How do I create bit array in Javascript?

问题

What is the best way of implementing a bit array in JavaScript?

回答1:

Here's one I whipped up:

UPDATE - something about this class had been bothering me all day - it wasn't size based - creating a BitArray with N slots/bits was a two step operation - instantiate, resize. Updated the class to be size based with an optional second paramter for populating the size based instance with either array values or a base 10 numeric value.

(Fiddle with it here)

/* BitArray DataType */

// Constructor
function BitArray(size, bits) {
    // Private field - array for our bits
    this.m_bits = new Array();

    //.ctor - initialize as a copy of an array of true/false or from a numeric value
    if (bits && bits.length) {
        for (var i = 0; i < bits.length; i++)
            this.m_bits.push(bits[i] ? BitArray._ON : BitArray._OFF);
    } else if (!isNaN(bits)) {
        this.m_bits = BitArray.shred(bits).m_bits;

    }
    if (size && this.m_bits.length != size) {
        if (this.m_bits.length < size) {
            for (var i = this.m_bits.length; i < size; i++) {
                this.m_bits.push(BitArray._OFF);
            }
        } else {
            for(var i = size; i > this.m_bits.length; i--){
                this.m_bits.pop();
            }
        }
    }
}

/* BitArray PUBLIC INSTANCE METHODS */

// read-only property - number of bits 
BitArray.prototype.getLength = function () { return this.m_bits.length; };

// accessor - get bit at index 
BitArray.prototype.getAt = function (index) {
    if (index < this.m_bits.length) {
        return this.m_bits[index];
    }
    return null;
};
// accessor - set bit at index 
BitArray.prototype.setAt = function (index, value) {
    if (index < this.m_bits.length) {
        this.m_bits[index] = value ? BitArray._ON : BitArray._OFF;
    }
};

// resize the bit array (append new false/0 indexes) 
BitArray.prototype.resize = function (newSize) {
    var tmp = new Array();
    for (var i = 0; i < newSize; i++) {
        if (i < this.m_bits.length) {
            tmp.push(this.m_bits[i]);
        } else {
            tmp.push(BitArray._OFF);
        }
    }
    this.m_bits = tmp;
};

// Get the complimentary bit array (i.e., 01 compliments 10)
BitArray.prototype.getCompliment = function () {
    var result = new BitArray(this.m_bits.length);
    for (var i = 0; i < this.m_bits.length; i++) {
        result.setAt(i, this.m_bits[i] ? BitArray._OFF : BitArray._ON);
    }
    return result;
};

// Get the string representation ("101010") 
BitArray.prototype.toString = function () {
    var s = new String();
    for (var i = 0; i < this.m_bits.length; i++) {
        s = s.concat(this.m_bits[i] === BitArray._ON ? "1" : "0");
    }
    return s;
};

// Get the numeric value 
BitArray.prototype.toNumber = function () {
    var pow = 0;
    var n = 0;
    for (var i = this.m_bits.length - 1; i >= 0; i--) {
        if (this.m_bits[i] === BitArray._ON) {
            n += Math.pow(2, pow);
        }
        pow++;
    }
    return n;
};

/* STATIC METHODS */

// Get the union of two bit arrays
BitArray.getUnion = function (bitArray1, bitArray2) {
    var len = BitArray._getLen(bitArray1, bitArray2, true);
    var result = new BitArray(len);
    for (var i = 0; i < len; i++) {
        result.setAt(i, BitArray._union(bitArray1.getAt(i), bitArray2.getAt(i)));
    }
    return result;
};

// Get the intersection of two bit arrays 
BitArray.getIntersection = function (bitArray1, bitArray2) {
    var len = BitArray._getLen(bitArray1, bitArray2, true);
    var result = new BitArray(len);
    for (var i = 0; i < len; i++) {
        result.setAt(i, BitArray._intersect(bitArray1.getAt(i), bitArray2.getAt(i)));
    }
    return result;
};

// Get the difference between to bit arrays
BitArray.getDifference = function (bitArray1, bitArray2) {
    var len = BitArray._getLen(bitArray1, bitArray2, true);
    var result = new BitArray(len);
    for (var i = 0; i < len; i++) {
        result.setAt(i, BitArray._difference(bitArray1.getAt(i), bitArray2.getAt(i)));
    }
    return result;
};

// Convert a number into a bit array
BitArray.shred = function (number) {
    var bits = new Array();
    var q = number;
    do {
        bits.push(q % 2);
        q = Math.floor(q / 2);
    } while (q > 0);
    return new BitArray(bits.length, bits.reverse());
};

/* BitArray PRIVATE STATIC CONSTANTS */
BitArray._ON = 1;
BitArray._OFF = 0;

/* BitArray PRIVATE STATIC METHODS */

// Calculate the intersection of two bits 
BitArray._intersect = function (bit1, bit2) {
    return bit1 === BitArray._ON && bit2 === BitArray._ON ? BitArray._ON : BitArray._OFF;
};

// Calculate the union of two bits 
BitArray._union = function (bit1, bit2) {
    return bit1 === BitArray._ON || bit2 === BitArray._ON ? BitArray._ON : BitArray._OFF;
};

// Calculate the difference of two bits 
BitArray._difference = function (bit1, bit2) {
    return bit1 === BitArray._ON && bit2 !== BitArray._ON ? BitArray._ON : BitArray._OFF;
};

// Get the longest or shortest (smallest) length of the two bit arrays 
BitArray._getLen = function (bitArray1, bitArray2, smallest) {
    var l1 = bitArray1.getLength();
    var l2 = bitArray2.getLength();

    return l1 > l2 ? smallest ? l2 : l1 : smallest ? l2 : l1;
};

CREDIT TO @Daniel Baulig for asking for the refactor from quick and dirty to prototype based.

回答2:

I don't know about bit arrays, but you can make byte arrays easy with new features.

Look up typed arrays. I've used these in both Chrome and Firefox. The important one is Uint8Array.

To make an array of 512 uninitialized bytes:

var arr = new UintArray(512);

And accessing it (the sixth byte):

var byte = arr[5];

For node.js, use Buffer (server-side).

EDIT:

To access individual bits, use bit masks.

To get the bit in the one's position, do num & 0x1

回答3:

The Stanford Javascript Crypto Library (SJCL) provides a Bit Array implementation and can convert different inputs (Hex Strings, Byte Arrays, etc.) to Bit Arrays.

Their code is public on GitHub: bitwiseshiftleft/sjcl. So if you lookup bitArray.js, you can find their bit array implementation.

A conversion from bytes to bits can be found here.

回答4:

Something like this is as close as I can think of. Saves bit arrays as 32 bit numbers, and has a standard array backing it to handle larger sets.

class bitArray {
  constructor(length) {
    this.backingArray = Array.from({length: Math.ceil(length/32)}, ()=>0)
    this.length = length
  }
  get(n) {
    return (this.backingArray[n/32|0] & 1 << n % 32) > 0
  }
  on(n) {
    this.backingArray[n/32|0] |= 1 << n % 32
  }
  off(n) {
    this.backingArray[n/32|0] &= ~(1 << n % 32)
  }
  toggle(n) {
    this.backingArray[n/32|0] ^= 1 << n % 32
  }
  forEach(callback) {
    this.backingArray.forEach((number, container)=>{
      const max = container == this.backingArray.length-1 ? this.length%32 : 32
      for(let x=0; x<max; x++) {
        callback((number & 1<<x)>0, 32*container+x)
      }
    })
  }
}
let bits = new bitArray(10)
bits.get(2) //false
bits.on(2)
bits.get(2) //true

bits.forEach(console.log) 
/* outputs:
false
false
true
false
false
false
false
false
false
false
*/

bits.toggle(2)

bits.forEach(console.log) 
/* outputs:
false
false
false
false
false
false
false
false
false
false
*/

bits.toggle(0)
bits.toggle(1)
bits.toggle(2)

bits.off(2)
bits.off(3)
bits.forEach(console.log) 
/* outputs:
true
true
false
false
false
false
false
false
false
false
*/

回答5:

Probably [definitely] not the most efficient way to do this, but a string of zeros and ones can be parsed as a number as a base 2 number and converted into a hexadecimal number and finally a buffer.

const bufferFromBinaryString = (binaryRepresentation = '01010101') =>
    Buffer.from(
        parseInt(binaryRepresentation, 2).toString(16), 'hex');

Again, not efficient; but I like this approach because of the relative simplicity.

来源：https://stackoverflow.com/questions/6972717/how-do-i-create-bit-array-in-javascript