private void setActiveDevices(TableScanOperator t, CNFFilter filter, Operator o)
throws Exception {
if (t.isSingleDeviceSet()) {
t.addActiveDeviceForParent(t.getSingleDevice(), o);
return;
}
if (t.deviceIsHash()) {
if (filter != null && filter.hashFiltersPartitions(t.getDeviceHash())) {
if (t.allDevices()) {
t.addActiveDeviceForParent((int) (filter.getPartitionHash() % t.getNumDevices()), o);
} else {
t.addActiveDeviceForParent(
t.deviceSet().get((int) (filter.getPartitionHash() % t.getNumDevices())), o);
}
} else {
if (t.allDevices()) {
int i = 0;
while (i < t.getNumDevices()) {
t.addActiveDeviceForParent(i, o);
i++;
}
} else {
for (final int j : t.deviceSet()) {
t.addActiveDeviceForParent(j, o);
}
}
}
} else {
// device range
if (filter != null && filter.rangeFiltersPartitions(t.getDeviceRangeCol())) {
final ArrayList<Filter> f = filter.getRangeFilters();
// handle devices all or devices set
final ArrayList<Integer> devices = t.getDevicesMatchingRangeFilters(f);
t.addActiveDevicesForParent(devices, o);
} else {
if (t.allDevices()) {
int i = 0;
while (i < t.getNumDevices()) {
t.addActiveDeviceForParent(i, o);
i++;
}
} else {
for (final int j : t.deviceSet()) {
t.addActiveDeviceForParent(j, o);
}
}
}
}
}
private ArrayList<Integer> determineHashMapEntries(TableScanOperator t, CNFFilter filter)
throws Exception {
if (t.isSingleNodeGroupSet()) {
final ArrayList<Integer> retval = new ArrayList<Integer>(1);
retval.add(t.getSingleNodeGroup());
return retval;
}
if (t.nodeGroupIsHash()) {
if (filter != null && filter.hashFiltersPartitions(t.getNodeGroupHash())) {
final ArrayList<Integer> retval = new ArrayList<Integer>(1);
retval.add(t.nodeGroupSet().get((int) (filter.getPartitionHash() % t.getNumNodeGroups())));
return retval;
} else {
final ArrayList<Integer> retval = new ArrayList<Integer>(t.getNodeGroupHashMap().size());
for (final int id : t.getNodeGroupHashMap().keySet()) {
retval.add(id);
}
return retval;
}
} else {
// node group range
if (filter != null && filter.rangeFiltersPartitions(t.getNodeGroupRangeCol())) {
final ArrayList<Filter> f = filter.getRangeFilters();
final ArrayList<Integer> devices = t.getNodeGroupsMatchingRangeFilters(f);
return devices;
} else {
final ArrayList<Integer> retval = new ArrayList<Integer>(t.getNodeGroupHashMap().size());
for (final int id : t.getNodeGroupHashMap().keySet()) {
retval.add(id);
}
return retval;
}
}
}
private void setActiveNodes(
TableScanOperator t, CNFFilter filter, Operator o, ArrayList<ArrayList<Integer>> nodeLists)
throws Exception {
if (t.isSingleNodeSet()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
if (t.getSingleNode() == -1) {
t.addActiveNodeForParent(-1, o);
} else {
t.addActiveNodeForParent(nodeList.get(t.getSingleNode()), o);
}
}
return;
}
if (t.nodeIsHash()) {
if (filter != null && filter.hashFiltersPartitions(t.getNodeHash())) {
if (t.allNodes()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
t.addActiveNodeForParent(
nodeList.get((int) (filter.getPartitionHash() % nodeList.size())), o);
}
} else {
for (final ArrayList<Integer> nodeList : nodeLists) {
t.addActiveNodeForParent(
nodeList.get(t.nodeSet().get((int) (filter.getPartitionHash() % t.getNumNodes()))),
o);
}
}
} else {
if (t.allNodes()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
for (final Integer node : nodeList) {
t.addActiveNodeForParent(node, o);
}
}
} else {
for (final int j : t.nodeSet()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
t.addActiveNodeForParent(nodeList.get(j), o);
}
}
}
}
} else {
// node range
if (filter != null && filter.rangeFiltersPartitions(t.getNodeRangeCol())) {
final ArrayList<Filter> f = filter.getRangeFilters();
// handle nodes all or nodes set
final ArrayList<Integer> nodes = t.getNodesMatchingRangeFilters(f);
for (final Integer node : nodes) {
for (final ArrayList<Integer> nodeList : nodeLists) {
t.addActiveNodeForParent(nodeList.get(node), o);
}
}
} else {
if (t.allNodes()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
for (final Integer node : nodeList) {
t.addActiveNodeForParent(node, o);
}
}
} else {
for (final int j : t.nodeSet()) {
for (final ArrayList<Integer> nodeList : nodeLists) {
t.addActiveNodeForParent(nodeList.get(j), o);
}
}
}
}
}
}
