simple-squiggle/node_modules/mathjs/lib/cjs/utils/bignumber/bitwise.js

"use strict";

Object.defineProperty(exports, "__esModule", {
  value: true
});
exports.bitAndBigNumber = bitAndBigNumber;
exports.bitNotBigNumber = bitNotBigNumber;
exports.bitOrBigNumber = bitOrBigNumber;
exports.bitXor = bitXor;
exports.bitwise = bitwise;
exports.leftShiftBigNumber = leftShiftBigNumber;
exports.rightArithShiftBigNumber = rightArithShiftBigNumber;

/**
 * Bitwise and for Bignumbers
 *
 * Special Cases:
 *   N &  n =  N
 *   n &  0 =  0
 *   n & -1 =  n
 *   n &  n =  n
 *   I &  I =  I
 *  -I & -I = -I
 *   I & -I =  0
 *   I &  n =  n
 *   I & -n =  I
 *  -I &  n =  0
 *  -I & -n = -I
 *
 * @param {BigNumber} x
 * @param {BigNumber} y
 * @return {BigNumber} Result of `x` & `y`, is fully precise
 * @private
 */
function bitAndBigNumber(x, y) {
  if (x.isFinite() && !x.isInteger() || y.isFinite() && !y.isInteger()) {
    throw new Error('Integers expected in function bitAnd');
  }

  var BigNumber = x.constructor;

  if (x.isNaN() || y.isNaN()) {
    return new BigNumber(NaN);
  }

  if (x.isZero() || y.eq(-1) || x.eq(y)) {
    return x;
  }

  if (y.isZero() || x.eq(-1)) {
    return y;
  }

  if (!x.isFinite() || !y.isFinite()) {
    if (!x.isFinite() && !y.isFinite()) {
      if (x.isNegative() === y.isNegative()) {
        return x;
      }

      return new BigNumber(0);
    }

    if (!x.isFinite()) {
      if (y.isNegative()) {
        return x;
      }

      if (x.isNegative()) {
        return new BigNumber(0);
      }

      return y;
    }

    if (!y.isFinite()) {
      if (x.isNegative()) {
        return y;
      }

      if (y.isNegative()) {
        return new BigNumber(0);
      }

      return x;
    }
  }

  return bitwise(x, y, function (a, b) {
    return a & b;
  });
}
/**
 * Bitwise not
 * @param {BigNumber} x
 * @return {BigNumber} Result of ~`x`, fully precise
 *
 */


function bitNotBigNumber(x) {
  if (x.isFinite() && !x.isInteger()) {
    throw new Error('Integer expected in function bitNot');
  }

  var BigNumber = x.constructor;
  var prevPrec = BigNumber.precision;
  BigNumber.config({
    precision: 1E9
  });
  var result = x.plus(new BigNumber(1));
  result.s = -result.s || null;
  BigNumber.config({
    precision: prevPrec
  });
  return result;
}
/**
 * Bitwise OR for BigNumbers
 *
 * Special Cases:
 *   N |  n =  N
 *   n |  0 =  n
 *   n | -1 = -1
 *   n |  n =  n
 *   I |  I =  I
 *  -I | -I = -I
 *   I | -n = -1
 *   I | -I = -1
 *   I |  n =  I
 *  -I |  n = -I
 *  -I | -n = -n
 *
 * @param {BigNumber} x
 * @param {BigNumber} y
 * @return {BigNumber} Result of `x` | `y`, fully precise
 */


function bitOrBigNumber(x, y) {
  if (x.isFinite() && !x.isInteger() || y.isFinite() && !y.isInteger()) {
    throw new Error('Integers expected in function bitOr');
  }

  var BigNumber = x.constructor;

  if (x.isNaN() || y.isNaN()) {
    return new BigNumber(NaN);
  }

  var negOne = new BigNumber(-1);

  if (x.isZero() || y.eq(negOne) || x.eq(y)) {
    return y;
  }

  if (y.isZero() || x.eq(negOne)) {
    return x;
  }

  if (!x.isFinite() || !y.isFinite()) {
    if (!x.isFinite() && !x.isNegative() && y.isNegative() || x.isNegative() && !y.isNegative() && !y.isFinite()) {
      return negOne;
    }

    if (x.isNegative() && y.isNegative()) {
      return x.isFinite() ? x : y;
    }

    return x.isFinite() ? y : x;
  }

  return bitwise(x, y, function (a, b) {
    return a | b;
  });
}
/**
 * Applies bitwise function to numbers
 * @param {BigNumber} x
 * @param {BigNumber} y
 * @param {function (a, b)} func
 * @return {BigNumber}
 */


function bitwise(x, y, func) {
  var BigNumber = x.constructor;
  var xBits, yBits;
  var xSign = +(x.s < 0);
  var ySign = +(y.s < 0);

  if (xSign) {
    xBits = decCoefficientToBinaryString(bitNotBigNumber(x));

    for (var i = 0; i < xBits.length; ++i) {
      xBits[i] ^= 1;
    }
  } else {
    xBits = decCoefficientToBinaryString(x);
  }

  if (ySign) {
    yBits = decCoefficientToBinaryString(bitNotBigNumber(y));

    for (var _i = 0; _i < yBits.length; ++_i) {
      yBits[_i] ^= 1;
    }
  } else {
    yBits = decCoefficientToBinaryString(y);
  }

  var minBits, maxBits, minSign;

  if (xBits.length <= yBits.length) {
    minBits = xBits;
    maxBits = yBits;
    minSign = xSign;
  } else {
    minBits = yBits;
    maxBits = xBits;
    minSign = ySign;
  }

  var shortLen = minBits.length;
  var longLen = maxBits.length;
  var expFuncVal = func(xSign, ySign) ^ 1;
  var outVal = new BigNumber(expFuncVal ^ 1);
  var twoPower = new BigNumber(1);
  var two = new BigNumber(2);
  var prevPrec = BigNumber.precision;
  BigNumber.config({
    precision: 1E9
  });

  while (shortLen > 0) {
    if (func(minBits[--shortLen], maxBits[--longLen]) === expFuncVal) {
      outVal = outVal.plus(twoPower);
    }

    twoPower = twoPower.times(two);
  }

  while (longLen > 0) {
    if (func(minSign, maxBits[--longLen]) === expFuncVal) {
      outVal = outVal.plus(twoPower);
    }

    twoPower = twoPower.times(two);
  }

  BigNumber.config({
    precision: prevPrec
  });

  if (expFuncVal === 0) {
    outVal.s = -outVal.s;
  }

  return outVal;
}
/* Extracted from decimal.js, and edited to specialize. */


function decCoefficientToBinaryString(x) {
  // Convert to string
  var a = x.d; // array with digits

  var r = a[0] + '';

  for (var i = 1; i < a.length; ++i) {
    var s = a[i] + '';

    for (var z = 7 - s.length; z--;) {
      s = '0' + s;
    }

    r += s;
  }

  var j = r.length;

  while (r.charAt(j) === '0') {
    j--;
  }

  var xe = x.e;
  var str = r.slice(0, j + 1 || 1);
  var strL = str.length;

  if (xe > 0) {
    if (++xe > strL) {
      // Append zeros.
      xe -= strL;

      while (xe--) {
        str += '0';
      }
    } else if (xe < strL) {
      str = str.slice(0, xe) + '.' + str.slice(xe);
    }
  } // Convert from base 10 (decimal) to base 2


  var arr = [0];

  for (var _i2 = 0; _i2 < str.length;) {
    var arrL = arr.length;

    while (arrL--) {
      arr[arrL] *= 10;
    }

    arr[0] += parseInt(str.charAt(_i2++)); // convert to int

    for (var _j = 0; _j < arr.length; ++_j) {
      if (arr[_j] > 1) {
        if (arr[_j + 1] === null || arr[_j + 1] === undefined) {
          arr[_j + 1] = 0;
        }

        arr[_j + 1] += arr[_j] >> 1;
        arr[_j] &= 1;
      }
    }
  }

  return arr.reverse();
}
/**
 * Bitwise XOR for BigNumbers
 *
 * Special Cases:
 *   N ^  n =  N
 *   n ^  0 =  n
 *   n ^  n =  0
 *   n ^ -1 = ~n
 *   I ^  n =  I
 *   I ^ -n = -I
 *   I ^ -I = -1
 *  -I ^  n = -I
 *  -I ^ -n =  I
 *
 * @param {BigNumber} x
 * @param {BigNumber} y
 * @return {BigNumber} Result of `x` ^ `y`, fully precise
 *
 */


function bitXor(x, y) {
  if (x.isFinite() && !x.isInteger() || y.isFinite() && !y.isInteger()) {
    throw new Error('Integers expected in function bitXor');
  }

  var BigNumber = x.constructor;

  if (x.isNaN() || y.isNaN()) {
    return new BigNumber(NaN);
  }

  if (x.isZero()) {
    return y;
  }

  if (y.isZero()) {
    return x;
  }

  if (x.eq(y)) {
    return new BigNumber(0);
  }

  var negOne = new BigNumber(-1);

  if (x.eq(negOne)) {
    return bitNotBigNumber(y);
  }

  if (y.eq(negOne)) {
    return bitNotBigNumber(x);
  }

  if (!x.isFinite() || !y.isFinite()) {
    if (!x.isFinite() && !y.isFinite()) {
      return negOne;
    }

    return new BigNumber(x.isNegative() === y.isNegative() ? Infinity : -Infinity);
  }

  return bitwise(x, y, function (a, b) {
    return a ^ b;
  });
}
/**
 * Bitwise left shift
 *
 * Special Cases:
 *  n << -n = N
 *  n <<  N = N
 *  N <<  n = N
 *  n <<  0 = n
 *  0 <<  n = 0
 *  I <<  I = N
 *  I <<  n = I
 *  n <<  I = I
 *
 * @param {BigNumber} x
 * @param {BigNumber} y
 * @return {BigNumber} Result of `x` << `y`
 *
 */


function leftShiftBigNumber(x, y) {
  if (x.isFinite() && !x.isInteger() || y.isFinite() && !y.isInteger()) {
    throw new Error('Integers expected in function leftShift');
  }

  var BigNumber = x.constructor;

  if (x.isNaN() || y.isNaN() || y.isNegative() && !y.isZero()) {
    return new BigNumber(NaN);
  }

  if (x.isZero() || y.isZero()) {
    return x;
  }

  if (!x.isFinite() && !y.isFinite()) {
    return new BigNumber(NaN);
  } // Math.pow(2, y) is fully precise for y < 55, and fast


  if (y.lt(55)) {
    return x.times(Math.pow(2, y.toNumber()) + '');
  }

  return x.times(new BigNumber(2).pow(y));
}
/*
 * Special Cases:
 *   n >> -n =  N
 *   n >>  N =  N
 *   N >>  n =  N
 *   I >>  I =  N
 *   n >>  0 =  n
 *   I >>  n =  I
 *  -I >>  n = -I
 *  -I >>  I = -I
 *   n >>  I =  I
 *  -n >>  I = -1
 *   0 >>  n =  0
 *
 * @param {BigNumber} value
 * @param {BigNumber} value
 * @return {BigNumber} Result of `x` >> `y`
 *
 */


function rightArithShiftBigNumber(x, y) {
  if (x.isFinite() && !x.isInteger() || y.isFinite() && !y.isInteger()) {
    throw new Error('Integers expected in function rightArithShift');
  }

  var BigNumber = x.constructor;

  if (x.isNaN() || y.isNaN() || y.isNegative() && !y.isZero()) {
    return new BigNumber(NaN);
  }

  if (x.isZero() || y.isZero()) {
    return x;
  }

  if (!y.isFinite()) {
    if (x.isNegative()) {
      return new BigNumber(-1);
    }

    if (!x.isFinite()) {
      return new BigNumber(NaN);
    }

    return new BigNumber(0);
  } // Math.pow(2, y) is fully precise for y < 55, and fast


  if (y.lt(55)) {
    return x.div(Math.pow(2, y.toNumber()) + '').floor();
  }

  return x.div(new BigNumber(2).pow(y)).floor();
}
feat: Proof of concept of simple squiggle 2022-04-15 01:48:30 +00:00			`"use strict";`

			`Object.defineProperty(exports, "__esModule", {`
			`value: true`
			`});`
			`exports.bitAndBigNumber = bitAndBigNumber;`
			`exports.bitNotBigNumber = bitNotBigNumber;`
			`exports.bitOrBigNumber = bitOrBigNumber;`
			`exports.bitXor = bitXor;`
			`exports.bitwise = bitwise;`
			`exports.leftShiftBigNumber = leftShiftBigNumber;`
			`exports.rightArithShiftBigNumber = rightArithShiftBigNumber;`

			`/**`
			`* Bitwise and for Bignumbers`
			`*`
			`* Special Cases:`
			`* N & n = N`
			`* n & 0 = 0`
			`* n & -1 = n`
			`* n & n = n`
			`* I & I = I`
			`* -I & -I = -I`
			`* I & -I = 0`
			`* I & n = n`
			`* I & -n = I`
			`* -I & n = 0`
			`* -I & -n = -I`
			`*`
			`* @param {BigNumber} x`
			`* @param {BigNumber} y`
			* @return {BigNumber} Result of `x` & `y`, is fully precise
			`* @private`
			`*/`
			`function bitAndBigNumber(x, y) {`
			`if (x.isFinite() && !x.isInteger() \|\| y.isFinite() && !y.isInteger()) {`
			`throw new Error('Integers expected in function bitAnd');`
			`}`

			`var BigNumber = x.constructor;`

			`if (x.isNaN() \|\| y.isNaN()) {`
			`return new BigNumber(NaN);`
			`}`

			`if (x.isZero() \|\| y.eq(-1) \|\| x.eq(y)) {`
			`return x;`
			`}`

			`if (y.isZero() \|\| x.eq(-1)) {`
			`return y;`
			`}`

			`if (!x.isFinite() \|\| !y.isFinite()) {`
			`if (!x.isFinite() && !y.isFinite()) {`
			`if (x.isNegative() === y.isNegative()) {`
			`return x;`
			`}`

			`return new BigNumber(0);`
			`}`

			`if (!x.isFinite()) {`
			`if (y.isNegative()) {`
			`return x;`
			`}`

			`if (x.isNegative()) {`
			`return new BigNumber(0);`
			`}`

			`return y;`
			`}`

			`if (!y.isFinite()) {`
			`if (x.isNegative()) {`
			`return y;`
			`}`

			`if (y.isNegative()) {`
			`return new BigNumber(0);`
			`}`

			`return x;`
			`}`
			`}`

			`return bitwise(x, y, function (a, b) {`
			`return a & b;`
			`});`
			`}`
			`/**`
			`* Bitwise not`
			`* @param {BigNumber} x`
			* @return {BigNumber} Result of ~`x`, fully precise
			`*`
			`*/`


			`function bitNotBigNumber(x) {`
			`if (x.isFinite() && !x.isInteger()) {`
			`throw new Error('Integer expected in function bitNot');`
			`}`

			`var BigNumber = x.constructor;`
			`var prevPrec = BigNumber.precision;`
			`BigNumber.config({`
			`precision: 1E9`
			`});`
			`var result = x.plus(new BigNumber(1));`
			`result.s = -result.s \|\| null;`
			`BigNumber.config({`
			`precision: prevPrec`
			`});`
			`return result;`
			`}`
			`/**`
			`* Bitwise OR for BigNumbers`
			`*`
			`* Special Cases:`
			`* N \| n = N`
			`* n \| 0 = n`
			`* n \| -1 = -1`
			`* n \| n = n`
			`* I \| I = I`
			`* -I \| -I = -I`
			`* I \| -n = -1`
			`* I \| -I = -1`
			`* I \| n = I`
			`* -I \| n = -I`
			`* -I \| -n = -n`
			`*`
			`* @param {BigNumber} x`
			`* @param {BigNumber} y`
			* @return {BigNumber} Result of `x` \| `y`, fully precise
			`*/`


			`function bitOrBigNumber(x, y) {`
			`if (x.isFinite() && !x.isInteger() \|\| y.isFinite() && !y.isInteger()) {`
			`throw new Error('Integers expected in function bitOr');`
			`}`

			`var BigNumber = x.constructor;`

			`if (x.isNaN() \|\| y.isNaN()) {`
			`return new BigNumber(NaN);`
			`}`

			`var negOne = new BigNumber(-1);`

			`if (x.isZero() \|\| y.eq(negOne) \|\| x.eq(y)) {`
			`return y;`
			`}`

			`if (y.isZero() \|\| x.eq(negOne)) {`
			`return x;`
			`}`

			`if (!x.isFinite() \|\| !y.isFinite()) {`
			`if (!x.isFinite() && !x.isNegative() && y.isNegative() \|\| x.isNegative() && !y.isNegative() && !y.isFinite()) {`
			`return negOne;`
			`}`

			`if (x.isNegative() && y.isNegative()) {`
			`return x.isFinite() ? x : y;`
			`}`

			`return x.isFinite() ? y : x;`
			`}`

			`return bitwise(x, y, function (a, b) {`
			`return a \| b;`
			`});`
			`}`
			`/**`
			`* Applies bitwise function to numbers`
			`* @param {BigNumber} x`
			`* @param {BigNumber} y`
			`* @param {function (a, b)} func`
			`* @return {BigNumber}`
			`*/`


			`function bitwise(x, y, func) {`
			`var BigNumber = x.constructor;`
			`var xBits, yBits;`
			`var xSign = +(x.s < 0);`
			`var ySign = +(y.s < 0);`

			`if (xSign) {`
			`xBits = decCoefficientToBinaryString(bitNotBigNumber(x));`

			`for (var i = 0; i < xBits.length; ++i) {`
			`xBits[i] ^= 1;`
			`}`
			`} else {`
			`xBits = decCoefficientToBinaryString(x);`
			`}`

			`if (ySign) {`
			`yBits = decCoefficientToBinaryString(bitNotBigNumber(y));`

			`for (var _i = 0; _i < yBits.length; ++_i) {`
			`yBits[_i] ^= 1;`
			`}`
			`} else {`
			`yBits = decCoefficientToBinaryString(y);`
			`}`

			`var minBits, maxBits, minSign;`

			`if (xBits.length <= yBits.length) {`
			`minBits = xBits;`
			`maxBits = yBits;`
			`minSign = xSign;`
			`} else {`
			`minBits = yBits;`
			`maxBits = xBits;`
			`minSign = ySign;`
			`}`

			`var shortLen = minBits.length;`
			`var longLen = maxBits.length;`
			`var expFuncVal = func(xSign, ySign) ^ 1;`
			`var outVal = new BigNumber(expFuncVal ^ 1);`
			`var twoPower = new BigNumber(1);`
			`var two = new BigNumber(2);`
			`var prevPrec = BigNumber.precision;`
			`BigNumber.config({`
			`precision: 1E9`
			`});`

			`while (shortLen > 0) {`
			`if (func(minBits[--shortLen], maxBits[--longLen]) === expFuncVal) {`
			`outVal = outVal.plus(twoPower);`
			`}`

			`twoPower = twoPower.times(two);`
			`}`

			`while (longLen > 0) {`
			`if (func(minSign, maxBits[--longLen]) === expFuncVal) {`
			`outVal = outVal.plus(twoPower);`
			`}`

			`twoPower = twoPower.times(two);`
			`}`

			`BigNumber.config({`
			`precision: prevPrec`
			`});`

			`if (expFuncVal === 0) {`
			`outVal.s = -outVal.s;`
			`}`

			`return outVal;`
			`}`
			`/* Extracted from decimal.js, and edited to specialize. */`


			`function decCoefficientToBinaryString(x) {`
			`// Convert to string`
			`var a = x.d; // array with digits`

			`var r = a[0] + '';`

			`for (var i = 1; i < a.length; ++i) {`
			`var s = a[i] + '';`

			`for (var z = 7 - s.length; z--;) {`
			`s = '0' + s;`
			`}`

			`r += s;`
			`}`

			`var j = r.length;`

			`while (r.charAt(j) === '0') {`
			`j--;`
			`}`

			`var xe = x.e;`
			`var str = r.slice(0, j + 1 \|\| 1);`
			`var strL = str.length;`

			`if (xe > 0) {`
			`if (++xe > strL) {`
			`// Append zeros.`
			`xe -= strL;`

			`while (xe--) {`
			`str += '0';`
			`}`
			`} else if (xe < strL) {`
			`str = str.slice(0, xe) + '.' + str.slice(xe);`
			`}`
			`} // Convert from base 10 (decimal) to base 2`


			`var arr = [0];`

			`for (var _i2 = 0; _i2 < str.length;) {`
			`var arrL = arr.length;`

			`while (arrL--) {`
			`arr[arrL] *= 10;`
			`}`

			`arr[0] += parseInt(str.charAt(_i2++)); // convert to int`

			`for (var _j = 0; _j < arr.length; ++_j) {`
			`if (arr[_j] > 1) {`
			`if (arr[_j + 1] === null \|\| arr[_j + 1] === undefined) {`
			`arr[_j + 1] = 0;`
			`}`

			`arr[_j + 1] += arr[_j] >> 1;`
			`arr[_j] &= 1;`
			`}`
			`}`
			`}`

			`return arr.reverse();`
			`}`
			`/**`
			`* Bitwise XOR for BigNumbers`
			`*`
			`* Special Cases:`
			`* N ^ n = N`
			`* n ^ 0 = n`
			`* n ^ n = 0`
			`* n ^ -1 = ~n`
			`* I ^ n = I`
			`* I ^ -n = -I`
			`* I ^ -I = -1`
			`* -I ^ n = -I`
			`* -I ^ -n = I`
			`*`
			`* @param {BigNumber} x`
			`* @param {BigNumber} y`
			* @return {BigNumber} Result of `x` ^ `y`, fully precise
			`*`
			`*/`


			`function bitXor(x, y) {`
			`if (x.isFinite() && !x.isInteger() \|\| y.isFinite() && !y.isInteger()) {`
			`throw new Error('Integers expected in function bitXor');`
			`}`

			`var BigNumber = x.constructor;`

			`if (x.isNaN() \|\| y.isNaN()) {`
			`return new BigNumber(NaN);`
			`}`

			`if (x.isZero()) {`
			`return y;`
			`}`

			`if (y.isZero()) {`
			`return x;`
			`}`

			`if (x.eq(y)) {`
			`return new BigNumber(0);`
			`}`

			`var negOne = new BigNumber(-1);`

			`if (x.eq(negOne)) {`
			`return bitNotBigNumber(y);`
			`}`

			`if (y.eq(negOne)) {`
			`return bitNotBigNumber(x);`
			`}`

			`if (!x.isFinite() \|\| !y.isFinite()) {`
			`if (!x.isFinite() && !y.isFinite()) {`
			`return negOne;`
			`}`

			`return new BigNumber(x.isNegative() === y.isNegative() ? Infinity : -Infinity);`
			`}`

			`return bitwise(x, y, function (a, b) {`
			`return a ^ b;`
			`});`
			`}`
			`/**`
			`* Bitwise left shift`
			`*`
			`* Special Cases:`
			`* n << -n = N`
			`* n << N = N`
			`* N << n = N`
			`* n << 0 = n`
			`* 0 << n = 0`
			`* I << I = N`
			`* I << n = I`
			`* n << I = I`
			`*`
			`* @param {BigNumber} x`
			`* @param {BigNumber} y`
			* @return {BigNumber} Result of `x` << `y`
			`*`
			`*/`


			`function leftShiftBigNumber(x, y) {`
			`if (x.isFinite() && !x.isInteger() \|\| y.isFinite() && !y.isInteger()) {`
			`throw new Error('Integers expected in function leftShift');`
			`}`

			`var BigNumber = x.constructor;`

			`if (x.isNaN() \|\| y.isNaN() \|\| y.isNegative() && !y.isZero()) {`
			`return new BigNumber(NaN);`
			`}`

			`if (x.isZero() \|\| y.isZero()) {`
			`return x;`
			`}`

			`if (!x.isFinite() && !y.isFinite()) {`
			`return new BigNumber(NaN);`
			`} // Math.pow(2, y) is fully precise for y < 55, and fast`


			`if (y.lt(55)) {`
			`return x.times(Math.pow(2, y.toNumber()) + '');`
			`}`

			`return x.times(new BigNumber(2).pow(y));`
			`}`
			`/*`
			`* Special Cases:`
			`* n >> -n = N`
			`* n >> N = N`
			`* N >> n = N`
			`* I >> I = N`
			`* n >> 0 = n`
			`* I >> n = I`
			`* -I >> n = -I`
			`* -I >> I = -I`
			`* n >> I = I`
			`* -n >> I = -1`
			`* 0 >> n = 0`
			`*`
			`* @param {BigNumber} value`
			`* @param {BigNumber} value`
			* @return {BigNumber} Result of `x` >> `y`
			`*`
			`*/`


			`function rightArithShiftBigNumber(x, y) {`
			`if (x.isFinite() && !x.isInteger() \|\| y.isFinite() && !y.isInteger()) {`
			`throw new Error('Integers expected in function rightArithShift');`
			`}`

			`var BigNumber = x.constructor;`

			`if (x.isNaN() \|\| y.isNaN() \|\| y.isNegative() && !y.isZero()) {`
			`return new BigNumber(NaN);`
			`}`

			`if (x.isZero() \|\| y.isZero()) {`
			`return x;`
			`}`

			`if (!y.isFinite()) {`
			`if (x.isNegative()) {`
			`return new BigNumber(-1);`
			`}`

			`if (!x.isFinite()) {`
			`return new BigNumber(NaN);`
			`}`

			`return new BigNumber(0);`
			`} // Math.pow(2, y) is fully precise for y < 55, and fast`


			`if (y.lt(55)) {`
			`return x.div(Math.pow(2, y.toNumber()) + '').floor();`
			`}`

			`return x.div(new BigNumber(2).pow(y)).floor();`
			`}`