest_R4202.size(); ++i) {
ComponentInComponent_c source =
(ComponentInComponent_c)
target.backPointer_CanNestComponentInComponentCanNest_R4202.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
ComponentInComponent_c[] ret_set = new ComponentInComponent_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new ComponentInComponent_c[0];
}
}
public static InformalArgument_c[] getManyMSG_IAsOnR1013(
MessageArgument_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new InformalArgument_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(InformalArgument_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
InformalArgument_c source =
(InformalArgument_c) targets[i].backPointer_IsSubtypeInformalArgumentIsSubtype_R1013;
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
if (matches.size() > 0) {
InformalArgument_c[] ret_set = new InformalArgument_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new InformalArgument_c[0];
}
}
public static DataTypeInPackage_c[] getManyS_DIPsOnR39(
DataType_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new DataTypeInPackage_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(DataTypeInPackage_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
synchronized (targets[i].backPointer_IsContainedInDataTypeInPackageIsContainedIn_R39) {
for (int j = 0;
j < targets[i].backPointer_IsContainedInDataTypeInPackageIsContainedIn_R39.size();
++j) {
DataTypeInPackage_c source =
(DataTypeInPackage_c)
targets[i].backPointer_IsContainedInDataTypeInPackageIsContainedIn_R39.get(j);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
}
if (matches.size() > 0) {
DataTypeInPackage_c[] ret_set = new DataTypeInPackage_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new DataTypeInPackage_c[0];
}
}
public static DataTypeInPackage_c[] getManyS_DIPsOnR39(
DataTypePackage_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new DataTypeInPackage_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_ContainsDataTypeInPackageContains_R39) {
for (int i = 0; i < target.backPointer_ContainsDataTypeInPackageContains_R39.size(); ++i) {
DataTypeInPackage_c source =
(DataTypeInPackage_c) target.backPointer_ContainsDataTypeInPackageContains_R39.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
DataTypeInPackage_c[] ret_set = new DataTypeInPackage_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new DataTypeInPackage_c[0];
}
}
public static ComponentInComponent_c[] getManyCN_CICsOnR4202(
Component_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new ComponentInComponent_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(ComponentInComponent_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
synchronized (targets[i].backPointer_CanNestComponentInComponentCanNest_R4202) {
for (int j = 0;
j < targets[i].backPointer_CanNestComponentInComponentCanNest_R4202.size();
++j) {
ComponentInComponent_c source =
(ComponentInComponent_c)
targets[i].backPointer_CanNestComponentInComponentCanNest_R4202.get(j);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
}
if (matches.size() > 0) {
ComponentInComponent_c[] ret_set = new ComponentInComponent_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new ComponentInComponent_c[0];
}
}
public static AssignToMember_c[] getManyACT_AIsOnR603(
Statement_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new AssignToMember_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(AssignToMember_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
AssignToMember_c source =
(AssignToMember_c) targets[i].backPointer_IsSubtypeAssignToMemberIsSubtype_R603;
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
if (matches.size() > 0) {
AssignToMember_c[] ret_set = new AssignToMember_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new AssignToMember_c[0];
}
}
public static BridgeInvocation_c[] getManyACT_BRGsOnR674(
Bridge_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new BridgeInvocation_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_BridgeInvocation_R674) {
for (int i = 0; i < target.backPointer_BridgeInvocation_R674.size(); ++i) {
BridgeInvocation_c source =
(BridgeInvocation_c) target.backPointer_BridgeInvocation_R674.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
BridgeInvocation_c[] ret_set = new BridgeInvocation_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new BridgeInvocation_c[0];
}
}
public static TransientValueReference_c[] getManyV_TVLsOnR805(
Variable_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new TransientValueReference_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_TransientValueReference_R805) {
for (int i = 0; i < target.backPointer_TransientValueReference_R805.size(); ++i) {
TransientValueReference_c source =
(TransientValueReference_c) target.backPointer_TransientValueReference_R805.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
TransientValueReference_c[] ret_set = new TransientValueReference_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new TransientValueReference_c[0];
}
}
public static DescriptionQuery_c[] getManySQU_DEsOnR9600(
Query_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new DescriptionQuery_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(DescriptionQuery_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
DescriptionQuery_c source =
(DescriptionQuery_c) targets[i].backPointer_IsSubtypeDescriptionQueryIsSubtype_R9600;
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
if (matches.size() > 0) {
DescriptionQuery_c[] ret_set = new DescriptionQuery_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new DescriptionQuery_c[0];
}
}
public static ComponentResultSet_c[] getManyPE_CRSsOnR8007(
Component_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new ComponentResultSet_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_HoldsComponentResultSetHolds_R8007) {
for (int i = 0; i < target.backPointer_HoldsComponentResultSetHolds_R8007.size(); ++i) {
ComponentResultSet_c source =
(ComponentResultSet_c) target.backPointer_HoldsComponentResultSetHolds_R8007.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
ComponentResultSet_c[] ret_set = new ComponentResultSet_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new ComponentResultSet_c[0];
}
}
public static InstanceStateMachine_c[] getManySM_ISMsOnR518(
ModelClass_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new InstanceStateMachine_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
if (loadComponent) {
// Containment Relation
PersistableModelComponent[] pmcs = new PersistableModelComponent[targets.length];
for (int i = 0; i < targets.length; i++) {
pmcs[i] = targets[i].getPersistableComponent();
}
PersistenceManager.ensureAllChildInstancesLoaded(
pmcs, modelRoot, InstanceStateMachine_c.class);
}
InstanceList instances = modelRoot.getInstanceList(InstanceStateMachine_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
InstanceStateMachine_c source =
(InstanceStateMachine_c) targets[i].backPointer_InstanceStateMachine_R518;
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
if (matches.size() > 0) {
InstanceStateMachine_c[] ret_set = new InstanceStateMachine_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new InstanceStateMachine_c[0];
}
}
public static ElementInMove_c[] getManyGD_EIMsOnR25(
GraphicalElement_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null) return new ElementInMove_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(ElementInMove_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
synchronized (targets[i].backPointer_IsMovingInElementInMoveIsMovingIn_R25) {
for (int j = 0;
j < targets[i].backPointer_IsMovingInElementInMoveIsMovingIn_R25.size();
++j) {
ElementInMove_c source =
(ElementInMove_c) targets[i].backPointer_IsMovingInElementInMoveIsMovingIn_R25.get(j);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
}
if (matches.size() > 0) {
ElementInMove_c[] ret_set = new ElementInMove_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new ElementInMove_c[0];
}
}
public static ElementInMove_c[] getManyGD_EIMsOnR25(
Model_c target, ClassQueryInterface_c test, boolean loadComponent) {
if (target == null) return new ElementInMove_c[0];
ModelRoot modelRoot = target.getModelRoot();
Vector matches = new Vector();
synchronized (target.backPointer_IsMovingElementInMoveIsMoving_R25) {
for (int i = 0; i < target.backPointer_IsMovingElementInMoveIsMoving_R25.size(); ++i) {
ElementInMove_c source =
(ElementInMove_c) target.backPointer_IsMovingElementInMoveIsMoving_R25.get(i);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
if (matches.size() > 0) {
ElementInMove_c[] ret_set = new ElementInMove_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new ElementInMove_c[0];
}
}
public static TransientValueReference_c[] getManyV_TVLsOnR801(
Value_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new TransientValueReference_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(TransientValueReference_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
TransientValueReference_c source =
(TransientValueReference_c)
targets[i].backPointer_IsSubtypeTransientValueReferenceIsSubtype_R801;
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
if (matches.size() > 0) {
TransientValueReference_c[] ret_set = new TransientValueReference_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new TransientValueReference_c[0];
}
}
public static BridgeInvocation_c[] getManyACT_BRGsOnR674(
Bridge_c[] targets, ClassQueryInterface_c test, boolean loadComponent) {
if (targets == null || targets.length == 0 || targets[0] == null)
return new BridgeInvocation_c[0];
ModelRoot modelRoot = targets[0].getModelRoot();
InstanceList instances = modelRoot.getInstanceList(BridgeInvocation_c.class);
Vector matches = new Vector();
for (int i = 0; i < targets.length; i++) {
synchronized (targets[i].backPointer_BridgeInvocation_R674) {
for (int j = 0; j < targets[i].backPointer_BridgeInvocation_R674.size(); ++j) {
BridgeInvocation_c source =
(BridgeInvocation_c) targets[i].backPointer_BridgeInvocation_R674.get(j);
if (source != null && (test == null || test.evaluate(source))) {
matches.add(source);
}
}
}
}
if (matches.size() > 0) {
BridgeInvocation_c[] ret_set = new BridgeInvocation_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new BridgeInvocation_c[0];
}
}
public static Graphnode_c[] GraphnodeInstances(
ModelRoot modelRoot, ClassQueryInterface_c test, boolean loadComponent) {
InstanceList instances = modelRoot.getInstanceList(Graphnode_c.class);
Vector matches = new Vector();
synchronized (instances) {
for (int i = 0; i < instances.size(); ++i) {
Graphnode_c x = (Graphnode_c) instances.get(i);
if (test == null || test.evaluate(x)) {
matches.add(x);
}
}
if (matches.size() > 0) {
Graphnode_c[] ret_set = new Graphnode_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new Graphnode_c[0];
}
}
}
public static InformalArgument_c[] InformalArgumentInstances(
ModelRoot modelRoot, ClassQueryInterface_c test, boolean loadComponent) {
if (loadComponent) {
PersistenceManager.ensureAllInstancesLoaded(modelRoot, InformalArgument_c.class);
}
InstanceList instances = modelRoot.getInstanceList(InformalArgument_c.class);
Vector matches = new Vector();
synchronized (instances) {
for (int i = 0; i < instances.size(); ++i) {
InformalArgument_c x = (InformalArgument_c) instances.get(i);
if (test == null || test.evaluate(x)) {
if (x.ensureLoaded(loadComponent)) matches.add(x);
}
}
if (matches.size() > 0) {
InformalArgument_c[] ret_set = new InformalArgument_c[matches.size()];
matches.copyInto(ret_set);
return ret_set;
} else {
return new InformalArgument_c[0];
}
}
}