node-uuid v crazy gist

JavaScript performance comparison

Revision 20 of this test case created by

Preparation code

<script>

//     uuid.js
//
//     Copyright (c) 2010-2012 Robert Kieffer
//     MIT License - http://opensource.org/licenses/mit-license.php

(function() {
    var _global = this;

    // Unique ID creation requires a high quality random # generator.  We feature
    // detect to determine the best RNG source, normalizing to a function that
    // returns 128-bits of randomness, since that's what's usually required
    var _rng;

    // Node.js crypto-based RNG - http://nodejs.org/docs/v0.6.2/api/crypto.html
    //
    // Moderately fast, high quality
    if (typeof(require) == 'function') {
        try {
            var _rb = require('crypto').randomBytes;
            _rng = _rb && function() {
                return _rb(16);
            };
        } catch (e) {}
    }

    if (!_rng && _global.crypto && crypto.getRandomValues) {
        // WHATWG crypto-based RNG - http://wiki.whatwg.org/wiki/Crypto
        //
        // Moderately fast, high quality
        var _rnds8 = new Uint8Array(16);
        _rng = function whatwgRNG() {
            crypto.getRandomValues(_rnds8);
            return _rnds8;
        };
    }

    if (!_rng) {
        // Math.random()-based (RNG)
        //
        // If all else fails, use Math.random().  It's fast, but is of unspecified
        // quality.
        var _rnds = new Array(16);
        _rng = function() {
            for (var i = 0, r; i < 16; i++) {
                if ((i & 0x03) === 0) r = Math.random() * 0x100000000;
                _rnds[i] = r >>> ((i & 0x03) << 3) & 0xff;
            }

            return _rnds;
        };
    }

    // Buffer class to use
    var BufferClass = typeof(Buffer) == 'function' ? Buffer : Array;

    // Maps for number <-> hex string conversion
    var _byteToHex = [];
    var _hexToByte = {};
    for (var i = 0; i < 256; i++) {
        _byteToHex[i] = (i + 0x100).toString(16).substr(1);
        _hexToByte[_byteToHex[i]] = i;
    }

    // **`parse()` - Parse a UUID into it's component bytes**
    function parse(s, buf, offset) {
        var i = (buf && offset) || 0,
            ii = 0;

        buf = buf || [];
        s.toLowerCase().replace(/[0-9a-f]{2}/g, function(oct) {
            if (ii < 16) { // Don't overflow!
                buf[i + ii++] = _hexToByte[oct];
            }
        });

        // Zero out remaining bytes if string was short
        while (ii < 16) {
            buf[i + ii++] = 0;
        }

        return buf;
    }

    // **`unparse()` - Convert UUID byte array (ala parse()) into a string**
    function unparse(buf, offset) {
        var i = offset || 0,
            bth = _byteToHex;
        return bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]] + '-' + bth[buf[i++]] + bth[buf[i++]] + '-' + bth[buf[i++]] + bth[buf[i++]] + '-' + bth[buf[i++]] + bth[buf[i++]] + '-' + bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]] + bth[buf[i++]];
    }

    // **`v1()` - Generate time-based UUID**
    //
    // Inspired by https://github.com/LiosK/UUID.js
    // and http://docs.python.org/library/uuid.html

    // random #'s we need to init node and clockseq
    var _seedBytes = _rng();

    // Per 4.5, create and 48-bit node id, (47 random bits + multicast bit = 1)
    var _nodeId = [
    _seedBytes[0] | 0x01,
    _seedBytes[1], _seedBytes[2], _seedBytes[3], _seedBytes[4], _seedBytes[5]];

    // Per 4.2.2, randomize (14 bit) clockseq
    var _clockseq = (_seedBytes[6] << 8 | _seedBytes[7]) & 0x3fff;

    // Previous uuid creation time
    var _lastMSecs = 0,
        _lastNSecs = 0;

    // See https://github.com/broofa/node-uuid for API details
    function v1(options, buf, offset) {
        var i = buf && offset || 0;
        var b = buf || [];

        options = options || {};

        var clockseq = options.clockseq != null ? options.clockseq : _clockseq;

        // UUID timestamps are 100 nano-second units since the Gregorian epoch,
        // (1582-10-15 00:00).  JSNumbers aren't precise enough for this, so
        // time is handled internally as 'msecs' (integer milliseconds) and 'nsecs'
        // (100-nanoseconds offset from msecs) since unix epoch, 1970-01-01 00:00.
        var msecs = options.msecs != null ? options.msecs : new Date().getTime();

        // Per 4.2.1.2, use count of uuid's generated during the current clock
        // cycle to simulate higher resolution clock
        var nsecs = options.nsecs != null ? options.nsecs : _lastNSecs + 1;

        // Time since last uuid creation (in msecs)
        var dt = (msecs - _lastMSecs) + (nsecs - _lastNSecs) / 10000;

        // Per 4.2.1.2, Bump clockseq on clock regression
        if (dt < 0 && options.clockseq == null) {
            clockseq = clockseq + 1 & 0x3fff;
        }

        // Reset nsecs if clock regresses (new clockseq) or we've moved onto a new
        // time interval
        if ((dt < 0 || msecs > _lastMSecs) && options.nsecs == null) {
            nsecs = 0;
        }

        // Per 4.2.1.2 Throw error if too many uuids are requested
        if (nsecs >= 10000) {
            throw new Error('uuid.v1(): Can\'t create more than 10M uuids/sec');
        }

        _lastMSecs = msecs;
        _lastNSecs = nsecs;
        _clockseq = clockseq;

        // Per 4.1.4 - Convert from unix epoch to Gregorian epoch
        msecs += 12219292800000;

        // `time_low`
        var tl = ((msecs & 0xfffffff) * 10000 + nsecs) % 0x100000000;
        b[i++] = tl >>> 24 & 0xff;
        b[i++] = tl >>> 16 & 0xff;
        b[i++] = tl >>> 8 & 0xff;
        b[i++] = tl & 0xff;

        // `time_mid`
        var tmh = (msecs / 0x100000000 * 10000) & 0xfffffff;
        b[i++] = tmh >>> 8 & 0xff;
        b[i++] = tmh & 0xff;

        // `time_high_and_version`
        b[i++] = tmh >>> 24 & 0xf | 0x10; // include version
        b[i++] = tmh >>> 16 & 0xff;

        // `clock_seq_hi_and_reserved` (Per 4.2.2 - include variant)
        b[i++] = clockseq >>> 8 | 0x80;

        // `clock_seq_low`
        b[i++] = clockseq & 0xff;

        // `node`
        var node = options.node || _nodeId;
        for (var n = 0; n < 6; n++) {
            b[i + n] = node[n];
        }

        return buf ? buf : unparse(b);
    }

    // **`v4()` - Generate random UUID**

    // See https://github.com/broofa/node-uuid for API details
    function v4(options, buf, offset) {
        // Deprecated - 'format' argument, as supported in v1.2
        var i = buf && offset || 0;

        if (typeof(options) == 'string') {
            buf = options == 'binary' ? new BufferClass(16) : null;
            options = null;
        }
        options = options || {};

        var rnds = options.random || (options.rng || _rng)();

        // Per 4.4, set bits for version and `clock_seq_hi_and_reserved`
        rnds[6] = (rnds[6] & 0x0f) | 0x40;
        rnds[8] = (rnds[8] & 0x3f) | 0x80;

        // Copy bytes to buffer, if provided
        if (buf) {
            for (var ii = 0; ii < 16; ii++) {
                buf[i + ii] = rnds[ii];
            }
        }

        return buf || unparse(rnds);
    }

    // Export public API
    var uuid = v4;
    uuid.v1 = v1;
    uuid.v4 = v4;
    uuid.parse = parse;
    uuid.unparse = unparse;
    uuid.BufferClass = BufferClass;

    if (typeof define === 'function' && define.amd) {
        // Publish as AMD module
        define(function() {
            return uuid;
        });
    } else if (typeof(module) != 'undefined' && module.exports) {
        // Publish as node.js module
        module.exports = uuid;
    } else {
        // Publish as global (in browsers)
        var _previousRoot = _global.uuid;

        // **`noConflict()` - (browser only) to reset global 'uuid' var**
        uuid.noConflict = function() {
            _global.uuid = _previousRoot;
            return uuid;
        };

        _global.uuid = uuid;
    }
}).call(this);


function b() {
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c) {
    var r = Math.random()*16|0, v = c == 'x' ? r : (r&0x3|0x8);
    return v.toString(16);
});
}

var test_uuid = (function() {
    var d2h = [], vals = new Array(16);
    for (var i = 0; i < 256; ++i) d2h.push((0x100 + i).toString(16).substr(1));
    function uuid() {
        for (var i = 0; i < 16; ++i) vals[i] = Math.random() * 256 | 0;
        vals[6] = vals[6] & 0x0f | 0x40;
        vals[8] = vals[8] & 0x3f | 0x80;
        return d2h[vals[0]] + d2h[vals[1]] + d2h[vals[2]] + d2h[vals[3]] +
            '-' + d2h[vals[4]] + d2h[vals[5]] +
            '-' + d2h[vals[6]] + d2h[vals[7]] +
            '-' + d2h[vals[8]] + d2h[vals[9]] +
            '-' + d2h[vals[10]] + d2h[vals[11]] + d2h[vals[12]] + d2h[vals[13]] + d2h[vals[14]] + d2h[vals[15]];
    }
    return uuid;
})();

</script>
    

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uuid.v1()
uuid.v1()
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uuid.v4()
uuid.v4()
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Crazy Gist
b()
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test_uuid()
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