singrdk/base/Applications/Runtime/Full/System/Collections/BitArray.cs

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// ==++==
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// ==--==
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//=============================================================================
//
// Class: BitArray
//
// Purpose: The BitArray class manages a compact array of bit values.
//
//=============================================================================
namespace System.Collections
{
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// @Consider: is _ShrinkThreshold (256) ints the correct threshold for shrinking?
using System;
using System.Diagnostics;
// A vector of bits. Use this to store bits efficiently, without having to do bit
// shifting yourself.
//| <include path='docs/doc[@for="BitArray"]/*' />
public sealed class BitArray : ICollection, ICloneable {
private BitArray() {
}
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//=========================================================================
// Allocates space to hold length bit values. All of the values in the bit
// array are set to false.
//
// Exceptions: ArgumentException if length < 0.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.BitArray"]/*' />
public BitArray(int length)
: this(length, false) {
}
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//=========================================================================
// Allocates space to hold length bit values. All of the values in the bit
// array are set to defaultValue.
//
// Exceptions: ArgumentOutOfRangeException if length < 0.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.BitArray1"]/*' />
public BitArray(int length, bool defaultValue) {
if (length < 0) {
throw new ArgumentOutOfRangeException("ArgumentOutOfRange_NeedNonNegNum");
}
m_array = new int[(length + 31) / 32];
m_length = length;
int fillValue = defaultValue ? unchecked(((int)0xffffffff)) : 0;
for (int i = 0; i < m_array.Length; i++) {
m_array[i] = fillValue;
}
_version = 0;
}
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//=========================================================================
// Allocates space to hold the bit values in bytes. bytes[0] represents
// bits 0 - 7, bytes[1] represents bits 8 - 15, etc. The LSB of each byte
// represents the lowest index value; bytes[0] & 1 represents bit 0,
// bytes[0] & 2 represents bit 1, bytes[0] & 4 represents bit 2, etc.
//
// Exceptions: ArgumentException if bytes == null.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.BitArray2"]/*' />
public BitArray(byte[] bytes) {
if (bytes == null) {
throw new ArgumentNullException("bytes");
}
m_array = new int[(bytes.Length + 3) / 4];
m_length = bytes.Length * 8;
int i = 0;
int j = 0;
while (bytes.Length - j >= 4) {
m_array[i++] = (bytes[j] & 0xff) |
((bytes[j + 1] & 0xff) << 8) |
((bytes[j + 2] & 0xff) << 16) |
((bytes[j + 3] & 0xff) << 24);
j += 4;
}
Debug.Assert(bytes.Length - j >= 0, "BitArray byteLength problem");
Debug.Assert(bytes.Length - j < 4, "BitArray byteLength problem #2");
switch (bytes.Length - j) {
case 3:
m_array[i] = ((bytes[j + 2] & 0xff) << 16);
goto case 2;
// fall through
case 2:
m_array[i] |= ((bytes[j + 1] & 0xff) << 8);
goto case 1;
// fall through
case 1:
m_array[i] |= (bytes[j] & 0xff);
break;
}
_version = 0;
}
//| <include path='docs/doc[@for="BitArray.BitArray3"]/*' />
public BitArray(bool[] values) {
if (values == null) {
throw new ArgumentNullException("values");
}
m_array = new int[(values.Length + 31) / 32];
m_length = values.Length;
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for (int i = 0; i < values.Length; i++) {
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if (values[i])
m_array[i/32] |= (1 << (i%32));
}
_version = 0;
}
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//=========================================================================
// Allocates space to hold the bit values in values. values[0] represents
// bits 0 - 31, values[1] represents bits 32 - 63, etc. The LSB of each
// integer represents the lowest index value; values[0] & 1 represents bit
// 0, values[0] & 2 represents bit 1, values[0] & 4 represents bit 2, etc.
//
// Exceptions: ArgumentException if values == null.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.BitArray4"]/*' />
public BitArray(int[] values) {
if (values == null) {
throw new ArgumentNullException("values");
}
m_array = new int[values.Length];
m_length = values.Length * 32;
Array.Copy(values, m_array, values.Length);
_version = 0;
}
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//=========================================================================
// Allocates a new BitArray with the same length and bit values as bits.
//
// Exceptions: ArgumentException if bits == null.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.BitArray5"]/*' />
public BitArray(BitArray bits) {
if (bits == null) {
throw new ArgumentNullException("bits");
}
m_array = new int[(bits.m_length + 31) / 32];
m_length = bits.m_length;
Array.Copy(bits.m_array, m_array, (bits.m_length + 31) / 32);
_version = bits._version;
}
//| <include path='docs/doc[@for="BitArray.this"]/*' />
public bool this[int index] {
get {
return Get(index);
}
set {
Set(index,value);
}
}
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//=========================================================================
// Returns the bit value at position index.
//
// Exceptions: ArgumentOutOfRangeException if index < 0 or
// index >= GetLength().
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.Get"]/*' />
public bool Get(int index) {
if (index < 0 || index >= m_length) {
throw new ArgumentOutOfRangeException("index", "ArgumentOutOfRange_Index");
}
return (m_array[index / 32] & (1 << (index % 32))) != 0;
}
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//=========================================================================
// Sets the bit value at position index to value.
//
// Exceptions: ArgumentOutOfRangeException if index < 0 or
// index >= GetLength().
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.Set"]/*' />
public void Set(int index, bool value) {
if (index < 0 || index >= m_length) {
throw new ArgumentOutOfRangeException("index", "ArgumentOutOfRange_Index");
}
if (value) {
m_array[index / 32] |= (1 << (index % 32));
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}
else {
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m_array[index / 32] &= ~(1 << (index % 32));
}
_version++;
}
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//=========================================================================
// Sets all the bit values to value.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.SetAll"]/*' />
public void SetAll(bool value) {
int fillValue = value ? unchecked(((int)0xffffffff)) : 0;
int ints = (m_length + 31) / 32;
for (int i = 0; i < ints; i++) {
m_array[i] = fillValue;
}
_version++;
}
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//=========================================================================
// Returns a reference to the current instance ANDed with value.
//
// Exceptions: ArgumentException if value == null or
// value.Length != this.Length.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.And"]/*' />
public BitArray And(BitArray value) {
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if (value == null)
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throw new ArgumentNullException("value");
if (m_length != value.m_length)
throw new ArgumentException("Arg_ArrayLengthsDiffer");
int ints = (m_length + 31) / 32;
for (int i = 0; i < ints; i++) {
m_array[i] &= value.m_array[i];
}
_version++;
return this;
}
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//=========================================================================
// Returns a reference to the current instance ORed with value.
//
// Exceptions: ArgumentException if value == null or
// value.Length != this.Length.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.Or"]/*' />
public BitArray Or(BitArray value) {
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if (value == null)
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throw new ArgumentNullException("value");
if (m_length != value.m_length)
throw new ArgumentException("Arg_ArrayLengthsDiffer");
int ints = (m_length + 31) / 32;
for (int i = 0; i < ints; i++) {
m_array[i] |= value.m_array[i];
}
_version++;
return this;
}
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//=========================================================================
// Returns a reference to the current instance XORed with value.
//
// Exceptions: ArgumentException if value == null or
// value.Length != this.Length.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.Xor"]/*' />
public BitArray Xor(BitArray value) {
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if (value == null)
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throw new ArgumentNullException("value");
if (m_length != value.m_length)
throw new ArgumentException("Arg_ArrayLengthsDiffer");
int ints = (m_length + 31) / 32;
for (int i = 0; i < ints; i++) {
m_array[i] ^= value.m_array[i];
}
_version++;
return this;
}
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//=========================================================================
// Inverts all the bit values. On/true bit values are converted to
// off/false. Off/false bit values are turned on/true. The current instance
// is updated and returned.
//=========================================================================
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//| <include path='docs/doc[@for="BitArray.Not"]/*' />
public BitArray Not() {
int ints = (m_length + 31) / 32;
for (int i = 0; i < ints; i++) {
m_array[i] = ~m_array[i];
}
_version++;
return this;
}
//| <include path='docs/doc[@for="BitArray.Length"]/*' />
public int Length {
get { return m_length; }
set {
if (value < 0) {
throw new ArgumentOutOfRangeException("ArgumentOutOfRange_NeedNonNegNum");
}
int newints = (value + 31) / 32;
if (newints > m_array.Length || newints + _ShrinkThreshold < m_array.Length) {
// grow or shrink (if wasting more than _ShrinkThreshold ints)
int[] newarray = new int[newints];
Array.Copy(m_array, newarray, newints > m_array.Length ? m_array.Length : newints);
m_array = newarray;
}
if (value > m_length) {
// clear high bit values in the last int
int last = ((m_length + 31) / 32) - 1;
int bits = m_length % 32;
if (bits > 0) {
m_array[last] &= (1 << bits) - 1;
}
// clear remaining int values
Array.Clear(m_array, last + 1, newints - last - 1);
}
m_length = value;
_version++;
}
}
// ICollection implementation
//| <include path='docs/doc[@for="BitArray.CopyTo"]/*' />
public void CopyTo(Array array, int index)
{
if (array == null)
throw new ArgumentNullException("array");
if (index < 0)
throw new ArgumentOutOfRangeException("ArgumentOutOfRange_NeedNonNegNum");
if (array.Rank != 1)
throw new ArgumentException("Arg_RankMultiDimNotSupported");
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if (array is int[]) {
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Array.Copy(m_array, 0, array, index, (m_length + 31) / 32);
}
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else if (array is byte[]) {
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if ((array.Length - index) < (m_length + 7)/8)
throw new ArgumentException("Argument_InvalidOffLen");
byte [] b = (byte[])array;
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for (int i = 0; i <(m_length + 7)/8; i++)
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b[index + i] = (byte)((m_array[i/4] >> ((i%4)*8)) & 0x000000FF); // Shift to bring the required byte to LSB, then mask
}
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else if (array is bool[]) {
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if (array.Length - index < m_length)
throw new ArgumentException("Argument_InvalidOffLen");
bool [] b = (bool[])array;
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for (int i = 0; i < m_length; i++)
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b[index + i] = ((m_array[i/32] >> (i%32)) & 0x00000001) != 0;
}
else
throw new ArgumentException("Arg_BitArrayTypeUnsupported");
}
//| <include path='docs/doc[@for="BitArray.Count"]/*' />
public int Count
{
get
{
return m_length;
}
}
//| <include path='docs/doc[@for="BitArray.Clone"]/*' />
public Object Clone()
{
BitArray bitArray = new BitArray(m_array);
bitArray._version = _version;
bitArray.m_length = m_length;
return bitArray;
}
//| <include path='docs/doc[@for="BitArray.SyncRoot"]/*' />
public Object SyncRoot
{
get
{
return this;
}
}
//| <include path='docs/doc[@for="BitArray.IsReadOnly"]/*' />
public bool IsReadOnly
{
get
{
return false;
}
}
//| <include path='docs/doc[@for="BitArray.IsSynchronized"]/*' />
public bool IsSynchronized
{
get
{
return false;
}
}
//| <include path='docs/doc[@for="BitArray.GetEnumerator"]/*' />
public IEnumerator GetEnumerator()
{
return new BitArrayEnumeratorSimple(this);
}
// For a straightforward enumeration of the entire ArrayList,
// this is faster, because it's smaller. Patrick showed
// this with a benchmark.
private class BitArrayEnumeratorSimple : IEnumerator, ICloneable
{
private BitArray bitarray;
private int index;
private int version;
private bool currentElement;
internal BitArrayEnumeratorSimple(BitArray bitarray) {
this.bitarray = bitarray;
this.index = -1;
version = bitarray._version;
}
public Object Clone() {
return MemberwiseClone();
}
public virtual bool MoveNext() {
if (version != bitarray._version) throw new InvalidOperationException("InvalidOperation_EnumFailedVersion");
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if (index < (bitarray.Count - 1)) {
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index++;
currentElement = bitarray.Get(index);
return true;
}
else
index = bitarray.Count;
return false;
}
public virtual Object Current {
get {
if (index == -1)
throw new InvalidOperationException("InvalidOperation_EnumNotStarted");
if (index >= bitarray.Count)
throw new InvalidOperationException("InvalidOperation_EnumEnded");
return currentElement;
}
}
public void Reset() {
if (version != bitarray._version) throw new InvalidOperationException("InvalidOperation_EnumFailedVersion");
index = -1;
}
}
private int[] m_array;
private int m_length;
private int _version;
private const int _ShrinkThreshold = 256;
}
}