/**
* Expand the internal storage buffers (capacity) or rehash current keys and values if there are a
* lot of deleted slots.
*/
private void expandAndAdd(final KType pendingKey, final int freeSlot) {
assert this.assigned == this.resizeAt;
// default sentinel value is never in the keys[] array, so never trigger reallocs
assert (!Intrinsics.<KType>isEmpty(pendingKey));
// Try to allocate new buffers first. If we OOM, it'll be now without
// leaving the data structure in an inconsistent state.
final KType[] oldKeys = Intrinsics.<KType[]>cast(this.keys);
allocateBuffers(
HashContainers.nextBufferSize(this.keys.length, this.assigned, this.loadFactor));
// We have succeeded at allocating new data so insert the pending key/value at
// the free slot in the old arrays before rehashing.
this.assigned++;
oldKeys[freeSlot] = pendingKey;
// Variables for adding
final int mask = this.keys.length - 1;
KType key = Intrinsics.<KType>empty();
// adding phase
int slot = -1;
final KType[] keys = Intrinsics.<KType[]>cast(this.keys);
/*! #if ($RH) !*/
final int[] cached = this.hash_cache;
/*! #end !*/
/*! #if ($RH) !*/
KType tmpKey = Intrinsics.<KType>empty();
int tmpAllocated = -1;
int initial_slot = -1;
int dist = -1;
int existing_distance = -1;
/*! #end !*/
// iterate all the old arrays to add in the newly allocated buffers
// It is important to iterate backwards to minimize the conflict chain length !
final int perturb = this.perturbation;
for (int i = oldKeys.length; --i >= 0; ) {
// only consider non-empty slots, of course
if (!Intrinsics.<KType>isEmpty(key = oldKeys[i])) {
slot = REHASH2(key, perturb) & mask;
/*! #if ($RH) !*/
initial_slot = slot;
dist = 0;
/*! #end !*/
// similar to add(), except all inserted keys are known to be unique.
while (is_allocated(slot, keys)) {
/*! #if ($RH) !*/
// re-shuffle keys to minimize variance
existing_distance = probe_distance(slot, cached);
if (dist > existing_distance) {
// swap current (key, value, initial_slot) with slot places
tmpKey = keys[slot];
keys[slot] = key;
key = tmpKey;
tmpAllocated = cached[slot];
cached[slot] = initial_slot;
initial_slot = tmpAllocated;
/*! #if($DEBUG) !*/
// Check invariants
assert cached[slot] == (REHASH(keys[slot]) & mask);
assert initial_slot == (REHASH(key) & mask);
/*! #end !*/
dist = existing_distance;
} // endif
/*! #end !*/
slot = (slot + 1) & mask;
/*! #if ($RH) !*/
dist++;
/*! #end !*/
} // end while
// place it at that position
/*! #if ($RH) !*/
cached[slot] = initial_slot;
/*! #end !*/
keys[slot] = key;
/*! #if ($RH) !*/
/*! #if($DEBUG) !*/
// Check invariants
assert cached[slot] == (REHASH(keys[slot]) & mask);
/*! #end !*/
/*! #end !*/
}
}
}
/** Creates a hash set with the given capacity and load factor. */
public KTypeHashSet(final int initialCapacity, final double loadFactor) {
this.loadFactor = loadFactor;
// take into account of the load factor to guarantee no reallocations before reaching
// initialCapacity.
allocateBuffers(HashContainers.minBufferSize(initialCapacity, loadFactor));
}