public void deleteMemoByMemoContactIdx(long TenantId, long ContactId) {
CFCrmMemoByMemoContactIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
if (indexByMemoContactIdx == null) {
indexByMemoContactIdx =
new HashMap<CFCrmMemoByMemoContactIdxKey, Map<CFCrmMemoPKey, ICFCrmMemoObj>>();
}
if (indexByMemoContactIdx.containsKey(key)) {
Map<CFCrmMemoPKey, ICFCrmMemoObj> dict = indexByMemoContactIdx.get(key);
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.deleteMemoByMemoContactIdx(schema.getAuthorization(), TenantId, ContactId);
Iterator<ICFCrmMemoObj> iter = dict.values().iterator();
ICFCrmMemoObj obj;
List<ICFCrmMemoObj> toForget = new LinkedList<ICFCrmMemoObj>();
while (iter.hasNext()) {
obj = iter.next();
toForget.add(obj);
}
iter = toForget.iterator();
while (iter.hasNext()) {
obj = iter.next();
obj.forget(true);
}
indexByMemoContactIdx.remove(key);
} else {
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.deleteMemoByMemoContactIdx(schema.getAuthorization(), TenantId, ContactId);
}
}
public void forgetMemoByMemoContactIdx(long TenantId, long ContactId) {
if (indexByMemoContactIdx == null) {
return;
}
CFCrmMemoByMemoContactIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
if (indexByMemoContactIdx.containsKey(key)) {
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapMemoContactIdx = indexByMemoContactIdx.get(key);
if (mapMemoContactIdx != null) {
List<ICFCrmMemoObj> toForget = new LinkedList<ICFCrmMemoObj>();
ICFCrmMemoObj cur = null;
Iterator<ICFCrmMemoObj> iter = mapMemoContactIdx.values().iterator();
while (iter.hasNext()) {
cur = iter.next();
toForget.add(cur);
}
iter = toForget.iterator();
while (iter.hasNext()) {
cur = iter.next();
cur.forget(true);
}
}
indexByMemoContactIdx.remove(key);
}
}
public ICFCrmMemoObj readMemoByUDescrIdx(
long TenantId, long ContactId, String Description, boolean forceRead) {
if (indexByUDescrIdx == null) {
indexByUDescrIdx = new HashMap<CFCrmMemoByUDescrIdxKey, ICFCrmMemoObj>();
}
CFCrmMemoByUDescrIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
key.setRequiredDescription(Description);
ICFCrmMemoObj obj = null;
if ((!forceRead) && indexByUDescrIdx.containsKey(key)) {
obj = indexByUDescrIdx.get(key);
} else {
CFCrmMemoBuff buff =
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.readDerivedByUDescrIdx(schema.getAuthorization(), TenantId, ContactId, Description);
if (buff != null) {
obj = schema.getMemoTableObj().newInstance();
obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
obj.setBuff(buff);
obj = (ICFCrmMemoObj) obj.realize();
} else if (schema.getCacheMisses()) {
indexByUDescrIdx.put(key, null);
}
}
return (obj);
}
public List<ICFCrmMemoObj> readAllMemo(boolean forceRead) {
final String S_ProcName = "readAllMemo";
if ((allMemo == null) || forceRead) {
Map<CFCrmMemoPKey, ICFCrmMemoObj> map = new HashMap<CFCrmMemoPKey, ICFCrmMemoObj>();
allMemo = map;
CFCrmMemoBuff[] buffList =
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.readAllDerived(schema.getAuthorization());
CFCrmMemoBuff buff;
ICFCrmMemoObj obj;
for (int idx = 0; idx < buffList.length; idx++) {
buff = buffList[idx];
obj = newInstance();
obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
obj.setBuff(buff);
ICFCrmMemoObj realized = (ICFCrmMemoObj) obj.realize();
}
}
Comparator<ICFCrmMemoObj> cmp =
new Comparator<ICFCrmMemoObj>() {
public int compare(ICFCrmMemoObj lhs, ICFCrmMemoObj rhs) {
if (lhs == null) {
if (rhs == null) {
return (0);
} else {
return (-1);
}
} else if (rhs == null) {
return (1);
} else {
CFCrmMemoPKey lhsPKey = lhs.getPKey();
CFCrmMemoPKey rhsPKey = rhs.getPKey();
int ret = lhsPKey.compareTo(rhsPKey);
return (ret);
}
}
};
int len = allMemo.size();
ICFCrmMemoObj arr[] = new ICFCrmMemoObj[len];
Iterator<ICFCrmMemoObj> valIter = allMemo.values().iterator();
int idx = 0;
while ((idx < len) && valIter.hasNext()) {
arr[idx++] = valIter.next();
}
if (idx < len) {
throw CFLib.getDefaultExceptionFactory()
.newArgumentUnderflowException(getClass(), S_ProcName, 0, "idx", idx, len);
} else if (valIter.hasNext()) {
throw CFLib.getDefaultExceptionFactory()
.newArgumentOverflowException(getClass(), S_ProcName, 0, "idx", idx, len);
}
Arrays.sort(arr, cmp);
ArrayList<ICFCrmMemoObj> arrayList = new ArrayList<ICFCrmMemoObj>(len);
for (idx = 0; idx < len; idx++) {
arrayList.add(arr[idx]);
}
List<ICFCrmMemoObj> sortedList = arrayList;
return (sortedList);
}
public CFSecurityHostNodeBuff[] readAllDerived(CFSecurityAuthorization Authorization) {
final String S_ProcName = "CFAccRamHostNode.readAllDerived";
CFSecurityHostNodeBuff[] retList = new CFSecurityHostNodeBuff[dictByPKey.values().size()];
Iterator<CFSecurityHostNodeBuff> iter = dictByPKey.values().iterator();
int idx = 0;
while (iter.hasNext()) {
retList[idx++] = iter.next();
}
return (retList);
}
public CFSecurityHostNodeBuff lockDerived(
CFSecurityAuthorization Authorization, CFSecurityHostNodePKey PKey) {
final String S_ProcName = "CFAccRamHostNode.readDerived";
CFSecurityHostNodePKey key = schema.getFactoryHostNode().newPKey();
key.setRequiredClusterId(PKey.getRequiredClusterId());
key.setRequiredHostNodeId(PKey.getRequiredHostNodeId());
CFSecurityHostNodeBuff buff;
if (dictByPKey.containsKey(key)) {
buff = dictByPKey.get(key);
} else {
buff = null;
}
return (buff);
}
public void forgetMemoByIdIdx(long TenantId, long MemoId) {
if (members == null) {
return;
}
CFCrmMemoPKey key = ((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey();
key.setRequiredTenantId(TenantId);
key.setRequiredMemoId(MemoId);
if (members.containsKey(key)) {
ICFCrmMemoObj probed = members.get(key);
if (probed != null) {
probed.forget(true);
}
}
}
public CFSecurityHostNodeBuff readDerivedByHostNameIdx(
CFSecurityAuthorization Authorization, long ClusterId, String HostName) {
final String S_ProcName = "CFAccRamHostNode.readDerivedByHostNameIdx";
CFSecurityHostNodeByHostNameIdxKey key = schema.getFactoryHostNode().newHostNameIdxKey();
key.setRequiredClusterId(ClusterId);
key.setRequiredHostName(HostName);
CFSecurityHostNodeBuff buff;
if (dictByHostNameIdx.containsKey(key)) {
buff = dictByHostNameIdx.get(key);
} else {
buff = null;
}
return (buff);
}
public CFSecurityCursor openHostNodeCursorByClusterIdx(
CFSecurityAuthorization Authorization, long ClusterId) {
CFSecurityCursor cursor;
CFSecurityHostNodeByClusterIdxKey key = schema.getFactoryHostNode().newClusterIdxKey();
key.setRequiredClusterId(ClusterId);
if (dictByClusterIdx.containsKey(key)) {
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdictClusterIdx =
dictByClusterIdx.get(key);
cursor = new CFAccRamHostNodeCursor(Authorization, schema, subdictClusterIdx.values());
} else {
cursor =
new CFAccRamHostNodeCursor(
Authorization, schema, new ArrayList<CFSecurityHostNodeBuff>());
}
return (cursor);
}
public void forgetMemoByUDescrIdx(long TenantId, long ContactId, String Description) {
if (indexByUDescrIdx == null) {
return;
}
CFCrmMemoByUDescrIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
key.setRequiredDescription(Description);
if (indexByUDescrIdx.containsKey(key)) {
ICFCrmMemoObj probed = indexByUDescrIdx.get(key);
if (probed != null) {
probed.forget(true);
}
indexByUDescrIdx.remove(key);
}
}
public void forgetMemo(ICFCrmMemoObj Obj, boolean forgetSubObjects) {
ICFCrmMemoObj obj = Obj;
CFCrmMemoPKey pkey = obj.getPKey();
if (members.containsKey(pkey)) {
ICFCrmMemoObj keepObj = members.get(pkey);
// Detach object from alternate, duplicate, all and PKey indexes
if (indexByTenantIdx != null) {
CFCrmMemoByTenantIdxKey keyTenantIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newTenantIdxKey();
keyTenantIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapTenantIdx = indexByTenantIdx.get(keyTenantIdx);
if (mapTenantIdx != null) {
mapTenantIdx.remove(keepObj.getPKey());
}
}
if (indexByMemoContactIdx != null) {
CFCrmMemoByMemoContactIdxKey keyMemoContactIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
keyMemoContactIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyMemoContactIdx.setRequiredContactId(keepObj.getRequiredContactId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapMemoContactIdx =
indexByMemoContactIdx.get(keyMemoContactIdx);
if (mapMemoContactIdx != null) {
mapMemoContactIdx.remove(keepObj.getPKey());
}
}
if (indexByUDescrIdx != null) {
CFCrmMemoByUDescrIdxKey keyUDescrIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
keyUDescrIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyUDescrIdx.setRequiredContactId(keepObj.getRequiredContactId());
keyUDescrIdx.setRequiredDescription(keepObj.getRequiredDescription());
indexByUDescrIdx.remove(keyUDescrIdx);
}
if (allMemo != null) {
allMemo.remove(keepObj.getPKey());
}
members.remove(pkey);
if (forgetSubObjects) {
((ICFCrmSchemaObj) schema)
.getMemoTagTableObj()
.forgetMemoTagByMemoIdx(keepObj.getRequiredTenantId(), keepObj.getRequiredMemoId());
}
}
}
public ICFCrmMemoObj readMemo(CFCrmMemoPKey pkey, boolean forceRead) {
ICFCrmMemoObj obj = null;
if ((!forceRead) && members.containsKey(pkey)) {
obj = members.get(pkey);
} else {
CFCrmMemoBuff readBuff =
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.readDerivedByIdIdx(
schema.getAuthorization(), pkey.getRequiredTenantId(), pkey.getRequiredMemoId());
if (readBuff != null) {
obj = schema.getMemoTableObj().newInstance();
obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
obj.setBuff(readBuff);
obj = (ICFCrmMemoObj) obj.realize();
} else if (schema.getCacheMisses()) {
members.put(pkey, null);
}
}
return (obj);
}
public void deleteMemoByUDescrIdx(long TenantId, long ContactId, String Description) {
if (indexByUDescrIdx == null) {
indexByUDescrIdx = new HashMap<CFCrmMemoByUDescrIdxKey, ICFCrmMemoObj>();
}
CFCrmMemoByUDescrIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
key.setRequiredDescription(Description);
ICFCrmMemoObj obj = null;
if (indexByUDescrIdx.containsKey(key)) {
obj = indexByUDescrIdx.get(key);
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.deleteMemoByUDescrIdx(schema.getAuthorization(), TenantId, ContactId, Description);
obj.forget(true);
} else {
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.deleteMemoByUDescrIdx(schema.getAuthorization(), TenantId, ContactId, Description);
}
}
public CFSecurityHostNodeBuff[] readDerivedByClusterIdx(
CFSecurityAuthorization Authorization, long ClusterId) {
final String S_ProcName = "CFAccRamHostNode.readDerivedByClusterIdx";
CFSecurityHostNodeByClusterIdxKey key = schema.getFactoryHostNode().newClusterIdxKey();
key.setRequiredClusterId(ClusterId);
CFSecurityHostNodeBuff[] recArray;
if (dictByClusterIdx.containsKey(key)) {
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdictClusterIdx =
dictByClusterIdx.get(key);
recArray = new CFSecurityHostNodeBuff[subdictClusterIdx.size()];
Iterator<CFSecurityHostNodeBuff> iter = subdictClusterIdx.values().iterator();
int idx = 0;
while (iter.hasNext()) {
recArray[idx++] = iter.next();
}
} else {
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdictClusterIdx =
new HashMap<CFSecurityHostNodePKey, CFSecurityHostNodeBuff>();
dictByClusterIdx.put(key, subdictClusterIdx);
recArray = new CFSecurityHostNodeBuff[0];
}
return (recArray);
}
public void deleteHostNodeByHostNameIdx(
CFSecurityAuthorization Authorization, CFSecurityHostNodeByHostNameIdxKey argKey) {
CFSecurityHostNodeBuff cur;
LinkedList<CFSecurityHostNodeBuff> matchSet = new LinkedList<CFSecurityHostNodeBuff>();
Iterator<CFSecurityHostNodeBuff> values = dictByPKey.values().iterator();
while (values.hasNext()) {
cur = values.next();
if (argKey.equals(cur)) {
matchSet.add(cur);
}
}
Iterator<CFSecurityHostNodeBuff> iterMatch = matchSet.iterator();
while (iterMatch.hasNext()) {
cur = iterMatch.next();
deleteHostNode(Authorization, cur);
}
}
public void minimizeMemory() {
allMemo = null;
indexByTenantIdx = null;
indexByMemoContactIdx = null;
indexByUDescrIdx = null;
List<ICFCrmMemoObj> toForget = new LinkedList<ICFCrmMemoObj>();
ICFCrmMemoObj cur = null;
Iterator<ICFCrmMemoObj> iter = members.values().iterator();
while (iter.hasNext()) {
cur = iter.next();
if (cur.getEdit() == null) {
toForget.add(cur);
}
}
iter = toForget.iterator();
while (iter.hasNext()) {
cur = iter.next();
cur.forget();
}
}
public void deleteHostNode(CFSecurityAuthorization Authorization, CFSecurityHostNodeBuff Buff) {
final String S_ProcName = "CFAccRamHostNodeTable.deleteHostNode() ";
CFSecurityHostNodePKey pkey = schema.getFactoryHostNode().newPKey();
pkey.setRequiredClusterId(Buff.getRequiredClusterId());
pkey.setRequiredHostNodeId(Buff.getRequiredHostNodeId());
CFSecurityHostNodeBuff existing = dictByPKey.get(pkey);
if (existing == null) {
return;
}
if (existing.getRequiredRevision() != Buff.getRequiredRevision()) {
throw CFLib.getDefaultExceptionFactory()
.newCollisionDetectedException(getClass(), "deleteHostNode", pkey);
}
CFSecurityHostNodeByClusterIdxKey keyClusterIdx =
schema.getFactoryHostNode().newClusterIdxKey();
keyClusterIdx.setRequiredClusterId(existing.getRequiredClusterId());
CFSecurityHostNodeByUDescrIdxKey keyUDescrIdx = schema.getFactoryHostNode().newUDescrIdxKey();
keyUDescrIdx.setRequiredClusterId(existing.getRequiredClusterId());
keyUDescrIdx.setRequiredDescription(existing.getRequiredDescription());
CFSecurityHostNodeByHostNameIdxKey keyHostNameIdx =
schema.getFactoryHostNode().newHostNameIdxKey();
keyHostNameIdx.setRequiredClusterId(existing.getRequiredClusterId());
keyHostNameIdx.setRequiredHostName(existing.getRequiredHostName());
// Validate reverse foreign keys
// Delete is valid
schema
.getTableService()
.deleteServiceByHostIdx(
Authorization, Buff.getRequiredClusterId(), Buff.getRequiredHostNodeId());
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdict;
dictByPKey.remove(pkey);
subdict = dictByClusterIdx.get(keyClusterIdx);
subdict.remove(pkey);
dictByUDescrIdx.remove(keyUDescrIdx);
dictByHostNameIdx.remove(keyHostNameIdx);
}
public CFSecurityCursor openHostNodeCursorAll(CFSecurityAuthorization Authorization) {
CFSecurityCursor cursor =
new CFAccRamHostNodeCursor(Authorization, schema, dictByPKey.values());
return (cursor);
}
public List<ICFCrmMemoObj> readMemoByMemoContactIdx(
long TenantId, long ContactId, boolean forceRead) {
final String S_ProcName = "readMemoByMemoContactIdx";
CFCrmMemoByMemoContactIdxKey key =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
key.setRequiredTenantId(TenantId);
key.setRequiredContactId(ContactId);
Map<CFCrmMemoPKey, ICFCrmMemoObj> dict;
if (indexByMemoContactIdx == null) {
indexByMemoContactIdx =
new HashMap<CFCrmMemoByMemoContactIdxKey, Map<CFCrmMemoPKey, ICFCrmMemoObj>>();
}
if ((!forceRead) && indexByMemoContactIdx.containsKey(key)) {
dict = indexByMemoContactIdx.get(key);
} else {
dict = new HashMap<CFCrmMemoPKey, ICFCrmMemoObj>();
// Allow other threads to dirty-read while we're loading
indexByMemoContactIdx.put(key, dict);
ICFCrmMemoObj obj;
CFCrmMemoBuff[] buffList =
((ICFAccSchema) schema.getBackingStore())
.getTableMemo()
.readDerivedByMemoContactIdx(schema.getAuthorization(), TenantId, ContactId);
CFCrmMemoBuff buff;
for (int idx = 0; idx < buffList.length; idx++) {
buff = buffList[idx];
obj = schema.getMemoTableObj().newInstance();
obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
obj.setBuff(buff);
ICFCrmMemoObj realized = (ICFCrmMemoObj) obj.realize();
}
}
Comparator<ICFCrmMemoObj> cmp =
new Comparator<ICFCrmMemoObj>() {
public int compare(ICFCrmMemoObj lhs, ICFCrmMemoObj rhs) {
if (lhs == null) {
if (rhs == null) {
return (0);
} else {
return (-1);
}
} else if (rhs == null) {
return (1);
} else {
CFCrmMemoPKey lhsPKey = lhs.getPKey();
CFCrmMemoPKey rhsPKey = rhs.getPKey();
int ret = lhsPKey.compareTo(rhsPKey);
return (ret);
}
}
};
int len = dict.size();
ICFCrmMemoObj arr[] = new ICFCrmMemoObj[len];
Iterator<ICFCrmMemoObj> valIter = dict.values().iterator();
int idx = 0;
while ((idx < len) && valIter.hasNext()) {
arr[idx++] = valIter.next();
}
if (idx < len) {
throw CFLib.getDefaultExceptionFactory()
.newArgumentUnderflowException(getClass(), S_ProcName, 0, "idx", idx, len);
} else if (valIter.hasNext()) {
throw CFLib.getDefaultExceptionFactory()
.newArgumentOverflowException(getClass(), S_ProcName, 0, "idx", idx, len);
}
Arrays.sort(arr, cmp);
ArrayList<ICFCrmMemoObj> arrayList = new ArrayList<ICFCrmMemoObj>(len);
for (idx = 0; idx < len; idx++) {
arrayList.add(arr[idx]);
}
List<ICFCrmMemoObj> sortedList = arrayList;
return (sortedList);
}
public void updateHostNode(CFSecurityAuthorization Authorization, CFSecurityHostNodeBuff Buff) {
CFSecurityHostNodePKey pkey = schema.getFactoryHostNode().newPKey();
pkey.setRequiredClusterId(Buff.getRequiredClusterId());
pkey.setRequiredHostNodeId(Buff.getRequiredHostNodeId());
CFSecurityHostNodeBuff existing = dictByPKey.get(pkey);
if (existing == null) {
throw CFLib.getDefaultExceptionFactory()
.newStaleCacheDetectedException(
getClass(), "updateHostNode", "Existing record not found", "HostNode", pkey);
}
if (existing.getRequiredRevision() != Buff.getRequiredRevision()) {
throw CFLib.getDefaultExceptionFactory()
.newCollisionDetectedException(getClass(), "updateHostNode", pkey);
}
Buff.setRequiredRevision(Buff.getRequiredRevision() + 1);
CFSecurityHostNodeByClusterIdxKey existingKeyClusterIdx =
schema.getFactoryHostNode().newClusterIdxKey();
existingKeyClusterIdx.setRequiredClusterId(existing.getRequiredClusterId());
CFSecurityHostNodeByClusterIdxKey newKeyClusterIdx =
schema.getFactoryHostNode().newClusterIdxKey();
newKeyClusterIdx.setRequiredClusterId(Buff.getRequiredClusterId());
CFSecurityHostNodeByUDescrIdxKey existingKeyUDescrIdx =
schema.getFactoryHostNode().newUDescrIdxKey();
existingKeyUDescrIdx.setRequiredClusterId(existing.getRequiredClusterId());
existingKeyUDescrIdx.setRequiredDescription(existing.getRequiredDescription());
CFSecurityHostNodeByUDescrIdxKey newKeyUDescrIdx =
schema.getFactoryHostNode().newUDescrIdxKey();
newKeyUDescrIdx.setRequiredClusterId(Buff.getRequiredClusterId());
newKeyUDescrIdx.setRequiredDescription(Buff.getRequiredDescription());
CFSecurityHostNodeByHostNameIdxKey existingKeyHostNameIdx =
schema.getFactoryHostNode().newHostNameIdxKey();
existingKeyHostNameIdx.setRequiredClusterId(existing.getRequiredClusterId());
existingKeyHostNameIdx.setRequiredHostName(existing.getRequiredHostName());
CFSecurityHostNodeByHostNameIdxKey newKeyHostNameIdx =
schema.getFactoryHostNode().newHostNameIdxKey();
newKeyHostNameIdx.setRequiredClusterId(Buff.getRequiredClusterId());
newKeyHostNameIdx.setRequiredHostName(Buff.getRequiredHostName());
// Check unique indexes
if (!existingKeyUDescrIdx.equals(newKeyUDescrIdx)) {
if (dictByUDescrIdx.containsKey(newKeyUDescrIdx)) {
throw CFLib.getDefaultExceptionFactory()
.newUniqueIndexViolationException(
getClass(), "updateHostNode", "HostNodeUDescrIdx", newKeyUDescrIdx);
}
}
if (!existingKeyHostNameIdx.equals(newKeyHostNameIdx)) {
if (dictByHostNameIdx.containsKey(newKeyHostNameIdx)) {
throw CFLib.getDefaultExceptionFactory()
.newUniqueIndexViolationException(
getClass(), "updateHostNode", "HostNodeUHostNameIdx", newKeyHostNameIdx);
}
}
// Validate foreign keys
{
boolean allNull = true;
if (allNull) {
if (null
== schema
.getTableCluster()
.readDerivedByIdIdx(Authorization, Buff.getRequiredClusterId())) {
throw CFLib.getDefaultExceptionFactory()
.newUnresolvedRelationException(
getClass(), "updateHostNode", "Container", "HostNodeCluster", "Cluster", null);
}
}
}
// Update is valid
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdict;
dictByPKey.remove(pkey);
dictByPKey.put(pkey, Buff);
subdict = dictByClusterIdx.get(existingKeyClusterIdx);
if (subdict != null) {
subdict.remove(pkey);
}
if (dictByClusterIdx.containsKey(newKeyClusterIdx)) {
subdict = dictByClusterIdx.get(newKeyClusterIdx);
} else {
subdict = new HashMap<CFSecurityHostNodePKey, CFSecurityHostNodeBuff>();
dictByClusterIdx.put(newKeyClusterIdx, subdict);
}
subdict.put(pkey, Buff);
dictByUDescrIdx.remove(existingKeyUDescrIdx);
dictByUDescrIdx.put(newKeyUDescrIdx, Buff);
dictByHostNameIdx.remove(existingKeyHostNameIdx);
dictByHostNameIdx.put(newKeyHostNameIdx, Buff);
}
public void createHostNode(CFSecurityAuthorization Authorization, CFSecurityHostNodeBuff Buff) {
final String S_ProcName = "createHostNode";
CFSecurityHostNodePKey pkey = schema.getFactoryHostNode().newPKey();
pkey.setRequiredClusterId(Buff.getRequiredClusterId());
pkey.setRequiredHostNodeId(
((CFAccRamClusterTable) schema.getTableCluster())
.nextHostNodeIdGen(Authorization, Buff.getRequiredClusterId()));
Buff.setRequiredClusterId(pkey.getRequiredClusterId());
Buff.setRequiredHostNodeId(pkey.getRequiredHostNodeId());
CFSecurityHostNodeByClusterIdxKey keyClusterIdx =
schema.getFactoryHostNode().newClusterIdxKey();
keyClusterIdx.setRequiredClusterId(Buff.getRequiredClusterId());
CFSecurityHostNodeByUDescrIdxKey keyUDescrIdx = schema.getFactoryHostNode().newUDescrIdxKey();
keyUDescrIdx.setRequiredClusterId(Buff.getRequiredClusterId());
keyUDescrIdx.setRequiredDescription(Buff.getRequiredDescription());
CFSecurityHostNodeByHostNameIdxKey keyHostNameIdx =
schema.getFactoryHostNode().newHostNameIdxKey();
keyHostNameIdx.setRequiredClusterId(Buff.getRequiredClusterId());
keyHostNameIdx.setRequiredHostName(Buff.getRequiredHostName());
// Validate unique indexes
if (dictByPKey.containsKey(pkey)) {
throw CFLib.getDefaultExceptionFactory()
.newPrimaryKeyNotNewException(getClass(), S_ProcName, pkey);
}
if (dictByUDescrIdx.containsKey(keyUDescrIdx)) {
throw CFLib.getDefaultExceptionFactory()
.newUniqueIndexViolationException(
getClass(), S_ProcName, "HostNodeUDescrIdx", keyUDescrIdx);
}
if (dictByHostNameIdx.containsKey(keyHostNameIdx)) {
throw CFLib.getDefaultExceptionFactory()
.newUniqueIndexViolationException(
getClass(), S_ProcName, "HostNodeUHostNameIdx", keyHostNameIdx);
}
// Validate foreign keys
{
boolean allNull = true;
allNull = false;
if (!allNull) {
if (null
== schema
.getTableCluster()
.readDerivedByIdIdx(Authorization, Buff.getRequiredClusterId())) {
throw CFLib.getDefaultExceptionFactory()
.newUnresolvedRelationException(
getClass(), S_ProcName, "Container", "HostNodeCluster", "Cluster", null);
}
}
}
// Proceed with adding the new record
dictByPKey.put(pkey, Buff);
Map<CFSecurityHostNodePKey, CFSecurityHostNodeBuff> subdictClusterIdx;
if (dictByClusterIdx.containsKey(keyClusterIdx)) {
subdictClusterIdx = dictByClusterIdx.get(keyClusterIdx);
} else {
subdictClusterIdx = new HashMap<CFSecurityHostNodePKey, CFSecurityHostNodeBuff>();
dictByClusterIdx.put(keyClusterIdx, subdictClusterIdx);
}
subdictClusterIdx.put(pkey, Buff);
dictByUDescrIdx.put(keyUDescrIdx, Buff);
dictByHostNameIdx.put(keyHostNameIdx, Buff);
}
public ICFCrmMemoObj realizeMemo(ICFCrmMemoObj Obj) {
ICFCrmMemoObj obj = Obj;
CFCrmMemoPKey pkey = obj.getPKey();
ICFCrmMemoObj keepObj = null;
if (members.containsKey(pkey) && (null != members.get(pkey))) {
ICFCrmMemoObj existingObj = members.get(pkey);
keepObj = existingObj;
/*
* We always rebind the data because if we're being called, some index has
* been updated and is refreshing it's data, which may or may not have changed
*/
// Detach object from alternate and duplicate indexes, leave PKey alone
if (indexByTenantIdx != null) {
CFCrmMemoByTenantIdxKey keyTenantIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newTenantIdxKey();
keyTenantIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapTenantIdx = indexByTenantIdx.get(keyTenantIdx);
if (mapTenantIdx != null) {
mapTenantIdx.remove(keepObj.getPKey());
}
}
if (indexByMemoContactIdx != null) {
CFCrmMemoByMemoContactIdxKey keyMemoContactIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
keyMemoContactIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyMemoContactIdx.setRequiredContactId(keepObj.getRequiredContactId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapMemoContactIdx =
indexByMemoContactIdx.get(keyMemoContactIdx);
if (mapMemoContactIdx != null) {
mapMemoContactIdx.remove(keepObj.getPKey());
}
}
if (indexByUDescrIdx != null) {
CFCrmMemoByUDescrIdxKey keyUDescrIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
keyUDescrIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyUDescrIdx.setRequiredContactId(keepObj.getRequiredContactId());
keyUDescrIdx.setRequiredDescription(keepObj.getRequiredDescription());
indexByUDescrIdx.remove(keyUDescrIdx);
}
keepObj.setBuff(Obj.getBuff());
// Attach new object to alternate and duplicate indexes -- PKey stay stable
if (indexByTenantIdx != null) {
CFCrmMemoByTenantIdxKey keyTenantIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newTenantIdxKey();
keyTenantIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapTenantIdx = indexByTenantIdx.get(keyTenantIdx);
if (mapTenantIdx != null) {
mapTenantIdx.put(keepObj.getPKey(), keepObj);
}
}
if (indexByMemoContactIdx != null) {
CFCrmMemoByMemoContactIdxKey keyMemoContactIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
keyMemoContactIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyMemoContactIdx.setRequiredContactId(keepObj.getRequiredContactId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapMemoContactIdx =
indexByMemoContactIdx.get(keyMemoContactIdx);
if (mapMemoContactIdx != null) {
mapMemoContactIdx.put(keepObj.getPKey(), keepObj);
}
}
if (indexByUDescrIdx != null) {
CFCrmMemoByUDescrIdxKey keyUDescrIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
keyUDescrIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyUDescrIdx.setRequiredContactId(keepObj.getRequiredContactId());
keyUDescrIdx.setRequiredDescription(keepObj.getRequiredDescription());
indexByUDescrIdx.put(keyUDescrIdx, keepObj);
}
if (allMemo != null) {
allMemo.put(keepObj.getPKey(), keepObj);
}
} else {
keepObj = obj;
keepObj.setIsNew(false);
// Attach new object to PKey, all, alternate, and duplicate indexes
members.put(keepObj.getPKey(), keepObj);
if (allMemo != null) {
allMemo.put(keepObj.getPKey(), keepObj);
}
if (indexByTenantIdx != null) {
CFCrmMemoByTenantIdxKey keyTenantIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newTenantIdxKey();
keyTenantIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapTenantIdx = indexByTenantIdx.get(keyTenantIdx);
if (mapTenantIdx != null) {
mapTenantIdx.put(keepObj.getPKey(), keepObj);
}
}
if (indexByMemoContactIdx != null) {
CFCrmMemoByMemoContactIdxKey keyMemoContactIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
keyMemoContactIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyMemoContactIdx.setRequiredContactId(keepObj.getRequiredContactId());
Map<CFCrmMemoPKey, ICFCrmMemoObj> mapMemoContactIdx =
indexByMemoContactIdx.get(keyMemoContactIdx);
if (mapMemoContactIdx != null) {
mapMemoContactIdx.put(keepObj.getPKey(), keepObj);
}
}
if (indexByUDescrIdx != null) {
CFCrmMemoByUDescrIdxKey keyUDescrIdx =
((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
keyUDescrIdx.setRequiredTenantId(keepObj.getRequiredTenantId());
keyUDescrIdx.setRequiredContactId(keepObj.getRequiredContactId());
keyUDescrIdx.setRequiredDescription(keepObj.getRequiredDescription());
indexByUDescrIdx.put(keyUDescrIdx, keepObj);
}
}
return (keepObj);
}