T_IMPORT ➔ writeInt_ - Code Metrics - Inspection of "Update version to 13.0.0" - rochars/byte-data - Measure and Improve Code Quality continuously with Scrutinizer

Passed

Branch — master (0a65f1)

by Rafael S.

created 2018-06-27 02:57 UTC

T_IMPORT ➔ writeInt_ A

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Complexity

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Paths	1

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Duplication

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Ratio	0 %

Importance

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cc	1
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nop	3
dl	0
loc	1
rs	10
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/*
 * byte-data: Pack and unpack binary data.
 * https://github.com/rochars/byte-data
 *
 * Copyright (c) 2017-2018 Rafael da Silva Rocha.
 *
 * 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 The byte-data API.
 */

/** @module byteData */

import Integer from './lib/integer.js';

import endianness from 'endianness';

import {validateType, validateNotUndefined} from './lib/validation.js';

// Strings
/**
 * Read a string from a byte buffer.
 * @param {!Uint8Array} bytes A byte buffer.
 * @param {number=} index The index to read.
 * @param {?number=} len The number of bytes to read.
 * @return {string}
 */
export function unpackString(bytes, index=0, len=null) {
  let chrs = '';
  len = len || bytes.length - index;
  for(let j = 0; j < len; j++) {
    chrs += String.fromCharCode(bytes[index+j]);
  }
  return chrs;
}

/**
 * Write a string as a byte buffer.
 * @param {string} str The string to pack.
 * @return {!Array<number>} The next index to write on the buffer.
 */
export function packString(str) {
  let bytes = [];
  for (let i = 0; i < str.length; i++) {
    bytes[i] = str.charCodeAt(i);
  }
  return bytes;
}

/**
 * Write a string to a byte buffer.
 * @param {string} str The string to pack.
 * @param {!Uint8Array} bytes A byte buffer.
 * @param {number=} index The index to write in the buffer.
 * @return {number} The next index to write in the buffer.
 */
export function packStringTo(str, bytes, index=0) {
  for (let i = 0; i < str.length; i++) {
    bytes[index] = str.charCodeAt(i);
    index++;
  }
  return index;
}

// Numbers
/**
 * Pack a number as a byte buffer.
 * @param {number} value The number.
 * @param {!Object} theType The type definition.
 * @return {!Array<number>} The packed value.
 * @throws {Error} If the type definition is not valid.
 * @throws {Error} If the value is not valid.
 */
export function pack(value, theType) {
  setUp_(theType);
  return toBytes_([value], theType);
}

/**
 * Pack an array of numbers as a byte buffer.
 * @param {!Array<number>} values The values.
 * @param {!Object} theType The type definition.
 * @return {!Array<number>} The packed values.
 * @throws {Error} If the type definition is not valid.
 * @throws {Error} If any of the values are not valid.
 */
export function packArray(values, theType) {
  setUp_(theType);
  return toBytes_(values, theType);
}

/**
 * Pack a number to a byte buffer.
 * @param {number} value The value.
 * @param {!Object} theType The type definition.
 * @param {!Uint8Array} buffer The output buffer.
 * @param {number=} index The index to write.
 * @return {number} The next index to write.
 * @throws {Error} If the type definition is not valid.
 * @throws {Error} If the value is not valid.
 */
export function packTo(value, theType, buffer, index=0) {
  setUp_(theType);
  return writeBytes_(value,
    theType,
    buffer,
    index,
    index + theType['offset'],
    validateNotUndefined,
    theType['be']);
}

/**
 * Pack a array of numbers to a byte buffer.
 * @param {!Array<number>} values The value.
 * @param {!Object} theType The type definition.
 * @param {!Uint8Array} buffer The output buffer.
 * @param {number=} index The buffer index to write.
 * @return {number} The next index to write.
 * @throws {Error} If the type definition is not valid.
 * @throws {Error} If the value is not valid.
 */
export function packArrayTo(values, theType, buffer, index=0) {
  setUp_(theType);
  let be = theType['be'];
  let offset = theType['offset'];
  for (let i=0; i<values.length; i++) {
    index = writeBytes_(
      values[i],
      theType,
      buffer,
      index,
      index + offset,
      validateNotUndefined,
      be);
  }
  return index;
}

/**
 * Unpack a number from a byte buffer.
 * @param {!Uint8Array} buffer The byte buffer.
 * @param {!Object} theType The type definition.
 * @return {number}
 * @throws {Error} If the type definition is not valid
 */
export function unpack(buffer, theType) {
  setUp_(theType);
  let values = fromBytes_(
    buffer.slice(0, theType['offset']), theType);
  return values[0];
}

/**
 * Unpack an array of numbers from a byte buffer.
 * @param {!Uint8Array} buffer The byte buffer.
 * @param {!Object} theType The type definition.
 * @return {!Array<number>}
 * @throws {Error} If the type definition is not valid.
 */
export function unpackArray(buffer, theType) {
  setUp_(theType);
  return fromBytes_(buffer, theType);
}

/**
 * Unpack a number from a byte buffer by index.
 * @param {!Uint8Array} buffer The byte buffer.
 * @param {!Object} theType The type definition.
 * @param {number=} index The buffer index to read.
 * @return {number}
 * @throws {Error} If the type definition is not valid
 */
export function unpackFrom(buffer, theType, index=0) {
  setUp_(theType);
  if (theType['be']) {
    endianness(buffer, theType['offset'], index, index + theType['offset']);
  }
  let value = reader_(buffer, index);
  if (theType['be']) {
    endianness(buffer, theType['offset'], index, index + theType['offset']);
  }
  return value;
}

/**
 * Unpack a array of numbers from a byte buffer by index.
 * @param {!Uint8Array} buffer The byte buffer.
 * @param {!Object} theType The type definition.
 * @param {number=} start The start index. Assumes 0.
 * @param {?number=} end The end index. Assumes the buffer length.
 * @return {!Array<number>}
 * @throws {Error} If the type definition is not valid
 */
export function unpackArrayFrom(buffer, theType, start=0, end=null) {
  setUp_(theType);
  if (theType['be']) {
    endianness(buffer, theType['offset']);
  }
  let len = end || buffer.length;
  let values = [];
  for (let i=start; i<len; i+=theType['offset']) {
    values.push(reader_(buffer, i));
  }
  if (theType['be']) {
    endianness(buffer, theType['offset']);
  }
  return values;
}

/**
 * @type {!Int8Array}
 * @private
 */
const int8_ = new Int8Array(8);
/**
 * @type {!Uint32Array}
 * @private
 */
const ui32_ = new Uint32Array(int8_.buffer);
/**
 * @type {!Float32Array}
 * @private
 */
const f32_ = new Float32Array(int8_.buffer);
/**
 * @type {!Float64Array}
 * @private
 */
const f64_ = new Float64Array(int8_.buffer);
/**
 * @type {Function}
 * @private
 */
let reader_;
/**
 * @type {Function}
 * @private
 */
let writer_;
/**
 * @type {Object}
 * @private
 */
let gInt_ = {};

/**
 * Turn numbers to bytes.
 * @param {number} value The value to be packed.
 * @param {!Object} theType The type definition.
 * @param {!Uint8Array} buffer The buffer to write the bytes to.
 * @param {number} index The index to start writing.
 * @param {number} len The end index.
 * @param {!Function} validate The function used to validate input.
 * @param {boolean} be True if big-endian.
 * @return {number} the new index to be written.
 * @private
 */
function writeBytes_(value, theType, buffer, index, len, validate, be) {
  while (index < len) {
    validate(value, theType);
    index = writer_(buffer, value, index);
  }
  if (be) {
    endianness(
      buffer, theType['offset'], index - theType['offset'], index);
  }
  return index;
}

/**
 * Turn a byte buffer into what the bytes represent.
 * @param {!Uint8Array} buffer An array of bytes.
 * @param {!Object} theType The type definition.
 * @return {!Array<number>}
 * @private
 */
function fromBytes_(buffer, theType) {
  if (theType['be']) {
    endianness(buffer, theType['offset']);
  }
  let len = buffer.length;
  let values = [];
  len = len - (theType['offset'] - 1);
  for (let i=0; i<len; i+=theType['offset']) {
    values.push(reader_(buffer, i));
  }
  return values;
}

/**
 * Turn numbers to bytes.
 * @param {!Array<number>} values The data.
 * @param {!Object} theType The type definition.
 * @return {!Array<number>} the data as a byte buffer.
 * @private
 */
function toBytes_(values, theType) {
  let j = 0;
  let bytes = [];
  let len = values.length;
  for(let i=0; i < len; i++) {
    validateNotUndefined(values[i]);
    j = writer_(bytes, values[i], j);
  }
  if (theType['be']) {
    endianness(bytes, theType['offset']);
  }
  return bytes;
}

/**
 * Read int values from bytes.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} i The index to read.
 * @return {number}
 * @private
 */
function readInt_(bytes, i) {
  return gInt_.read(bytes, i);
}

/**
 * Read 1 16-bit float from bytes.
 * Thanks https://stackoverflow.com/a/8796597
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} i The index to read.
 * @return {number}
 * @private
 */
function read16F_(bytes, i) {
  let int = gInt_.read(bytes, i);
  let exponent = (int & 0x7C00) >> 10;
  let fraction = int & 0x03FF;
  let floatValue;
  if (exponent) {
    floatValue =  Math.pow(2, exponent - 15) * (1 + fraction / 0x400);
  } else {
    floatValue = 6.103515625e-5 * (fraction / 0x400);
  }
  return floatValue * (int >> 15 ? -1 : 1);
}

/**
 * Read 1 32-bit float from bytes.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} i The index to read.
 * @return {number}
 * @private
 */
function read32F_(bytes, i) {
  ui32_[0] = gInt_.read(bytes, i);
  return f32_[0];
}

/**
 * Read 1 64-bit float from bytes.
 * Thanks https://gist.github.com/kg/2192799
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} i The index to read.
 * @return {number}
 * @private
 */
function read64F_(bytes, i) {
  ui32_[0] = gInt_.read(bytes, i);
  ui32_[1] = gInt_.read(bytes, i + 4);
  return f64_[0];
}

/**
 * Write a integer value to a byte buffer.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} number The number to write as bytes.
 * @param {number} j The index being written in the byte buffer.
 * @return {!number} The next index to write on the byte buffer.
 * @private
 */
function writeInt_(bytes, number, j) {
  return gInt_.write(bytes, number, j);
}

/**
 * Write one 16-bit float as a binary value.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} number The number to write as bytes.
 * @param {number} j The index being written in the byte buffer.
 * @return {number} The next index to write on the byte buffer.
 * @private
 */
function write16F_(bytes, number, j) {
  f32_[0] = number;
  let x = ui32_[0];
  let bits = (x >> 16) & 0x8000;
  let m = (x >> 12) & 0x07ff;
  let e = (x >> 23) & 0xff;
  if (e >= 103) {
    bits |= ((e - 112) << 10) | (m >> 1);
    bits += m & 1;
  }
  bytes[j++] = bits & 0xFF;
  bytes[j++] = bits >>> 8 & 0xFF;
  return j;
}

/**
 * Write one 32-bit float as a binary value.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} number The number to write as bytes.
 * @param {number} j The index being written in the byte buffer.
 * @return {number} The next index to write on the byte buffer.
 * @private
 */
function write32F_(bytes, number, j) {
  f32_[0] = number;
  return gInt_.write(bytes, ui32_[0], j);
}

/**
 * Write one 64-bit float as a binary value.
 * @param {!Uint8Array} bytes An array of bytes.
 * @param {number} number The number to write as bytes.
 * @param {number} j The index being written in the byte buffer.
 * @return {number} The next index to write on the byte buffer.
 * @private
 */
function write64F_(bytes, number, j) {
  f64_[0] = number;
  j = gInt_.write(bytes, ui32_[0], j);
  return gInt_.write(bytes, ui32_[1], j);
}

/**
 * Set the function to unpack the data.
 * @param {!Object} theType The type definition.
 * @private
 */
function setReader(theType) {
  if (theType['float']) {
    if (theType['bits'] == 16) {
      reader_ = read16F_;
    } else if(theType['bits'] == 32) {
      reader_ = read32F_;
    } else if(theType['bits'] == 64) {
      reader_ = read64F_;
    }
  } else {
    reader_ = readInt_;
  }
}

/**
 * Set the function to pack the data.
 * @param {!Object} theType The type definition.
 * @private
 */
function setWriter(theType) {
  if (theType['float']) {
    if (theType['bits'] == 16) {
      writer_ = write16F_;
    } else if(theType['bits'] == 32) {
      writer_ = write32F_;
    } else if(theType['bits'] == 64) {
      writer_ = write64F_;
    }
  } else {
    writer_ = writeInt_;
  }   
}

/**
 * Validate the type and set up the packing/unpacking functions.
 * @param {!Object} theType The type definition.
 * @throws {Error} If the type definition is not valid.
 * @private
 */
function setUp_(theType) {
  validateType(theType);
  theType['offset'] = theType['bits'] < 8 ? 1 : Math.ceil(theType['bits'] / 8);
  setReader(theType);
  setWriter(theType);
  gInt_ = new Integer(
    theType['bits'] == 64 ? 32 : theType['bits'],
    theType['float'] ? false : theType['signed']);
}


1			/*
2			* byte-data: Pack and unpack binary data.
3			* https://github.com/rochars/byte-data
4			*
5			* Copyright (c) 2017-2018 Rafael da Silva Rocha.
6			*
7			* Permission is hereby granted, free of charge, to any person obtaining
8			* a copy of this software and associated documentation files (the
9			* "Software"), to deal in the Software without restriction, including
10			* without limitation the rights to use, copy, modify, merge, publish,
11			* distribute, sublicense, and/or sell copies of the Software, and to
12			* permit persons to whom the Software is furnished to do so, subject to
13			* the following conditions:
14			*
15			* The above copyright notice and this permission notice shall be
16			* included in all copies or substantial portions of the Software.
17			*
18			* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
19			* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
20			* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
21			* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
22			* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
23			* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
24			* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25			*
26			*/
27
28			/**
29			* @fileoverview The byte-data API.
30			*/
31
32			/** @module byteData */
33
34			import Integer from './lib/integer.js';
35
36			import endianness from 'endianness';
37
38			import {validateType, validateNotUndefined} from './lib/validation.js';
39
40			// Strings
41			/**
42			* Read a string from a byte buffer.
43			* @param {!Uint8Array} bytes A byte buffer.
44			* @param {number=} index The index to read.
45			* @param {?number=} len The number of bytes to read.
46			* @return {string}
47			*/
48			export function unpackString(bytes, index=0, len=null) {
49			let chrs = '';
50			len = len \|\| bytes.length - index;
51			for(let j = 0; j < len; j++) {
52			chrs += String.fromCharCode(bytes[index+j]);
53			}
54			return chrs;
55			}
56
57			/**
58			* Write a string as a byte buffer.
59			* @param {string} str The string to pack.
60			* @return {!Array<number>} The next index to write on the buffer.
61			*/
62			export function packString(str) {
63			let bytes = [];
64			for (let i = 0; i < str.length; i++) {
65			bytes[i] = str.charCodeAt(i);
66			}
67			return bytes;
68			}
69
70			/**
71			* Write a string to a byte buffer.
72			* @param {string} str The string to pack.
73			* @param {!Uint8Array} bytes A byte buffer.
74			* @param {number=} index The index to write in the buffer.
75			* @return {number} The next index to write in the buffer.
76			*/
77			export function packStringTo(str, bytes, index=0) {
78			for (let i = 0; i < str.length; i++) {
79			bytes[index] = str.charCodeAt(i);
80			index++;
81			}
82			return index;
83			}
84
85			// Numbers
86			/**
87			* Pack a number as a byte buffer.
88			* @param {number} value The number.
89			* @param {!Object} theType The type definition.
90			* @return {!Array<number>} The packed value.
91			* @throws {Error} If the type definition is not valid.
92			* @throws {Error} If the value is not valid.
93			*/
94			export function pack(value, theType) {
95			setUp_(theType);
96			return toBytes_([value], theType);
97			}
98
99			/**
100			* Pack an array of numbers as a byte buffer.
101			* @param {!Array<number>} values The values.
102			* @param {!Object} theType The type definition.
103			* @return {!Array<number>} The packed values.
104			* @throws {Error} If the type definition is not valid.
105			* @throws {Error} If any of the values are not valid.
106			*/
107			export function packArray(values, theType) {
108			setUp_(theType);
109			return toBytes_(values, theType);
110			}
111
112			/**
113			* Pack a number to a byte buffer.
114			* @param {number} value The value.
115			* @param {!Object} theType The type definition.
116			* @param {!Uint8Array} buffer The output buffer.
117			* @param {number=} index The index to write.
118			* @return {number} The next index to write.
119			* @throws {Error} If the type definition is not valid.
120			* @throws {Error} If the value is not valid.
121			*/
122			export function packTo(value, theType, buffer, index=0) {
123			setUp_(theType);
124			return writeBytes_(value,
125			theType,
126			buffer,
127			index,
128			index + theType['offset'],
129			validateNotUndefined,
130			theType['be']);
131			}
132
133			/**
134			* Pack a array of numbers to a byte buffer.
135			* @param {!Array<number>} values The value.
136			* @param {!Object} theType The type definition.
137			* @param {!Uint8Array} buffer The output buffer.
138			* @param {number=} index The buffer index to write.
139			* @return {number} The next index to write.
140			* @throws {Error} If the type definition is not valid.
141			* @throws {Error} If the value is not valid.
142			*/
143			export function packArrayTo(values, theType, buffer, index=0) {
144			setUp_(theType);
145			let be = theType['be'];
146			let offset = theType['offset'];
147			for (let i=0; i<values.length; i++) {
148			index = writeBytes_(
149			values[i],
150			theType,
151			buffer,
152			index,
153			index + offset,
154			validateNotUndefined,
155			be);
156			}
157			return index;
158			}
159
160			/**
161			* Unpack a number from a byte buffer.
162			* @param {!Uint8Array} buffer The byte buffer.
163			* @param {!Object} theType The type definition.
164			* @return {number}
165			* @throws {Error} If the type definition is not valid
166			*/
167			export function unpack(buffer, theType) {
168			setUp_(theType);
169			let values = fromBytes_(
170			buffer.slice(0, theType['offset']), theType);
171			return values[0];
172			}
173
174			/**
175			* Unpack an array of numbers from a byte buffer.
176			* @param {!Uint8Array} buffer The byte buffer.
177			* @param {!Object} theType The type definition.
178			* @return {!Array<number>}
179			* @throws {Error} If the type definition is not valid.
180			*/
181			export function unpackArray(buffer, theType) {
182			setUp_(theType);
183			return fromBytes_(buffer, theType);
184			}
185
186			/**
187			* Unpack a number from a byte buffer by index.
188			* @param {!Uint8Array} buffer The byte buffer.
189			* @param {!Object} theType The type definition.
190			* @param {number=} index The buffer index to read.
191			* @return {number}
192			* @throws {Error} If the type definition is not valid
193			*/
194			export function unpackFrom(buffer, theType, index=0) {
195			setUp_(theType);
196			if (theType['be']) {
197			endianness(buffer, theType['offset'], index, index + theType['offset']);
198			}
199			let value = reader_(buffer, index);
200			if (theType['be']) {
201			endianness(buffer, theType['offset'], index, index + theType['offset']);
202			}
203			return value;
204			}
205
206			/**
207			* Unpack a array of numbers from a byte buffer by index.
208			* @param {!Uint8Array} buffer The byte buffer.
209			* @param {!Object} theType The type definition.
210			* @param {number=} start The start index. Assumes 0.
211			* @param {?number=} end The end index. Assumes the buffer length.
212			* @return {!Array<number>}
213			* @throws {Error} If the type definition is not valid
214			*/
215			export function unpackArrayFrom(buffer, theType, start=0, end=null) {
216			setUp_(theType);
217			if (theType['be']) {
218			endianness(buffer, theType['offset']);
219			}
220			let len = end \|\| buffer.length;
221			let values = [];
222			for (let i=start; i<len; i+=theType['offset']) {
223			values.push(reader_(buffer, i));
224			}
225			if (theType['be']) {
226			endianness(buffer, theType['offset']);
227			}
228			return values;
229			}
230
231			/**
232			* @type {!Int8Array}
233			* @private
234			*/
235			const int8_ = new Int8Array(8);
236			/**
237			* @type {!Uint32Array}
238			* @private
239			*/
240			const ui32_ = new Uint32Array(int8_.buffer);
241			/**
242			* @type {!Float32Array}
243			* @private
244			*/
245			const f32_ = new Float32Array(int8_.buffer);
246			/**
247			* @type {!Float64Array}
248			* @private
249			*/
250			const f64_ = new Float64Array(int8_.buffer);
251			/**
252			* @type {Function}
253			* @private
254			*/
255			let reader_;
256			/**
257			* @type {Function}
258			* @private
259			*/
260			let writer_;
261			/**
262			* @type {Object}
263			* @private
264			*/
265			let gInt_ = {};
266
267			/**
268			* Turn numbers to bytes.
269			* @param {number} value The value to be packed.
270			* @param {!Object} theType The type definition.
271			* @param {!Uint8Array} buffer The buffer to write the bytes to.
272			* @param {number} index The index to start writing.
273			* @param {number} len The end index.
274			* @param {!Function} validate The function used to validate input.
275			* @param {boolean} be True if big-endian.
276			* @return {number} the new index to be written.
277			* @private
278			*/
279			function writeBytes_(value, theType, buffer, index, len, validate, be) {
280			while (index < len) {
281			validate(value, theType);
282			index = writer_(buffer, value, index);
283			}
284			if (be) {
285			endianness(
286			buffer, theType['offset'], index - theType['offset'], index);
287			}
288			return index;
289			}
290
291			/**
292			* Turn a byte buffer into what the bytes represent.
293			* @param {!Uint8Array} buffer An array of bytes.
294			* @param {!Object} theType The type definition.
295			* @return {!Array<number>}
296			* @private
297			*/
298			function fromBytes_(buffer, theType) {
299			if (theType['be']) {
300			endianness(buffer, theType['offset']);
301			}
302			let len = buffer.length;
303			let values = [];
304			len = len - (theType['offset'] - 1);
305			for (let i=0; i<len; i+=theType['offset']) {
306			values.push(reader_(buffer, i));
307			}
308			return values;
309			}
310
311			/**
312			* Turn numbers to bytes.
313			* @param {!Array<number>} values The data.
314			* @param {!Object} theType The type definition.
315			* @return {!Array<number>} the data as a byte buffer.
316			* @private
317			*/
318			function toBytes_(values, theType) {
319			let j = 0;
320			let bytes = [];
321			let len = values.length;
322			for(let i=0; i < len; i++) {
323			validateNotUndefined(values[i]);
324			j = writer_(bytes, values[i], j);
325			}
326			if (theType['be']) {
327			endianness(bytes, theType['offset']);
328			}
329			return bytes;
330			}
331
332			/**
333			* Read int values from bytes.
334			* @param {!Uint8Array} bytes An array of bytes.
335			* @param {number} i The index to read.
336			* @return {number}
337			* @private
338			*/
339			function readInt_(bytes, i) {
340			return gInt_.read(bytes, i);
341			}
342
343			/**
344			* Read 1 16-bit float from bytes.
345			* Thanks https://stackoverflow.com/a/8796597
346			* @param {!Uint8Array} bytes An array of bytes.
347			* @param {number} i The index to read.
348			* @return {number}
349			* @private
350			*/
351			function read16F_(bytes, i) {
352			let int = gInt_.read(bytes, i);
353			let exponent = (int & 0x7C00) >> 10;
354			let fraction = int & 0x03FF;
355			let floatValue;
356			if (exponent) {
357			floatValue = Math.pow(2, exponent - 15) * (1 + fraction / 0x400);
358			} else {
359			floatValue = 6.103515625e-5 * (fraction / 0x400);
360			}
361			return floatValue * (int >> 15 ? -1 : 1);
362			}
363
364			/**
365			* Read 1 32-bit float from bytes.
366			* @param {!Uint8Array} bytes An array of bytes.
367			* @param {number} i The index to read.
368			* @return {number}
369			* @private
370			*/
371			function read32F_(bytes, i) {
372			ui32_[0] = gInt_.read(bytes, i);
373			return f32_[0];
374			}
375
376			/**
377			* Read 1 64-bit float from bytes.
378			* Thanks https://gist.github.com/kg/2192799
379			* @param {!Uint8Array} bytes An array of bytes.
380			* @param {number} i The index to read.
381			* @return {number}
382			* @private
383			*/
384			function read64F_(bytes, i) {
385			ui32_[0] = gInt_.read(bytes, i);
386			ui32_[1] = gInt_.read(bytes, i + 4);
387			return f64_[0];
388			}
389
390			/**
391			* Write a integer value to a byte buffer.
392			* @param {!Uint8Array} bytes An array of bytes.
393			* @param {number} number The number to write as bytes.
394			* @param {number} j The index being written in the byte buffer.
395			* @return {!number} The next index to write on the byte buffer.
396			* @private
397			*/
398			function writeInt_(bytes, number, j) {
399			return gInt_.write(bytes, number, j);
400			}
401
402			/**
403			* Write one 16-bit float as a binary value.
404			* @param {!Uint8Array} bytes An array of bytes.
405			* @param {number} number The number to write as bytes.
406			* @param {number} j The index being written in the byte buffer.
407			* @return {number} The next index to write on the byte buffer.
408			* @private
409			*/
410			function write16F_(bytes, number, j) {
411			f32_[0] = number;
412			let x = ui32_[0];
413			let bits = (x >> 16) & 0x8000;
414			let m = (x >> 12) & 0x07ff;
415			let e = (x >> 23) & 0xff;
416			if (e >= 103) {
417			bits \|= ((e - 112) << 10) \| (m >> 1);
418			bits += m & 1;
419			}
420			bytes[j++] = bits & 0xFF;
421			bytes[j++] = bits >>> 8 & 0xFF;
422			return j;
423			}
424
425			/**
426			* Write one 32-bit float as a binary value.
427			* @param {!Uint8Array} bytes An array of bytes.
428			* @param {number} number The number to write as bytes.
429			* @param {number} j The index being written in the byte buffer.
430			* @return {number} The next index to write on the byte buffer.
431			* @private
432			*/
433			function write32F_(bytes, number, j) {
434			f32_[0] = number;
435			return gInt_.write(bytes, ui32_[0], j);
436			}
437
438			/**
439			* Write one 64-bit float as a binary value.
440			* @param {!Uint8Array} bytes An array of bytes.
441			* @param {number} number The number to write as bytes.
442			* @param {number} j The index being written in the byte buffer.
443			* @return {number} The next index to write on the byte buffer.
444			* @private
445			*/
446			function write64F_(bytes, number, j) {
447			f64_[0] = number;
448			j = gInt_.write(bytes, ui32_[0], j);
449			return gInt_.write(bytes, ui32_[1], j);
450			}
451
452			/**
453			* Set the function to unpack the data.
454			* @param {!Object} theType The type definition.
455			* @private
456			*/
457			function setReader(theType) {
458			if (theType['float']) {
459			if (theType['bits'] == 16) {
460			reader_ = read16F_;
461			} else if(theType['bits'] == 32) {
462			reader_ = read32F_;
463			} else if(theType['bits'] == 64) {
464			reader_ = read64F_;
465			}
466			} else {
467			reader_ = readInt_;
468			}
469			}
470
471			/**
472			* Set the function to pack the data.
473			* @param {!Object} theType The type definition.
474			* @private
475			*/
476			function setWriter(theType) {
477			if (theType['float']) {
478			if (theType['bits'] == 16) {
479			writer_ = write16F_;
480			} else if(theType['bits'] == 32) {
481			writer_ = write32F_;
482			} else if(theType['bits'] == 64) {
483			writer_ = write64F_;
484			}
485			} else {
486			writer_ = writeInt_;
487			}
488			}
489
490			/**
491			* Validate the type and set up the packing/unpacking functions.
492			* @param {!Object} theType The type definition.
493			* @throws {Error} If the type definition is not valid.
494			* @private
495			*/
496			function setUp_(theType) {
497			validateType(theType);
498			theType['offset'] = theType['bits'] < 8 ? 1 : Math.ceil(theType['bits'] / 8);
499			setReader(theType);
500			setWriter(theType);
501			gInt_ = new Integer(
502			theType['bits'] == 64 ? 32 : theType['bits'],
503			theType['float'] ? false : theType['signed']);
504			}
505

rochars / byte-data

Branch — master (0a65f1)

T_IMPORT ➔ writeInt_ A

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