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A Java Optimization Framework
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/**
*
*/
package soot.util;
/*-
* #%L
* Soot - a J*va Optimization Framework
* %%
* Copyright (C) 1997 - 2018 Raja Vallée-Rai and others
* %%
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation, either version 2.1 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Lesser Public License for more details.
*
* You should have received a copy of the GNU General Lesser Public
* License along with this program. If not, see
* .
* #L%
*/
import static java.lang.Long.numberOfTrailingZeros;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
/**
* @author Steven Lambeth
*
*/
class MediumPriorityQueue extends PriorityQueue {
final static int MAX_CAPACITY = Long.SIZE * Long.SIZE;
private final long[] data;
private int size = 0;
private long modCount = 0;
private long lookup = 0;
MediumPriorityQueue(List universe, Map ordinalMap) {
super(universe, ordinalMap);
data = new long[(N + Long.SIZE - 1) >>> 6];
assert N > SmallPriorityQueue.MAX_CAPACITY;
assert N <= MAX_CAPACITY;
}
@Override
void addAll() {
size = N;
Arrays.fill(data, -1);
data[data.length - 1] = -1L >>> -size;
lookup = -1L >>> -data.length;
min = 0;
modCount++;
}
@Override
public void clear() {
size = 0;
Arrays.fill(data, 0);
lookup = 0;
min = Integer.MAX_VALUE;
modCount++;
}
@Override
int nextSetBit(int fromIndex) {
assert fromIndex >= 0;
for (int bb = fromIndex >>> 6; fromIndex < N;) {
// remove everything from t1 that is less than "fromIndex",
long m1 = -1L << fromIndex;
// t1 contains now all active bits
long t1 = data[bb] & m1;
// the expected index m1 in t1 is set (optional test if NOTZ is
// expensive)
if ((t1 & -m1) != 0) {
return fromIndex;
}
// some bits are left in t1, so we can finish
if (t1 != 0) {
return (bb << 6) + numberOfTrailingZeros(t1);
}
// we know the previous block is empty, so we start our lookup on
// the next one
long m0 = -1L << ++bb;
long t0 = lookup & m0;
// find next used block
if ((t0 & -m0) == 0) {
bb = numberOfTrailingZeros(t0);
}
// re-assign new search index
fromIndex = bb << 6;
// next and last round
}
return fromIndex;
}
@Override
boolean add(int ordinal) {
int bucket = ordinal >>> 6;
long prv = data[bucket];
long now = prv | (1L << ordinal);
if (prv == now) {
return false;
}
data[bucket] = now;
lookup |= (1L << bucket);
size++;
modCount++;
min = Math.min(min, ordinal);
return true;
}
@Override
boolean contains(int ordinal) {
assert ordinal >= 0;
assert ordinal < N;
return ((data[ordinal >>> 6] >>> ordinal) & 1L) == 1L;
}
@Override
boolean remove(int index) {
assert index >= 0;
assert index < N;
int bucket = index >>> 6;
long old = data[bucket];
long now = old & ~(1L << index);
if (old == now) {
return false;
}
if (0 == now) {
lookup &= ~(1L << bucket);
}
size--;
modCount++;
data[bucket] = now;
if (min == index) {
min = nextSetBit(min + 1);
}
return true;
}
@Override
public Iterator iterator() {
return new Itr() {
@Override
long getExpected() {
return modCount;
}
};
}
@Override
public int size() {
return size;
}
}
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