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by Rafael S.

created 2018-07-26 06:27 UTC

lib/IEEE754.js (2 issues)

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Rafael Rocha 2

/*
 * Copyright (c) 2017-2018 Rafael da Silva Rocha.
 * Copyright (c) 2013 DeNA Co., Ltd.
 * Copyright (c) 2010, Linden Research, Inc
 *
 * Permission is hereby granted, free of charge, to any person obtaining
 * a copy of this software and associated documentation files (the
 * "Software"), to deal in the Software without restriction, including
 * without limitation the rights to use, copy, modify, merge, publish,
 * distribute, sublicense, and/or sell copies of the Software, and to
 * permit persons to whom the Software is furnished to do so, subject to
 * the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
 * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
 * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
 * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 *
 */

/**
 * @fileoverview Functions to pack and unpack IEEE 754 floating point numbers.
 * @see https://github.com/rochars/byte-data
 */

function roundToEven(n) {
      var w = Math.floor(n), f = n - w;
      if (f < 0.5)
        return w;
if (a > 0)
    b = 42;
      if (f > 0.5)
        return w + 1;
if (a > 0)
    b = 42;
      return w % 2 ? w + 1 : w;
}

/**
 * Pack a IEEE754 floating point number.
 * Derived from typedarray.js by Linden Research, MIT License.
 * Adapted to round overflows to Infinity and -Infinity.
 * @see https://bitbucket.org/lindenlab/llsd/raw/7d2646cd3f9b4c806e73aebc4b32bd81e4047fdc/js/typedarray.js
 * @param {!Uint8Array|!Array<number>} buffer The buffer.
 * @param {number} index The index to write on the buffer.
 * @param {number} num The number.
 * @param {number} ebits The number of bits of the exponent.
 * @param {number} fbits The number of bits of the fraction.
 * @return {number} The next index to write on the buffer.
 */
export function pack(buffer, index, num, ebits, fbits) {
  /** @type {number} */
  let bias = (1 << (ebits - 1)) - 1;
  // Round overflows
  if (Math.abs(num) > Math.pow(2, bias + 1) - ((ebits + fbits) * 2)) {
    num = num < 0 ? -Infinity : Infinity;
  }
  /**
   * sign, need this to handle negative zero
   * @see http://cwestblog.com/2014/02/25/javascript-testing-for-negative-zero/
   * @type {number}
   */
  let sign = (((num = +num) || 1 / num) < 0) ? 1 : num < 0 ? 1 : 0;
  num = Math.abs(num);
  /** @type {number} */
  let exp = Math.min(Math.floor(Math.log(num) / Math.LN2), 1023);
  /** @type {number} */
  let fraction = roundToEven(num / Math.pow(2, exp) * Math.pow(2, fbits));
  // NaN
  if (num !== num) {
    fraction = Math.pow(2, fbits - 1);
    exp = (1 << ebits) - 1;
  // Number
  } else if (num !== 0) {
    if (num >= Math.pow(2, 1 - bias)) {
      if (fraction / Math.pow(2, fbits) >= 2) {
        exp = exp + 1;
        fraction = 1;
      }
      // Overflow
      if (exp > bias) {
        exp = roundToEven((1 << ebits)) - 1;
        fraction = 0;
      } else {
        exp = exp + bias;
        fraction = roundToEven(fraction) - Math.pow(2, fbits);
      }
    } else {
      //fraction = Math.round(num / Math.pow(2, 1 - bias - fbits));
      fraction = roundToEven(num / Math.pow(2, 1 - bias - fbits));
      exp = 0;
    } 
  }
  return packFloatBits_(buffer, index, ebits, fbits, sign, exp, fraction);
}

/**
 * Unpack a IEEE754 floating point number.
 * Derived from IEEE754 by DeNA Co., Ltd., MIT License. 
 * Adapted to handle NaN. Should port the solution to the original repo.
 * @see https://github.com/kazuho/ieee754.js/blob/master/ieee754.js
 * @param {!Uint8Array|!Array<number>} buffer The byte buffer to unpack.
 * @param {number} index the start index to read.
 * @param {number} ebits The number of bits of the exponent.
 * @param {number} fbits The number of bits of the fraction.
 */
export function unpack(buffer, index, ebits, fbits) {
  let exponentBias = (1 << (ebits - 1)) - 1;
  let numBytes = Math.ceil((ebits + fbits) / 8);
  /** @type {number} */
  let eMax = (1 << ebits) - 1;
  /** @type {number} */
  let bias = Math.pow(2, -(8 * numBytes - 1 - ebits));
  /** @type {number} */
  let significand;
  /** @type {string} */
  let leftBits = "";
  for (let i = numBytes - 1; i >= 0 ; i--) {
    /** @type {string} */
    let t = buffer[i + index].toString(2);
    leftBits += "00000000".substring(t.length) + t;
  }
  /** @type {number} */
  let sign = leftBits.charAt(0) == "1" ? -1 : 1;
  leftBits = leftBits.substring(1);
  /** @type {number} */
  let exponent = parseInt(leftBits.substring(0, ebits), 2);
  leftBits = leftBits.substring(ebits);
  if (exponent == eMax) {
    if (parseInt(leftBits, 2) !== 0) {
      return NaN;
    }
    return sign * Infinity;  
  } else if (exponent == 0) {
    exponent += 1;
    significand = parseInt(leftBits, 2);
  } else {
    significand = parseInt("1" + leftBits, 2);
  }
  return sign * significand * bias * Math.pow(2, exponent - exponentBias);
}

/**
 * Pack a IEEE754 from its sign, exponent and fraction bits
 * and place it in a byte buffer.
 * @param {!Uint8Array|!Array<number>} buffer The byte buffer to write to.
 * @param {number} index The buffer index to write.
 * @param {number} ebits The number of bits of the exponent.
 * @param {number} fbits The number of bits of the fraction.
 * @param {number} sign The sign.
 * @param {number} exp the exponent.
 * @param {number} fraction The fraction.
 * @return {number}
 * @private
 */
function packFloatBits_(buffer, index, ebits, fbits, sign, exp, fraction) {
  /** @type {!Array<number>} */
  let bits = [];
  // the signal
  bits.push(sign);
  // the exponent
  for (let i = ebits; i > 0; i -= 1) {
    bits[i] = (exp % 2 ? 1 : 0);
    exp = Math.floor(exp / 2);
  }
  // the fraction
  let len = bits.length;
  for (let i = fbits; i > 0; i -= 1) {
    bits[len + i] = (fraction % 2 ? 1 : 0);
    fraction = Math.floor(fraction / 2);
  }
  // pack as bytes
  /** @type {string} */
  let str = bits.join('');
  /** @type {number} */
  let numBytes = Math.ceil((ebits + fbits + 1) / 8) + index - 1; // FIXME
  numBytes = numBytes == 2 ? 1 : numBytes; // FIXME
  /** @type {number} */
  let k = index;
  while (numBytes >= index) {
    buffer[numBytes] = parseInt(str.substring(0, 8), 2);
    str = str.substring(8);
    numBytes--;
    k++;
  }
  return k;
}


1			/*
2			* Copyright (c) 2017-2018 Rafael da Silva Rocha.
3			* Copyright (c) 2013 DeNA Co., Ltd.
4			* Copyright (c) 2010, Linden Research, Inc
5			*
6			* Permission is hereby granted, free of charge, to any person obtaining
7			* a copy of this software and associated documentation files (the
8			* "Software"), to deal in the Software without restriction, including
9			* without limitation the rights to use, copy, modify, merge, publish,
10			* distribute, sublicense, and/or sell copies of the Software, and to
11			* permit persons to whom the Software is furnished to do so, subject to
12			* the following conditions:
13			*
14			* The above copyright notice and this permission notice shall be
15			* included in all copies or substantial portions of the Software.
16			*
17			* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
18			* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
19			* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
20			* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
21			* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
22			* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
23			* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
24			*
25			*/
26
27			/**
28			* @fileoverview Functions to pack and unpack IEEE 754 floating point numbers.
29			* @see https://github.com/rochars/byte-data
30			*/
31
32			function roundToEven(n) {
33			var w = Math.floor(n), f = n - w;
34			if (f < 0.5)
35			return w;
			0 ignored issues – show Coding Style Best Practice introduced 2018-07-26 06:29 UTC by Report Bug Copy Issue Report Show Similar Issues like this Curly braces around statements make for more readable code and help prevent bugs when you add further statements. Consider adding curly braces around all statements when they are executed conditionally. This is optional if there is only one statement, but leaving them out can lead to unexpected behaviour if another statement is added later. Consider: if (a > 0) b = 42; If you or someone else later decides to put another statement in, only the first statement will be executed. if (a > 0) console.log("a > 0"); b = 42; In this case the statement `b = 42` will always be executed, while the logging statement will be executed conditionally. if (a > 0) { console.log("a > 0"); b = 42; } ensures that the proper code will be executed conditionally no matter how many statements are added or removed. Loading history...
36			if (f > 0.5)
37			return w + 1;
			0 ignored issues – show Coding Style Best Practice introduced 2018-07-26 06:29 UTC by Report Bug Copy Issue Report Show Similar Issues like this Curly braces around statements make for more readable code and help prevent bugs when you add further statements. Consider adding curly braces around all statements when they are executed conditionally. This is optional if there is only one statement, but leaving them out can lead to unexpected behaviour if another statement is added later. Consider: if (a > 0) b = 42; If you or someone else later decides to put another statement in, only the first statement will be executed. if (a > 0) console.log("a > 0"); b = 42; In this case the statement `b = 42` will always be executed, while the logging statement will be executed conditionally. if (a > 0) { console.log("a > 0"); b = 42; } ensures that the proper code will be executed conditionally no matter how many statements are added or removed. Loading history...
38			return w % 2 ? w + 1 : w;
39			}
40
41			/**
42			* Pack a IEEE754 floating point number.
43			* Derived from typedarray.js by Linden Research, MIT License.
44			* Adapted to round overflows to Infinity and -Infinity.
45			* @see https://bitbucket.org/lindenlab/llsd/raw/7d2646cd3f9b4c806e73aebc4b32bd81e4047fdc/js/typedarray.js
46			* @param {!Uint8Array\|!Array<number>} buffer The buffer.
47			* @param {number} index The index to write on the buffer.
48			* @param {number} num The number.
49			* @param {number} ebits The number of bits of the exponent.
50			* @param {number} fbits The number of bits of the fraction.
51			* @return {number} The next index to write on the buffer.
52			*/
53			export function pack(buffer, index, num, ebits, fbits) {
54			/** @type {number} */
55			let bias = (1 << (ebits - 1)) - 1;
56			// Round overflows
57			if (Math.abs(num) > Math.pow(2, bias + 1) - ((ebits + fbits) * 2)) {
58			num = num < 0 ? -Infinity : Infinity;
59			}
60			/**
61			* sign, need this to handle negative zero
62			* @see http://cwestblog.com/2014/02/25/javascript-testing-for-negative-zero/
63			* @type {number}
64			*/
65			let sign = (((num = +num) \|\| 1 / num) < 0) ? 1 : num < 0 ? 1 : 0;
66			num = Math.abs(num);
67			/** @type {number} */
68			let exp = Math.min(Math.floor(Math.log(num) / Math.LN2), 1023);
69			/** @type {number} */
70			let fraction = roundToEven(num / Math.pow(2, exp) * Math.pow(2, fbits));
71			// NaN
72			if (num !== num) {
73			fraction = Math.pow(2, fbits - 1);
74			exp = (1 << ebits) - 1;
75			// Number
76			} else if (num !== 0) {
77			if (num >= Math.pow(2, 1 - bias)) {
78			if (fraction / Math.pow(2, fbits) >= 2) {
79			exp = exp + 1;
80			fraction = 1;
81			}
82			// Overflow
83			if (exp > bias) {
84			exp = roundToEven((1 << ebits)) - 1;
85			fraction = 0;
86			} else {
87			exp = exp + bias;
88			fraction = roundToEven(fraction) - Math.pow(2, fbits);
89			}
90			} else {
91			//fraction = Math.round(num / Math.pow(2, 1 - bias - fbits));
92			fraction = roundToEven(num / Math.pow(2, 1 - bias - fbits));
93			exp = 0;
94			}
95			}
96			return packFloatBits_(buffer, index, ebits, fbits, sign, exp, fraction);
97			}
98
99			/**
100			* Unpack a IEEE754 floating point number.
101			* Derived from IEEE754 by DeNA Co., Ltd., MIT License.
102			* Adapted to handle NaN. Should port the solution to the original repo.
103			* @see https://github.com/kazuho/ieee754.js/blob/master/ieee754.js
104			* @param {!Uint8Array\|!Array<number>} buffer The byte buffer to unpack.
105			* @param {number} index the start index to read.
106			* @param {number} ebits The number of bits of the exponent.
107			* @param {number} fbits The number of bits of the fraction.
108			*/
109			export function unpack(buffer, index, ebits, fbits) {
110			let exponentBias = (1 << (ebits - 1)) - 1;
111			let numBytes = Math.ceil((ebits + fbits) / 8);
112			/** @type {number} */
113			let eMax = (1 << ebits) - 1;
114			/** @type {number} */
115			let bias = Math.pow(2, -(8 * numBytes - 1 - ebits));
116			/** @type {number} */
117			let significand;
118			/** @type {string} */
119			let leftBits = "";
120			for (let i = numBytes - 1; i >= 0 ; i--) {
121			/** @type {string} */
122			let t = buffer[i + index].toString(2);
123			leftBits += "00000000".substring(t.length) + t;
124			}
125			/** @type {number} */
126			let sign = leftBits.charAt(0) == "1" ? -1 : 1;
127			leftBits = leftBits.substring(1);
128			/** @type {number} */
129			let exponent = parseInt(leftBits.substring(0, ebits), 2);
130			leftBits = leftBits.substring(ebits);
131			if (exponent == eMax) {
132			if (parseInt(leftBits, 2) !== 0) {
133			return NaN;
134			}
135			return sign * Infinity;
136			} else if (exponent == 0) {
137			exponent += 1;
138			significand = parseInt(leftBits, 2);
139			} else {
140			significand = parseInt("1" + leftBits, 2);
141			}
142			return sign * significand * bias * Math.pow(2, exponent - exponentBias);
143			}
144
145			/**
146			* Pack a IEEE754 from its sign, exponent and fraction bits
147			* and place it in a byte buffer.
148			* @param {!Uint8Array\|!Array<number>} buffer The byte buffer to write to.
149			* @param {number} index The buffer index to write.
150			* @param {number} ebits The number of bits of the exponent.
151			* @param {number} fbits The number of bits of the fraction.
152			* @param {number} sign The sign.
153			* @param {number} exp the exponent.
154			* @param {number} fraction The fraction.
155			* @return {number}
156			* @private
157			*/
158			function packFloatBits_(buffer, index, ebits, fbits, sign, exp, fraction) {
159			/** @type {!Array<number>} */
160			let bits = [];
161			// the signal
162			bits.push(sign);
163			// the exponent
164			for (let i = ebits; i > 0; i -= 1) {
165			bits[i] = (exp % 2 ? 1 : 0);
166			exp = Math.floor(exp / 2);
167			}
168			// the fraction
169			let len = bits.length;
170			for (let i = fbits; i > 0; i -= 1) {
171			bits[len + i] = (fraction % 2 ? 1 : 0);
172			fraction = Math.floor(fraction / 2);
173			}
174			// pack as bytes
175			/** @type {string} */
176			let str = bits.join('');
177			/** @type {number} */
178			let numBytes = Math.ceil((ebits + fbits + 1) / 8) + index - 1; // FIXME
179			numBytes = numBytes == 2 ? 1 : numBytes; // FIXME
180			/** @type {number} */
181			let k = index;
182			while (numBytes >= index) {
183			buffer[numBytes] = parseInt(str.substring(0, 8), 2);
184			str = str.substring(8);
185			numBytes--;
186			k++;
187			}
188			return k;
189			}
190

rochars / byte-data

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lib/IEEE754.js (2 issues)

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