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* published by the Free Software Foundation. Oracle designates this
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*
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
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package jdk.nashorn.internal.runtime;
import java.util.Arrays;
Faster implementation of BitSet
/**
* Faster implementation of BitSet
*/
public final class BitVector implements Cloneable {
Number of bits per slot. /** Number of bits per slot. */
private static final int BITSPERSLOT = 64;
Growth quanta when resizing. /** Growth quanta when resizing. */
private static final int SLOTSQUANTA = 4;
Shift for indexing. /** Shift for indexing. */
private static final int BITSHIFT = 6;
Mask for indexing. /** Mask for indexing. */
private static final int BITMASK = BITSPERSLOT - 1;
Bit area. /** Bit area. */
private long[] bits;
Constructor.
/**
* Constructor.
*/
public BitVector() {
this.bits = new long[SLOTSQUANTA];
}
Constructor
Params: - length – initial length in bits
/**
* Constructor
* @param length initial length in bits
*/
public BitVector(final long length) {
final int need = (int)growthNeeded(length);
this.bits = new long[need];
}
Copy constructor
Params: - bits – a bits array from another bit vector
/**
* Copy constructor
* @param bits a bits array from another bit vector
*/
public BitVector(final long[] bits) {
this.bits = bits.clone();
}
Copy another BitVector into this one
Params: - other – the source
/**
* Copy another BitVector into this one
* @param other the source
*/
public void copy(final BitVector other) {
bits = other.bits.clone();
}
Calculate the number of slots need for the specified length of bits.
Params: - length – Number of bits required.
Returns: Number of slots needed.
/**
* Calculate the number of slots need for the specified length of bits.
* @param length Number of bits required.
* @return Number of slots needed.
*/
private static long slotsNeeded(final long length) {
return (length + BITMASK) >> BITSHIFT;
}
Calculate the number of slots need for the specified length of bits
rounded to allocation quanta.
Params: - length – Number of bits required.
Returns: Number of slots needed rounded to allocation quanta.
/**
* Calculate the number of slots need for the specified length of bits
* rounded to allocation quanta.
* @param length Number of bits required.
* @return Number of slots needed rounded to allocation quanta.
*/
private static long growthNeeded(final long length) {
return (slotsNeeded(length) + SLOTSQUANTA - 1) / SLOTSQUANTA * SLOTSQUANTA;
}
Return a slot from bits, zero if slot is beyond length.
Params: - index – Slot index.
Returns: Slot value.
/**
* Return a slot from bits, zero if slot is beyond length.
* @param index Slot index.
* @return Slot value.
*/
private long slot(final int index) {
return 0 <= index && index < bits.length ? bits[index] : 0L;
}
Resize the bit vector to accommodate the new length.
Params: - length – Number of bits required.
/**
* Resize the bit vector to accommodate the new length.
* @param length Number of bits required.
*/
public void resize(final long length) {
final int need = (int)growthNeeded(length);
if (bits.length != need) {
bits = Arrays.copyOf(bits, need);
}
final int shift = (int)(length & BITMASK);
int slot = (int)(length >> BITSHIFT);
if (shift != 0) {
bits[slot] &= (1L << shift) - 1;
slot++;
}
for ( ; slot < bits.length; slot++) {
bits[slot] = 0;
}
}
Set a bit in the bit vector.
Params: - bit – Bit number.
/**
* Set a bit in the bit vector.
* @param bit Bit number.
*/
public void set(final long bit) {
bits[(int)(bit >> BITSHIFT)] |= (1L << (int)(bit & BITMASK));
}
Clear a bit in the bit vector.
Params: - bit – Bit number.
/**
* Clear a bit in the bit vector.
* @param bit Bit number.
*/
public void clear(final long bit) {
bits[(int)(bit >> BITSHIFT)] &= ~(1L << (int)(bit & BITMASK));
}
Toggle a bit in the bit vector.
Params: - bit – Bit number.
/**
* Toggle a bit in the bit vector.
* @param bit Bit number.
*/
public void toggle(final long bit) {
bits[(int)(bit >> BITSHIFT)] ^= (1L << (int)(bit & BITMASK));
}
Sets all bits in the vector up to the length.
Params: - length – max bit where to stop setting bits
/**
* Sets all bits in the vector up to the length.
*
* @param length max bit where to stop setting bits
*/
public void setTo(final long length) {
if (0 < length) {
final int lastWord = (int)(length >> BITSHIFT);
final long lastBits = (1L << (int)(length & BITMASK)) - 1L;
Arrays.fill(bits, 0, lastWord, ~0L);
if (lastBits != 0L) {
bits[lastWord] |= lastBits;
}
}
}
Clears all bits in the vector.
/**
* Clears all bits in the vector.
*/
public void clearAll() {
Arrays.fill(bits, 0L);
}
Test if bit is set in the bit vector.
Params: - bit – Bit number.
Returns: true if bit in question is set
/**
* Test if bit is set in the bit vector.
* @param bit Bit number.
* @return true if bit in question is set
*/
public boolean isSet(final long bit) {
return (bits[(int)(bit >> BITSHIFT)] & (1L << (int)(bit & BITMASK))) != 0;
}
Test if a bit is clear in the bit vector.
Params: - bit – Bit number.
Returns: true if bit in question is clear
/**
* Test if a bit is clear in the bit vector.
* @param bit Bit number.
* @return true if bit in question is clear
*/
public boolean isClear(final long bit) {
return (bits[(int)(bit >> BITSHIFT)] & (1L << (int)(bit & BITMASK))) == 0;
}
Shift bits to the left by shift.
Params: - shift – Amount of shift.
- length – Length of vector after shift.
/**
* Shift bits to the left by shift.
* @param shift Amount of shift.
* @param length Length of vector after shift.
*/
public void shiftLeft(final long shift, final long length) {
if (shift != 0) {
final int leftShift = (int)(shift & BITMASK);
final int rightShift = BITSPERSLOT - leftShift;
final int slotShift = (int)(shift >> BITSHIFT);
final int slotCount = bits.length - slotShift;
int slot, from;
if (leftShift == 0) {
for (slot = 0, from = slotShift; slot < slotCount; slot++, from++) {
bits[slot] = slot(from);
}
} else {
for (slot = 0, from = slotShift; slot < slotCount; slot++) {
bits[slot] = (slot(from) >>> leftShift) | (slot(++from) << rightShift);
}
}
}
resize(length);
}
Shift bits to the right by shift.
Params: - shift – Amount of shift.
- length – Length of vector after shift.
/**
* Shift bits to the right by shift.
* @param shift Amount of shift.
* @param length Length of vector after shift.
*/
public void shiftRight(final long shift, final long length) {
// Make room.
resize(length);
if (shift != 0) {
final int rightShift = (int)(shift & BITMASK);
final int leftShift = BITSPERSLOT - rightShift;
final int slotShift = (int)(shift >> BITSHIFT);
int slot, from;
if (leftShift == 0) {
for (slot = bits.length, from = slot - slotShift; slot >= slotShift;) {
slot--; from--;
bits[slot] = slot(from);
}
} else {
for (slot = bits.length, from = slot - slotShift; slot > 0;) {
slot--; from--;
bits[slot] = (slot(from - 1) >>> leftShift) | (slot(from) << rightShift);
}
}
}
// Mask out surplus.
resize(length);
}
Set a bit range.
Params: - fromIndex – from index (inclusive)
- toIndex – to index (exclusive)
/**
* Set a bit range.
* @param fromIndex from index (inclusive)
* @param toIndex to index (exclusive)
*/
public void setRange(final long fromIndex, final long toIndex) {
if (fromIndex < toIndex) {
final int firstWord = (int)(fromIndex >> BITSHIFT);
final int lastWord = (int)(toIndex - 1 >> BITSHIFT);
final long firstBits = (~0L << fromIndex);
final long lastBits = (~0L >>> -toIndex);
if (firstWord == lastWord) {
bits[firstWord] |= firstBits & lastBits;
} else {
bits[firstWord] |= firstBits;
Arrays.fill(bits, firstWord + 1, lastWord, ~0L);
bits[lastWord] |= lastBits;
}
}
}
}