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-rw-r--r--includes/js/dojox/uuid/README43
-rw-r--r--includes/js/dojox/uuid/Uuid.js200
-rw-r--r--includes/js/dojox/uuid/_base.js245
-rw-r--r--includes/js/dojox/uuid/generateRandomUuid.js56
-rw-r--r--includes/js/dojox/uuid/generateTimeBasedUuid.js290
-rw-r--r--includes/js/dojox/uuid/tests/runTests.html10
-rw-r--r--includes/js/dojox/uuid/tests/uuid.js377
7 files changed, 0 insertions, 1221 deletions
diff --git a/includes/js/dojox/uuid/README b/includes/js/dojox/uuid/README
deleted file mode 100644
index ea6b40e..0000000
--- a/includes/js/dojox/uuid/README
+++ /dev/null
@@ -1,43 +0,0 @@
--------------------------------------------------------------------------------
-DojoX UUID
--------------------------------------------------------------------------------
-Version 0.9
-Release date: 06/21/2007
--------------------------------------------------------------------------------
-Project state: stable
--------------------------------------------------------------------------------
-Project authors
- Brian Douglas Skinner (skinner@dojotoolkit.org)
--------------------------------------------------------------------------------
-Project description
-
-DojoX UUID is the port of the original Dojo 0.4.x UUID classes. The UUID
-classes can be used to represent Universally Unique IDentifiers (UUIDs), as
-described in the IETF's RFC 4122:
- http://tools.ietf.org/html/rfc4122
-
-The DojoX UUID classes provide support for generating both "time-based" UUIDs
-and lightweight "random" UUIDs. DojoX UUID does not yet have support for
-generating new "name-based" UUIDs, but the dojo.uuid.Uuid class can represent
-existing name-based UUIDs, such as UUIDs read from a file or from a server.
-
--------------------------------------------------------------------------------
-Dependencies:
-
-DojoX UUID has no dependencies, outside of Dojo Core.
--------------------------------------------------------------------------------
-Documentation
-
-See the API documentation for Dojo (http://dojotoolkit.org/api).
--------------------------------------------------------------------------------
-Installation instructions
-
-Grab the following from the Dojo SVN Repository:
-http://svn.dojotoolkit.org/var/src/dojo/dojox/trunk/uuid.js
-http://svn.dojotoolkit.org/var/src/dojo/dojox/trunk/uuid/*
-
-Install into the following directory structure:
-/dojox/uuid/
-
-...which should be at the same level as your Dojo checkout.
--------------------------------------------------------------------------------
diff --git a/includes/js/dojox/uuid/Uuid.js b/includes/js/dojox/uuid/Uuid.js
deleted file mode 100644
index 213ecd1..0000000
--- a/includes/js/dojox/uuid/Uuid.js
+++ /dev/null
@@ -1,200 +0,0 @@
-if(!dojo._hasResource["dojox.uuid.Uuid"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
-dojo._hasResource["dojox.uuid.Uuid"] = true;
-dojo.provide("dojox.uuid.Uuid");
-dojo.require("dojox.uuid");
-
-dojox.uuid.Uuid = function(/*String?*/ input){
- // summary:
- // This is the constructor for the Uuid class. The Uuid class offers
- // methods for inspecting existing UUIDs.
- // input: A 36-character string that conforms to the UUID spec.
- // examples:
- // var uuid;
- // uuid = new dojox.uuid.Uuid("3b12f1df-5232-4804-897e-917bf397618a");
- // uuid = new dojox.uuid.Uuid(); // "00000000-0000-0000-0000-000000000000"
- // uuid = new dojox.uuid.Uuid(dojox.uuid.generateRandomUuid());
- // uuid = new dojox.uuid.Uuid(dojox.uuid.generateTimeBasedUuid());
- // dojox.uuid.Uuid.setGenerator(dojox.uuid.generateRandomUuid);
- // uuid = new dojox.uuid.Uuid();
- // dojox.uuid.assert(!uuid.isEqual(dojox.uuid.NIL_UUID));
- this._uuidString = dojox.uuid.NIL_UUID;
- if(input){
- dojox.uuid.assert(dojo.isString(input));
- this._uuidString = input.toLowerCase();
- dojox.uuid.assert(this.isValid());
- }else{
- var ourGenerator = dojox.uuid.Uuid.getGenerator();
- if(ourGenerator){
- this._uuidString = ourGenerator();
- dojox.uuid.assert(this.isValid());
- }
- }
-};
-
-dojox.uuid.Uuid.compare = function(/*dojox.uuid.Uuid*/ uuidOne, /*dojox.uuid.Uuid*/ uuidTwo){
- // summary:
- // Given two UUIDs to compare, this method returns 0, 1, or -1.
- // description:
- // This method is designed to be used by sorting routines, like the
- // JavaScript built-in Array sort() method. This implementation is
- // intended to match the sample implementation in IETF RFC 4122:
- // http://www.ietf.org/rfc/rfc4122.txt
- // uuidOne: Any object that has toString() method that returns a 36-character string that conforms to the UUID spec.
- // uuidTwo: Any object that has toString() method that returns a 36-character string that conforms to the UUID spec.
-
- // examples:
- // var uuid;
- // var generator = dojox.uuid.TimeBasedGenerator;
- // var a = new dojox.uuid.Uuid(generator);
- // var b = new dojox.uuid.Uuid(generator);
- // var c = new dojox.uuid.Uuid(generator);
- // var array = new Array(a, b, c);
- // array.sort(dojox.uuid.Uuid.compare);
- var uuidStringOne = uuidOne.toString();
- var uuidStringTwo = uuidTwo.toString();
- if (uuidStringOne > uuidStringTwo) return 1; // integer
- if (uuidStringOne < uuidStringTwo) return -1; // integer
- return 0; // integer (either 0, 1, or -1)
-};
-
-dojox.uuid.Uuid.setGenerator = function(/*Function?*/ generator){
- // summary:
- // Sets the default generator, which will be used by the
- // "new dojox.uuid.Uuid()" constructor if no parameters
- // are passed in.
- // generator: A UUID generator function, such as dojox.uuid.generateTimeBasedUuid.
- dojox.uuid.assert(!generator || dojo.isFunction(generator));
- dojox.uuid.Uuid._ourGenerator = generator;
-};
-
-dojox.uuid.Uuid.getGenerator = function(){
- // summary:
- // Returns the default generator. See setGenerator().
- return dojox.uuid.Uuid._ourGenerator; // generator (A UUID generator, such as dojox.uuid.TimeBasedGenerator).
-};
-
-dojox.uuid.Uuid.prototype.toString = function(){
- // summary:
- // This method returns a standard 36-character string representing
- // the UUID, such as "3b12f1df-5232-4804-897e-917bf397618a".
- return this._uuidString; // string
-};
-
-dojox.uuid.Uuid.prototype.compare = function(/*dojox.uuid.Uuid*/ otherUuid){
- // summary:
- // Compares this UUID to another UUID, and returns 0, 1, or -1.
- // description:
- // This implementation is intended to match the sample implementation
- // in IETF RFC 4122: http://www.ietf.org/rfc/rfc4122.txt
- // otherUuid: Any object that has toString() method that returns a 36-character string that conforms to the UUID spec.
- return dojox.uuid.Uuid.compare(this, otherUuid); // integer (either 0, 1, or -1)
-};
-
-dojox.uuid.Uuid.prototype.isEqual = function(/*dojox.uuid.Uuid*/ otherUuid){
- // summary:
- // Returns true if this UUID is equal to the otherUuid, or false otherwise.
- // otherUuid: Any object that has toString() method that returns a 36-character string that conforms to the UUID spec.
- return (this.compare(otherUuid) == 0); // boolean
-};
-
-dojox.uuid.Uuid.prototype.isValid = function(){
- // summary:
- // Returns true if the UUID was initialized with a valid value.
- return dojox.uuid.isValid(this);
-};
-
-dojox.uuid.Uuid.prototype.getVariant = function(){
- // summary:
- // Returns a variant code that indicates what type of UUID this is.
- // Returns one of the enumerated dojox.uuid.variant values.
-
- // example:
- // var uuid = new dojox.uuid.Uuid("3b12f1df-5232-4804-897e-917bf397618a");
- // var variant = uuid.getVariant();
- // dojox.uuid.assert(variant == dojox.uuid.variant.DCE);
- // example:
- // "3b12f1df-5232-4804-897e-917bf397618a"
- // ^
- // |
- // (variant "10__" == DCE)
- return dojox.uuid.getVariant(this);
-};
-
-dojox.uuid.Uuid.prototype.getVersion = function(){
- // summary:
- // Returns a version number that indicates what type of UUID this is.
- // Returns one of the enumerated dojox.uuid.version values.
- // example:
- // var uuid = new dojox.uuid.Uuid("b4308fb0-86cd-11da-a72b-0800200c9a66");
- // var version = uuid.getVersion();
- // dojox.uuid.assert(version == dojox.uuid.version.TIME_BASED);
- // exceptions:
- // Throws an Error if this is not a DCE Variant UUID.
- if(!this._versionNumber){
- this._versionNumber = dojox.uuid.getVersion(this);
- }
- return this._versionNumber; // dojox.uuid.version
-};
-
-dojox.uuid.Uuid.prototype.getNode = function(){
- // summary:
- // If this is a version 1 UUID (a time-based UUID), getNode() returns a
- // 12-character string with the "node" or "pseudonode" portion of the UUID,
- // which is the rightmost 12 characters.
- // exceptions:
- // Throws an Error if this is not a version 1 UUID.
- if (!this._nodeString) {
- this._nodeString = dojox.uuid.getNode(this);
- }
- return this._nodeString; // String (a 12-character string, which will look something like "917bf397618a")
-};
-
-dojox.uuid.Uuid.prototype.getTimestamp = function(/*String?*/ returnType){
- // summary:
- // If this is a version 1 UUID (a time-based UUID), this method returns
- // the timestamp value encoded in the UUID. The caller can ask for the
- // timestamp to be returned either as a JavaScript Date object or as a
- // 15-character string of hex digits.
- // returnType: Any of these five values: "string", String, "hex", "date", Date
- // returns:
- // Returns the timestamp value as a JavaScript Date object or a 15-character string of hex digits.
- // examples:
- // var uuid = new dojox.uuid.Uuid("b4308fb0-86cd-11da-a72b-0800200c9a66");
- // var date, string, hexString;
- // date = uuid.getTimestamp(); // returns a JavaScript Date
- // date = uuid.getTimestamp(Date); //
- // string = uuid.getTimestamp(String); // "Mon, 16 Jan 2006 20:21:41 GMT"
- // hexString = uuid.getTimestamp("hex"); // "1da86cdb4308fb0"
- // exceptions:
- // Throws an Error if this is not a version 1 UUID.
- if(!returnType){returnType = null};
- switch(returnType){
- case "string":
- case String:
- return this.getTimestamp(Date).toUTCString(); // String (e.g. "Mon, 16 Jan 2006 20:21:41 GMT")
- break;
- case "hex":
- // Return a 15-character string of hex digits containing the
- // timestamp for this UUID, with the high-order bits first.
- if (!this._timestampAsHexString) {
- this._timestampAsHexString = dojox.uuid.getTimestamp(this, "hex");
- }
- return this._timestampAsHexString; // String (e.g. "1da86cdb4308fb0")
- break;
- case null: // no returnType was specified, so default to Date
- case "date":
- case Date:
- // Return a JavaScript Date object.
- if (!this._timestampAsDate) {
- this._timestampAsDate = dojox.uuid.getTimestamp(this, Date);
- }
- return this._timestampAsDate; // Date
- break;
- default:
- // we got passed something other than a valid returnType
- dojox.uuid.assert(false, "The getTimestamp() method dojox.uuid.Uuid was passed a bogus returnType: " + returnType);
- break;
- }
-};
-
-}
diff --git a/includes/js/dojox/uuid/_base.js b/includes/js/dojox/uuid/_base.js
deleted file mode 100644
index b65e5da..0000000
--- a/includes/js/dojox/uuid/_base.js
+++ /dev/null
@@ -1,245 +0,0 @@
-if(!dojo._hasResource["dojox.uuid._base"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
-dojo._hasResource["dojox.uuid._base"] = true;
-dojo.provide("dojox.uuid._base");
-
-// Public constants:
-dojox.uuid.NIL_UUID = "00000000-0000-0000-0000-000000000000";
-dojox.uuid.version = {
- // Enumeration for the different UUID versions.
- UNKNOWN: 0,
- TIME_BASED: 1,
- DCE_SECURITY: 2,
- NAME_BASED_MD5: 3,
- RANDOM: 4,
- NAME_BASED_SHA1: 5 };
-dojox.uuid.variant = {
- // Enumeration for the different UUID variants.
- NCS: "0",
- DCE: "10",
- MICROSOFT: "110",
- UNKNOWN: "111" };
-
-dojox.uuid.assert = function(/*Boolean*/ booleanValue, /*String?*/ message){
- // summary:
- // Throws an exception if the assertion fails.
- // description:
- // If the asserted condition is true, this method does nothing. If the
- // condition is false, we throw an error with a error message.
- // booleanValue: Must be true for the assertion to succeed.
- // message: A string describing the assertion.
- // throws: Throws an Error if 'booleanValue' is false.
- if(!booleanValue){
- if(!message){
- message = "An assert statement failed.\n" +
- "The method dojox.uuid.assert() was called with a 'false' value.\n";
- }
- throw new Error(message);
- }
-};
-
-dojox.uuid.generateNilUuid = function(){
- // summary:
- // This function returns the Nil UUID: "00000000-0000-0000-0000-000000000000".
- // description:
- // The Nil UUID is described in section 4.1.7 of
- // RFC 4122: http://tools.ietf.org/html/rfc4122#section-4.1.7
- // examples:
- // var string = dojox.uuid.generateNilUuid();
- return dojox.uuid.NIL_UUID;; // String
-};
-
-dojox.uuid.isValid = function(/*String*/ uuidString){
- // summary:
- // Returns true if the UUID was initialized with a valid value.
- uuidString = uuidString.toString();
- var valid = (dojo.isString(uuidString) &&
- (uuidString.length == 36) &&
- (uuidString == uuidString.toLowerCase()));
- if(valid){
- var arrayOfParts = uuidString.split("-");
- valid = ((arrayOfParts.length == 5) &&
- (arrayOfParts[0].length == 8) &&
- (arrayOfParts[1].length == 4) &&
- (arrayOfParts[2].length == 4) &&
- (arrayOfParts[3].length == 4) &&
- (arrayOfParts[4].length == 12));
- var HEX_RADIX = 16;
- for (var i in arrayOfParts) {
- var part = arrayOfParts[i];
- var integer = parseInt(part, HEX_RADIX);
- valid = valid && isFinite(integer);
- }
- }
- return valid; // boolean
-};
-
-dojox.uuid.getVariant = function(/*String*/ uuidString){
- // summary:
- // Returns a variant code that indicates what type of UUID this is.
- // Returns one of the enumerated dojox.uuid.variant values.
- // example:
- // var variant = dojox.uuid.getVariant("3b12f1df-5232-4804-897e-917bf397618a");
- // dojox.uuid.assert(variant == dojox.uuid.variant.DCE);
- // example:
- // "3b12f1df-5232-4804-897e-917bf397618a"
- // ^
- // |
- // (variant "10__" == DCE)
- if(!dojox.uuid._ourVariantLookupTable){
- var variant = dojox.uuid.variant;
- var lookupTable = [];
-
- lookupTable[0x0] = variant.NCS; // 0000
- lookupTable[0x1] = variant.NCS; // 0001
- lookupTable[0x2] = variant.NCS; // 0010
- lookupTable[0x3] = variant.NCS; // 0011
-
- lookupTable[0x4] = variant.NCS; // 0100
- lookupTable[0x5] = variant.NCS; // 0101
- lookupTable[0x6] = variant.NCS; // 0110
- lookupTable[0x7] = variant.NCS; // 0111
-
- lookupTable[0x8] = variant.DCE; // 1000
- lookupTable[0x9] = variant.DCE; // 1001
- lookupTable[0xA] = variant.DCE; // 1010
- lookupTable[0xB] = variant.DCE; // 1011
-
- lookupTable[0xC] = variant.MICROSOFT; // 1100
- lookupTable[0xD] = variant.MICROSOFT; // 1101
- lookupTable[0xE] = variant.UNKNOWN; // 1110
- lookupTable[0xF] = variant.UNKNOWN; // 1111
-
- dojox.uuid._ourVariantLookupTable = lookupTable;
- }
-
- uuidString = uuidString.toString();
- var variantCharacter = uuidString.charAt(19);
- var HEX_RADIX = 16;
- var variantNumber = parseInt(variantCharacter, HEX_RADIX);
- dojox.uuid.assert((variantNumber >= 0) && (variantNumber <= 16));
- return dojox.uuid._ourVariantLookupTable[variantNumber]; // dojox.uuid.variant
-};
-
-dojox.uuid.getVersion = function(/*String*/ uuidString){
- // summary:
- // Returns a version number that indicates what type of UUID this is.
- // Returns one of the enumerated dojox.uuid.version values.
- // example:
- // var version = dojox.uuid.getVersion("b4308fb0-86cd-11da-a72b-0800200c9a66");
- // dojox.uuid.assert(version == dojox.uuid.version.TIME_BASED);
- // exceptions:
- // Throws an Error if this is not a DCE Variant UUID.
- var errorMessage = "dojox.uuid.getVersion() was not passed a DCE Variant UUID.";
- dojox.uuid.assert(dojox.uuid.getVariant(uuidString) == dojox.uuid.variant.DCE, errorMessage);
- uuidString = uuidString.toString();
-
- // "b4308fb0-86cd-11da-a72b-0800200c9a66"
- // ^
- // |
- // (version 1 == TIME_BASED)
- var versionCharacter = uuidString.charAt(14);
- var HEX_RADIX = 16;
- var versionNumber = parseInt(versionCharacter, HEX_RADIX);
- return versionNumber; // dojox.uuid.version
-};
-
-dojox.uuid.getNode = function(/*String*/ uuidString){
- // summary:
- // If this is a version 1 UUID (a time-based UUID), getNode() returns a
- // 12-character string with the "node" or "pseudonode" portion of the UUID,
- // which is the rightmost 12 characters.
- // exceptions:
- // Throws an Error if this is not a version 1 UUID.
- var errorMessage = "dojox.uuid.getNode() was not passed a TIME_BASED UUID.";
- dojox.uuid.assert(dojox.uuid.getVersion(uuidString) == dojox.uuid.version.TIME_BASED, errorMessage);
-
- uuidString = uuidString.toString();
- var arrayOfStrings = uuidString.split('-');
- var nodeString = arrayOfStrings[4];
- return nodeString; // String (a 12-character string, which will look something like "917bf397618a")
-};
-
-dojox.uuid.getTimestamp = function(/*String*/ uuidString, /*String?*/ returnType){
- // summary:
- // If this is a version 1 UUID (a time-based UUID), this method returns
- // the timestamp value encoded in the UUID. The caller can ask for the
- // timestamp to be returned either as a JavaScript Date object or as a
- // 15-character string of hex digits.
- // returnType: Any of these five values: "string", String, "hex", "date", Date
- // returns:
- // Returns the timestamp value as a JavaScript Date object or a 15-character string of hex digits.
- // examples:
- // var uuidString = "b4308fb0-86cd-11da-a72b-0800200c9a66";
- // var date, string, hexString;
- // date = dojox.uuid.getTimestamp(uuidString); // returns a JavaScript Date
- // date = dojox.uuid.getTimestamp(uuidString, Date); //
- // string = dojox.uuid.getTimestamp(uuidString, String); // "Mon, 16 Jan 2006 20:21:41 GMT"
- // hexString = dojox.uuid.getTimestamp(uuidString, "hex"); // "1da86cdb4308fb0"
- // exceptions:
- // Throws an Error if this is not a version 1 UUID.
- var errorMessage = "dojox.uuid.getTimestamp() was not passed a TIME_BASED UUID.";
- dojox.uuid.assert(dojox.uuid.getVersion(uuidString) == dojox.uuid.version.TIME_BASED, errorMessage);
-
- uuidString = uuidString.toString();
- if(!returnType){returnType = null};
- switch(returnType){
- case "string":
- case String:
- return dojox.uuid.getTimestamp(uuidString, Date).toUTCString(); // String (e.g. "Mon, 16 Jan 2006 20:21:41 GMT")
- break;
- case "hex":
- // Return a 15-character string of hex digits containing the
- // timestamp for this UUID, with the high-order bits first.
- var arrayOfStrings = uuidString.split('-');
- var hexTimeLow = arrayOfStrings[0];
- var hexTimeMid = arrayOfStrings[1];
- var hexTimeHigh = arrayOfStrings[2];
-
- // Chop off the leading "1" character, which is the UUID
- // version number for time-based UUIDs.
- hexTimeHigh = hexTimeHigh.slice(1);
-
- var timestampAsHexString = hexTimeHigh + hexTimeMid + hexTimeLow;
- dojox.uuid.assert(timestampAsHexString.length == 15);
- return timestampAsHexString; // String (e.g. "1da86cdb4308fb0")
- break;
- case null: // no returnType was specified, so default to Date
- case "date":
- case Date:
- // Return a JavaScript Date object.
- var GREGORIAN_CHANGE_OFFSET_IN_HOURS = 3394248;
- var HEX_RADIX = 16;
-
- var arrayOfParts = uuidString.split('-');
- var timeLow = parseInt(arrayOfParts[0], HEX_RADIX);
- var timeMid = parseInt(arrayOfParts[1], HEX_RADIX);
- var timeHigh = parseInt(arrayOfParts[2], HEX_RADIX);
- var hundredNanosecondIntervalsSince1582 = timeHigh & 0x0FFF;
- hundredNanosecondIntervalsSince1582 <<= 16;
- hundredNanosecondIntervalsSince1582 += timeMid;
- // What we really want to do next is shift left 32 bits, but the
- // result will be too big to fit in an int, so we'll multiply by 2^32,
- // and the result will be a floating point approximation.
- hundredNanosecondIntervalsSince1582 *= 0x100000000;
- hundredNanosecondIntervalsSince1582 += timeLow;
- var millisecondsSince1582 = hundredNanosecondIntervalsSince1582 / 10000;
-
- // Again, this will be a floating point approximation.
- // We can make things exact later if we need to.
- var secondsPerHour = 60 * 60;
- var hoursBetween1582and1970 = GREGORIAN_CHANGE_OFFSET_IN_HOURS;
- var secondsBetween1582and1970 = hoursBetween1582and1970 * secondsPerHour;
- var millisecondsBetween1582and1970 = secondsBetween1582and1970 * 1000;
- var millisecondsSince1970 = millisecondsSince1582 - millisecondsBetween1582and1970;
-
- var timestampAsDate = new Date(millisecondsSince1970);
- return timestampAsDate; // Date
- break;
- default:
- // we got passed something other than a valid returnType
- dojox.uuid.assert(false, "dojox.uuid.getTimestamp was not passed a valid returnType: " + returnType);
- break;
- }
-};
-
-}
diff --git a/includes/js/dojox/uuid/generateRandomUuid.js b/includes/js/dojox/uuid/generateRandomUuid.js
deleted file mode 100644
index ec590e9..0000000
--- a/includes/js/dojox/uuid/generateRandomUuid.js
+++ /dev/null
@@ -1,56 +0,0 @@
-if(!dojo._hasResource["dojox.uuid.generateRandomUuid"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
-dojo._hasResource["dojox.uuid.generateRandomUuid"] = true;
-dojo.provide("dojox.uuid.generateRandomUuid");
-
-dojox.uuid.generateRandomUuid = function(){
- // summary:
- // This function generates random UUIDs, meaning "version 4" UUIDs.
- // description:
- // A typical generated value would be something like this:
- // "3b12f1df-5232-4804-897e-917bf397618a"
- //
- // For more information about random UUIDs, see sections 4.4 and
- // 4.5 of RFC 4122: http://tools.ietf.org/html/rfc4122#section-4.4
- //
- // This generator function is designed to be small and fast,
- // but not necessarily good.
- //
- // Small: This generator has a small footprint. Once comments are
- // stripped, it's only about 25 lines of code, and it doesn't
- // dojo.require() any other modules.
- //
- // Fast: This generator can generate lots of new UUIDs fairly quickly
- // (at least, more quickly than the other dojo UUID generators).
- //
- // Not necessarily good: We use Math.random() as our source
- // of randomness, which may or may not provide much randomness.
- // examples:
- // var string = dojox.uuid.generateRandomUuid();
- var HEX_RADIX = 16;
-
- function _generateRandomEightCharacterHexString(){
- // Make random32bitNumber be a randomly generated floating point number
- // between 0 and (4,294,967,296 - 1), inclusive.
- var random32bitNumber = Math.floor( (Math.random() % 1) * Math.pow(2, 32) );
- var eightCharacterHexString = random32bitNumber.toString(HEX_RADIX);
- while(eightCharacterHexString.length < 8){
- eightCharacterHexString = "0" + eightCharacterHexString;
- }
- return eightCharacterHexString; // for example: "3B12F1DF"
- }
-
- var hyphen = "-";
- var versionCodeForRandomlyGeneratedUuids = "4"; // 8 == binary2hex("0100")
- var variantCodeForDCEUuids = "8"; // 8 == binary2hex("1000")
- var a = _generateRandomEightCharacterHexString();
- var b = _generateRandomEightCharacterHexString();
- b = b.substring(0, 4) + hyphen + versionCodeForRandomlyGeneratedUuids + b.substring(5, 8);
- var c = _generateRandomEightCharacterHexString();
- c = variantCodeForDCEUuids + c.substring(1, 4) + hyphen + c.substring(4, 8);
- var d = _generateRandomEightCharacterHexString();
- var returnValue = a + hyphen + b + hyphen + c + d;
- returnValue = returnValue.toLowerCase();
- return returnValue; // String
-};
-
-}
diff --git a/includes/js/dojox/uuid/generateTimeBasedUuid.js b/includes/js/dojox/uuid/generateTimeBasedUuid.js
deleted file mode 100644
index 20be9f4..0000000
--- a/includes/js/dojox/uuid/generateTimeBasedUuid.js
+++ /dev/null
@@ -1,290 +0,0 @@
-if(!dojo._hasResource["dojox.uuid.generateTimeBasedUuid"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
-dojo._hasResource["dojox.uuid.generateTimeBasedUuid"] = true;
-dojo.provide("dojox.uuid.generateTimeBasedUuid");
-
-dojox.uuid.generateTimeBasedUuid = function(/*String?*/ node){
- // summary:
- // This function generates time-based UUIDs, meaning "version 1" UUIDs.
- // description:
- // For more info, see
- // http://www.webdav.org/specs/draft-leach-uuids-guids-01.txt
- // http://www.infonuovo.com/dma/csdocs/sketch/instidid.htm
- // http://kruithof.xs4all.nl/uuid/uuidgen
- // http://www.opengroup.org/onlinepubs/009629399/apdxa.htm#tagcjh_20
- // http://jakarta.apache.org/commons/sandbox/id/apidocs/org/apache/commons/id/uuid/clock/Clock.html
- // node:
- // A 12-character hex string representing either a pseudo-node or
- // hardware-node (an IEEE 802.3 network node). A hardware-node
- // will be something like "017bf397618a", always with the first bit
- // being 0. A pseudo-node will be something like "f17bf397618a",
- // always with the first bit being 1.
- // examples:
- // string = dojox.uuid.generateTimeBasedUuid();
- // string = dojox.uuid.generateTimeBasedUuid("017bf397618a");
- // dojox.uuid.generateTimeBasedUuid.setNode("017bf397618a");
- // string = dojox.uuid.generateTimeBasedUuid(); // the generated UUID has node == "017bf397618a"
- var uuidString = dojox.uuid.generateTimeBasedUuid._generator.generateUuidString(node);
- return uuidString; // String
-};
-
-dojox.uuid.generateTimeBasedUuid.isValidNode = function(/*String?*/ node){
- var HEX_RADIX = 16;
- var integer = parseInt(node, HEX_RADIX);
- var valid = dojo.isString(node) && node.length == 12 && isFinite(integer);
- return valid; // Boolean
-};
-
-dojox.uuid.generateTimeBasedUuid.setNode = function(/*String?*/ node){
- // summary:
- // Sets the 'node' value that will be included in generated UUIDs.
- // node: A 12-character hex string representing a pseudoNode or hardwareNode.
- dojox.uuid.assert((node === null) || this.isValidNode(node));
- this._uniformNode = node;
-};
-
-dojox.uuid.generateTimeBasedUuid.getNode = function(){
- // summary:
- // Returns the 'node' value that will be included in generated UUIDs.
- return this._uniformNode; // String (a 12-character hex string representing a pseudoNode or hardwareNode)
-};
-
-
-dojox.uuid.generateTimeBasedUuid._generator = new function(){
- // Number of hours between October 15, 1582 and January 1, 1970:
- this.GREGORIAN_CHANGE_OFFSET_IN_HOURS = 3394248;
-
- // Number of seconds between October 15, 1582 and January 1, 1970:
- // dojox.uuid.generateTimeBasedUuid.GREGORIAN_CHANGE_OFFSET_IN_SECONDS = 12219292800;
-
- // --------------------------------------------------
- // Private variables:
- var _uuidPseudoNodeString = null;
- var _uuidClockSeqString = null;
- var _dateValueOfPreviousUuid = null;
- var _nextIntraMillisecondIncrement = 0;
- var _cachedMillisecondsBetween1582and1970 = null;
- var _cachedHundredNanosecondIntervalsPerMillisecond = null;
-
- // --------------------------------------------------
- // Private constants:
- var HEX_RADIX = 16;
-
- function _carry(/* array */ arrayA){
- // summary:
- // Given an array which holds a 64-bit number broken into 4 16-bit
- // elements, this method carries any excess bits (greater than 16-bits)
- // from each array element into the next.
- // arrayA: An array with 4 elements, each of which is a 16-bit number.
- arrayA[2] += arrayA[3] >>> 16;
- arrayA[3] &= 0xFFFF;
- arrayA[1] += arrayA[2] >>> 16;
- arrayA[2] &= 0xFFFF;
- arrayA[0] += arrayA[1] >>> 16;
- arrayA[1] &= 0xFFFF;
- dojox.uuid.assert((arrayA[0] >>> 16) === 0);
- }
-
- function _get64bitArrayFromFloat(/* float */ x){
- // summary:
- // Given a floating point number, this method returns an array which
- // holds a 64-bit number broken into 4 16-bit elements.
- var result = new Array(0, 0, 0, 0);
- result[3] = x % 0x10000;
- x -= result[3];
- x /= 0x10000;
- result[2] = x % 0x10000;
- x -= result[2];
- x /= 0x10000;
- result[1] = x % 0x10000;
- x -= result[1];
- x /= 0x10000;
- result[0] = x;
- return result; // Array with 4 elements, each of which is a 16-bit number.
- }
-
- function _addTwo64bitArrays(/* array */ arrayA, /* array */ arrayB){
- // summary:
- // Takes two arrays, each of which holds a 64-bit number broken into 4
- // 16-bit elements, and returns a new array that holds a 64-bit number
- // that is the sum of the two original numbers.
- // arrayA: An array with 4 elements, each of which is a 16-bit number.
- // arrayB: An array with 4 elements, each of which is a 16-bit number.
- dojox.uuid.assert(dojo.isArray(arrayA));
- dojox.uuid.assert(dojo.isArray(arrayB));
- dojox.uuid.assert(arrayA.length == 4);
- dojox.uuid.assert(arrayB.length == 4);
-
- var result = new Array(0, 0, 0, 0);
- result[3] = arrayA[3] + arrayB[3];
- result[2] = arrayA[2] + arrayB[2];
- result[1] = arrayA[1] + arrayB[1];
- result[0] = arrayA[0] + arrayB[0];
- _carry(result);
- return result; // Array with 4 elements, each of which is a 16-bit number.
- }
-
- function _multiplyTwo64bitArrays(/* array */ arrayA, /* array */ arrayB){
- // summary:
- // Takes two arrays, each of which holds a 64-bit number broken into 4
- // 16-bit elements, and returns a new array that holds a 64-bit number
- // that is the product of the two original numbers.
- // arrayA: An array with 4 elements, each of which is a 16-bit number.
- // arrayB: An array with 4 elements, each of which is a 16-bit number.
- dojox.uuid.assert(dojo.isArray(arrayA));
- dojox.uuid.assert(dojo.isArray(arrayB));
- dojox.uuid.assert(arrayA.length == 4);
- dojox.uuid.assert(arrayB.length == 4);
-
- var overflow = false;
- if(arrayA[0] * arrayB[0] !== 0){ overflow = true; }
- if(arrayA[0] * arrayB[1] !== 0){ overflow = true; }
- if(arrayA[0] * arrayB[2] !== 0){ overflow = true; }
- if(arrayA[1] * arrayB[0] !== 0){ overflow = true; }
- if(arrayA[1] * arrayB[1] !== 0){ overflow = true; }
- if(arrayA[2] * arrayB[0] !== 0){ overflow = true; }
- dojox.uuid.assert(!overflow);
-
- var result = new Array(0, 0, 0, 0);
- result[0] += arrayA[0] * arrayB[3];
- _carry(result);
- result[0] += arrayA[1] * arrayB[2];
- _carry(result);
- result[0] += arrayA[2] * arrayB[1];
- _carry(result);
- result[0] += arrayA[3] * arrayB[0];
- _carry(result);
- result[1] += arrayA[1] * arrayB[3];
- _carry(result);
- result[1] += arrayA[2] * arrayB[2];
- _carry(result);
- result[1] += arrayA[3] * arrayB[1];
- _carry(result);
- result[2] += arrayA[2] * arrayB[3];
- _carry(result);
- result[2] += arrayA[3] * arrayB[2];
- _carry(result);
- result[3] += arrayA[3] * arrayB[3];
- _carry(result);
- return result; // Array with 4 elements, each of which is a 16-bit number.
- }
-
- function _padWithLeadingZeros(/* string */ string, /* int */ desiredLength){
- // summary:
- // Pads a string with leading zeros and returns the result.
- // string: A string to add padding to.
- // desiredLength: The number of characters the return string should have.
-
- // examples:
- // result = _padWithLeadingZeros("abc", 6);
- // dojox.uuid.assert(result == "000abc");
- while(string.length < desiredLength){
- string = "0" + string;
- }
- return string; // string
- }
-
- function _generateRandomEightCharacterHexString() {
- // summary:
- // Returns a randomly generated 8-character string of hex digits.
-
- // FIXME: This probably isn't a very high quality random number.
-
- // Make random32bitNumber be a randomly generated floating point number
- // between 0 and (4,294,967,296 - 1), inclusive.
- var random32bitNumber = Math.floor( (Math.random() % 1) * Math.pow(2, 32) );
-
- var eightCharacterString = random32bitNumber.toString(HEX_RADIX);
- while(eightCharacterString.length < 8){
- eightCharacterString = "0" + eightCharacterString;
- }
- return eightCharacterString; // String (an 8-character hex string)
- }
-
- this.generateUuidString = function(/*String?*/ node){
- // summary:
- // Generates a time-based UUID, meaning a version 1 UUID.
- // description:
- // JavaScript code running in a browser doesn't have access to the
- // IEEE 802.3 address of the computer, so if a node value isn't
- // supplied, we generate a random pseudonode value instead.
- // node: An optional 12-character string to use as the node in the new UUID.
- if(node){
- dojox.uuid.assert(dojox.uuid.generateTimeBasedUuid.isValidNode(node));
- }else{
- if(dojox.uuid.generateTimeBasedUuid._uniformNode){
- node = dojox.uuid.generateTimeBasedUuid._uniformNode;
- }else{
- if(!_uuidPseudoNodeString){
- var pseudoNodeIndicatorBit = 0x8000;
- var random15bitNumber = Math.floor( (Math.random() % 1) * Math.pow(2, 15) );
- var leftmost4HexCharacters = (pseudoNodeIndicatorBit | random15bitNumber).toString(HEX_RADIX);
- _uuidPseudoNodeString = leftmost4HexCharacters + _generateRandomEightCharacterHexString();
- }
- node = _uuidPseudoNodeString;
- }
- }
- if(!_uuidClockSeqString){
- var variantCodeForDCEUuids = 0x8000; // 10--------------, i.e. uses only first two of 16 bits.
- var random14bitNumber = Math.floor( (Math.random() % 1) * Math.pow(2, 14) );
- _uuidClockSeqString = (variantCodeForDCEUuids | random14bitNumber).toString(HEX_RADIX);
- }
-
- // Maybe we should think about trying to make the code more readable to
- // newcomers by creating a class called "WholeNumber" that encapsulates
- // the methods and data structures for working with these arrays that
- // hold 4 16-bit numbers? And then these variables below have names
- // like "wholeSecondsPerHour" rather than "arraySecondsPerHour"?
- var now = new Date();
- var millisecondsSince1970 = now.valueOf(); // milliseconds since midnight 01 January, 1970 UTC.
- var nowArray = _get64bitArrayFromFloat(millisecondsSince1970);
- if(!_cachedMillisecondsBetween1582and1970){
- var arraySecondsPerHour = _get64bitArrayFromFloat(60 * 60);
- var arrayHoursBetween1582and1970 = _get64bitArrayFromFloat(dojox.uuid.generateTimeBasedUuid._generator.GREGORIAN_CHANGE_OFFSET_IN_HOURS);
- var arraySecondsBetween1582and1970 = _multiplyTwo64bitArrays(arrayHoursBetween1582and1970, arraySecondsPerHour);
- var arrayMillisecondsPerSecond = _get64bitArrayFromFloat(1000);
- _cachedMillisecondsBetween1582and1970 = _multiplyTwo64bitArrays(arraySecondsBetween1582and1970, arrayMillisecondsPerSecond);
- _cachedHundredNanosecondIntervalsPerMillisecond = _get64bitArrayFromFloat(10000);
- }
- var arrayMillisecondsSince1970 = nowArray;
- var arrayMillisecondsSince1582 = _addTwo64bitArrays(_cachedMillisecondsBetween1582and1970, arrayMillisecondsSince1970);
- var arrayHundredNanosecondIntervalsSince1582 = _multiplyTwo64bitArrays(arrayMillisecondsSince1582, _cachedHundredNanosecondIntervalsPerMillisecond);
-
- if(now.valueOf() == _dateValueOfPreviousUuid){
- arrayHundredNanosecondIntervalsSince1582[3] += _nextIntraMillisecondIncrement;
- _carry(arrayHundredNanosecondIntervalsSince1582);
- _nextIntraMillisecondIncrement += 1;
- if (_nextIntraMillisecondIncrement == 10000) {
- // If we've gotten to here, it means we've already generated 10,000
- // UUIDs in this single millisecond, which is the most that the UUID
- // timestamp field allows for. So now we'll just sit here and wait
- // for a fraction of a millisecond, so as to ensure that the next
- // time this method is called there will be a different millisecond
- // value in the timestamp field.
- while (now.valueOf() == _dateValueOfPreviousUuid) {
- now = new Date();
- }
- }
- }else{
- _dateValueOfPreviousUuid = now.valueOf();
- _nextIntraMillisecondIncrement = 1;
- }
-
- var hexTimeLowLeftHalf = arrayHundredNanosecondIntervalsSince1582[2].toString(HEX_RADIX);
- var hexTimeLowRightHalf = arrayHundredNanosecondIntervalsSince1582[3].toString(HEX_RADIX);
- var hexTimeLow = _padWithLeadingZeros(hexTimeLowLeftHalf, 4) + _padWithLeadingZeros(hexTimeLowRightHalf, 4);
- var hexTimeMid = arrayHundredNanosecondIntervalsSince1582[1].toString(HEX_RADIX);
- hexTimeMid = _padWithLeadingZeros(hexTimeMid, 4);
- var hexTimeHigh = arrayHundredNanosecondIntervalsSince1582[0].toString(HEX_RADIX);
- hexTimeHigh = _padWithLeadingZeros(hexTimeHigh, 3);
- var hyphen = "-";
- var versionCodeForTimeBasedUuids = "1"; // binary2hex("0001")
- var resultUuid = hexTimeLow + hyphen + hexTimeMid + hyphen +
- versionCodeForTimeBasedUuids + hexTimeHigh + hyphen +
- _uuidClockSeqString + hyphen + node;
- resultUuid = resultUuid.toLowerCase();
- return resultUuid; // String (a 36 character string, which will look something like "b4308fb0-86cd-11da-a72b-0800200c9a66")
- }
-
-}();
-
-}
diff --git a/includes/js/dojox/uuid/tests/runTests.html b/includes/js/dojox/uuid/tests/runTests.html
deleted file mode 100644
index 41ba177..0000000
--- a/includes/js/dojox/uuid/tests/runTests.html
+++ /dev/null
@@ -1,10 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<html>
- <head>
- <title>Dojox.uuid Unit Test Runner</title>
- <meta http-equiv="REFRESH" content="0;url=../../../util/doh/runner.html?testModule=dojox.uuid.tests.uuid">
- </head>
- <body>
- Redirecting to D.O.H runner.
- </body>
-</html>
diff --git a/includes/js/dojox/uuid/tests/uuid.js b/includes/js/dojox/uuid/tests/uuid.js
deleted file mode 100644
index 9cc89e0..0000000
--- a/includes/js/dojox/uuid/tests/uuid.js
+++ /dev/null
@@ -1,377 +0,0 @@
-if(!dojo._hasResource["dojox.uuid.tests.uuid"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
-dojo._hasResource["dojox.uuid.tests.uuid"] = true;
-dojo.provide("dojox.uuid.tests.uuid");
-dojo.require("dojox.uuid");
-dojo.require("dojox.uuid.Uuid");
-dojo.require("dojox.uuid.generateRandomUuid");
-dojo.require("dojox.uuid.generateTimeBasedUuid");
-
-dojox.uuid.tests.uuid.checkValidityOfUuidString = function(/*String*/uuidString){
- // summary:
- // A helper function that's used by the registered test functions
- var NIL_UUID = "00000000-0000-0000-0000-000000000000";
- if (uuidString == NIL_UUID) {
- // We'll consider the Nil UUID to be valid, so now
- // we can just return, with not further checks.
- return;
- }
-
- doh.assertTrue(uuidString.length == 36); // UUIDs have 36 characters
-
- var validCharacters = "0123456789abcedfABCDEF-";
- var character;
- var position;
- for(var i = 0; i < 36; ++i){
- character = uuidString.charAt(i);
- position = validCharacters.indexOf(character);
- doh.assertTrue(position != -1); // UUIDs have only valid characters
- }
-
- var arrayOfParts = uuidString.split("-");
- doh.assertTrue(arrayOfParts.length == 5); // UUIDs have 5 sections separated by 4 hyphens
- doh.assertTrue(arrayOfParts[0].length == 8); // Section 0 has 8 characters
- doh.assertTrue(arrayOfParts[1].length == 4); // Section 1 has 4 characters
- doh.assertTrue(arrayOfParts[2].length == 4); // Section 2 has 4 characters
- doh.assertTrue(arrayOfParts[3].length == 4); // Section 3 has 4 characters
- doh.assertTrue(arrayOfParts[4].length == 12); // Section 4 has 8 characters
-
- // check to see that the "UUID variant code" starts with the binary bits '10'
- var section3 = arrayOfParts[3];
- var HEX_RADIX = 16;
- var hex3 = parseInt(section3, HEX_RADIX);
- var binaryString = hex3.toString(2);
- // alert("section3 = " + section3 + "\n binaryString = " + binaryString);
- doh.assertTrue(binaryString.length == 16); // section 3 has 16 bits
- doh.assertTrue(binaryString.charAt(0) == '1'); // first bit of section 3 is 1
- doh.assertTrue(binaryString.charAt(1) == '0'); // second bit of section 3 is 0
-}
-
-dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString = function(/*String*/uuidString){
- // summary:
- // A helper function that's used by the registered test functions
- dojox.uuid.tests.uuid.checkValidityOfUuidString(uuidString);
- var arrayOfParts = uuidString.split("-");
- var section2 = arrayOfParts[2];
- doh.assertTrue(section2.charAt(0) == "1"); // Section 2 starts with a 1
-}
-
-dojox.uuid.tests.uuid.checkForPseudoNodeBitInTimeBasedUuidString = function(/*String*/uuidString){
- // summary:
- // A helper function that's used by the registered test functions
- var arrayOfParts = uuidString.split("-");
- var section4 = arrayOfParts[4];
- var firstChar = section4.charAt(0);
- var HEX_RADIX = 16;
- var hexFirstChar = parseInt(firstChar, HEX_RADIX);
- var binaryString = hexFirstChar.toString(2);
- var firstBit;
- if(binaryString.length == 4){
- firstBit = binaryString.charAt(0);
- }else{
- firstBit = '0';
- }
- doh.assertTrue(firstBit == '1'); // first bit of section 4 is 1
-}
-
-doh.register("dojox.uuid.tests.uuid",
- [
- /*
- function test_uuid_performance(){
- var start = new Date();
- var startMS = start.valueOf();
- var nowMS = startMS;
- var i;
- var now;
- var numTrials = 100000;
-
- while(nowMS == startMS){
- now = new Date();
- nowMS = now.valueOf();
- }
-
- startMS = nowMS;
- for(i = 0; i < numTrials; ++i){
- var a = dojox.uuid.LightweightGenerator.generate();
- }
- now = new Date();
- nowMS = now.valueOf();
- var elapsedMS = nowMS - startMS;
- // dojo.log.debug("created " + numTrials + " UUIDs in " + elapsedMS + " milliseconds");
- },
- */
-
- function test_uuid_capitalization(){
- var randomLowercaseString = "3b12f1df-5232-4804-897e-917bf397618a";
- var randomUppercaseString = "3B12F1DF-5232-4804-897E-917BF397618A";
-
- var timebasedLowercaseString = "b4308fb0-86cd-11da-a72b-0800200c9a66";
- var timebasedUppercaseString = "B4308FB0-86CD-11DA-A72B-0800200C9A66";
-
- var uuidRL = new dojox.uuid.Uuid(randomLowercaseString);
- var uuidRU = new dojox.uuid.Uuid(randomUppercaseString);
-
- var uuidTL = new dojox.uuid.Uuid(timebasedLowercaseString);
- var uuidTU = new dojox.uuid.Uuid(timebasedUppercaseString);
-
- doh.assertTrue(uuidRL.isEqual(uuidRU));
- doh.assertTrue(uuidRU.isEqual(uuidRL));
-
- doh.assertTrue(uuidTL.isEqual(uuidTU));
- doh.assertTrue(uuidTU.isEqual(uuidTL));
- },
-
- function test_uuid_constructor(){
- var uuid, uuidToo;
-
- var nilUuid = '00000000-0000-0000-0000-000000000000';
- uuid = new dojox.uuid.Uuid();
- doh.assertTrue(uuid == nilUuid); // 'new dojox.uuid.Uuid()' returns the Nil UUID
-
- var randomUuidString = "3b12f1df-5232-4804-897e-917bf397618a";
- uuid = new dojox.uuid.Uuid(randomUuidString);
- doh.assertTrue(uuid.isValid());
- doh.assertTrue(uuid.getVariant() == dojox.uuid.variant.DCE);
- doh.assertTrue(uuid.getVersion() == dojox.uuid.version.RANDOM);
- uuidToo = new dojox.uuid.Uuid(new String(randomUuidString));
- doh.assertTrue(uuid.isEqual(uuidToo));
-
- var timeBasedUuidString = "b4308fb0-86cd-11da-a72b-0800200c9a66";
- uuid = new dojox.uuid.Uuid(timeBasedUuidString);
- doh.assertTrue(uuid.isValid());
- doh.assertTrue(uuid.getVariant() == dojox.uuid.variant.DCE);
- doh.assertTrue(uuid.getVersion() == dojox.uuid.version.TIME_BASED);
- doh.assertTrue(uuid.getNode() == "0800200c9a66");
- var timestamp = uuid.getTimestamp();
- var date = uuid.getTimestamp(Date);
- var dateString = uuid.getTimestamp(String);
- var hexString = uuid.getTimestamp("hex");
- var now = new Date();
- doh.assertTrue(timestamp.valueOf() == date.valueOf());
- doh.assertTrue(hexString == "1da86cdb4308fb0");
- doh.assertTrue(timestamp < now);
- },
-
- function test_uuid_generators(){
- var generators = [
- dojox.uuid.generateNilUuid,
- dojox.uuid.generateRandomUuid,
- dojox.uuid.generateTimeBasedUuid
- ];
-
- for(var i in generators){
- var generator = generators[i];
- var uuidString = generator();
-
- doh.assertTrue((typeof uuidString) == 'string');
- dojox.uuid.tests.uuid.checkValidityOfUuidString(uuidString);
-
- var uuid = new dojox.uuid.Uuid(uuidString);
- if(generator != dojox.uuid.generateNilUuid){
- doh.assertTrue(uuid.getVariant() == dojox.uuid.variant.DCE);
- }
-
- doh.assertTrue(uuid.isEqual(uuid));
- doh.assertTrue(uuid.compare(uuid) == 0);
- doh.assertTrue(dojox.uuid.Uuid.compare(uuid, uuid) == 0);
- dojox.uuid.tests.uuid.checkValidityOfUuidString(uuid.toString());
- doh.assertTrue(uuid.toString().length == 36);
-
- if(generator != dojox.uuid.generateNilUuid){
- var uuidStringOne = generator();
- var uuidStringTwo = generator();
- doh.assertTrue(uuidStringOne != uuidStringTwo);
-
- dojox.uuid.Uuid.setGenerator(generator);
- var uuidOne = new dojox.uuid.Uuid();
- var uuidTwo = new dojox.uuid.Uuid();
- doh.assertTrue(generator === dojox.uuid.Uuid.getGenerator());
- dojox.uuid.Uuid.setGenerator(null);
- doh.assertTrue(uuidOne != uuidTwo);
- doh.assertTrue(!uuidOne.isEqual(uuidTwo));
- doh.assertTrue(!uuidTwo.isEqual(uuidOne));
-
- var oneVsTwo = dojox.uuid.Uuid.compare(uuidOne, uuidTwo); // either 1 or -1
- var twoVsOne = dojox.uuid.Uuid.compare(uuidTwo, uuidOne); // either -1 or 1
- doh.assertTrue(oneVsTwo + twoVsOne == 0);
- doh.assertTrue(oneVsTwo != 0);
- doh.assertTrue(twoVsOne != 0);
-
- doh.assertTrue(!uuidTwo.isEqual(uuidOne));
- }
-
- if(generator == dojox.uuid.generateRandomUuid){
- doh.assertTrue(uuid.getVersion() == dojox.uuid.version.RANDOM);
- }
-
- if(generator == dojox.uuid.generateTimeBasedUuid){
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(uuid.toString());
- doh.assertTrue(uuid.getVersion() == dojox.uuid.version.TIME_BASED);
- doh.assertTrue(dojo.isString(uuid.getNode()));
- doh.assertTrue(uuid.getNode().length == 12);
- var timestamp = uuid.getTimestamp();
- var date = uuid.getTimestamp(Date);
- var dateString = uuid.getTimestamp(String);
- var hexString = uuid.getTimestamp("hex");
- doh.assertTrue(date instanceof Date);
- doh.assertTrue(timestamp.valueOf() == date.valueOf());
- doh.assertTrue(hexString.length == 15);
- }
- }
- },
-
- function test_uuid_nilGenerator(){
- var nilUuidString = '00000000-0000-0000-0000-000000000000';
- var uuidString = dojox.uuid.generateNilUuid();
- doh.assertTrue(uuidString == nilUuidString);
- },
-
- function test_uuid_timeBasedGenerator(){
- var uuid; // an instance of dojox.uuid.Uuid
- var string; // a simple string literal
- var generator = dojox.uuid.generateTimeBasedUuid;
-
- var string1 = generator();
- var uuid2 = new dojox.uuid.Uuid(generator());
- var string3 = generator("017bf397618a"); // hardwareNode
- var string4 = generator("f17bf397618a"); // pseudoNode
- var string5 = generator(new String("017BF397618A"));
-
- dojox.uuid.generateTimeBasedUuid.setNode("017bf397618a");
- var string6 = generator(); // the generated UUID has node == "017bf397618a"
- var uuid7 = new dojox.uuid.Uuid(generator()); // the generated UUID has node == "017bf397618a"
- var returnedNode = dojox.uuid.generateTimeBasedUuid.getNode();
- doh.assertTrue(returnedNode == "017bf397618a");
-
- function getNode(string){
- var arrayOfStrings = string.split('-');
- return arrayOfStrings[4];
- }
- dojox.uuid.tests.uuid.checkForPseudoNodeBitInTimeBasedUuidString(string1);
- dojox.uuid.tests.uuid.checkForPseudoNodeBitInTimeBasedUuidString(uuid2.toString());
- dojox.uuid.tests.uuid.checkForPseudoNodeBitInTimeBasedUuidString(string4);
-
- doh.assertTrue(getNode(string3) == "017bf397618a");
- doh.assertTrue(getNode(string4) == "f17bf397618a");
- doh.assertTrue(getNode(string5) == "017bf397618a");
- doh.assertTrue(getNode(string6) == "017bf397618a");
- doh.assertTrue(uuid7.getNode() == "017bf397618a");
-
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(string1);
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(uuid2.toString());
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(string3);
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(string4);
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(string5);
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(string6);
- dojox.uuid.tests.uuid.checkValidityOfTimeBasedUuidString(uuid7.toString());
- },
-
- function test_uuid_invalidUuids(){
- var uuidStrings = [];
- uuidStrings.push("Hello world!"); // not a UUID
- uuidStrings.push("3B12F1DF-5232-1804-897E-917BF39761"); // too short
- uuidStrings.push("3B12F1DF-5232-1804-897E-917BF39761-8A"); // extra '-'
- uuidStrings.push("3B12F1DF-5232-1804-897E917BF39761-8A"); // last '-' in wrong place
- uuidStrings.push("HB12F1DF-5232-1804-897E-917BF397618A"); // "HB12F1DF" is not a hex string
-
- var numberOfFailures = 0;
- for(var i in uuidStrings){
- var uuidString = uuidStrings[i];
- try{
- new dojox.uuid.Uuid(uuidString);
- }catch (e){
- ++numberOfFailures;
- }
- }
- doh.assertTrue(numberOfFailures == uuidStrings.length);
- }
- ]
-);
-
-
-
-/*
-function test_uuid_get64bitArrayFromFloat(){
- // summary:
- // This is a test we'd like to be able to run, but we can't run it
- // because it tests a function which is private in generateTimeBasedUuid
- var x = Math.pow(2, 63) + Math.pow(2, 15);
- var result = dojox.uuid.generateTimeBasedUuid._get64bitArrayFromFloat(x);
- doh.assertTrue(result[0] === 0x8000);
- doh.assertTrue(result[1] === 0x0000);
- doh.assertTrue(result[2] === 0x0000);
- doh.assertTrue(result[3] === 0x8000);
-
- var date = new Date();
- x = date.valueOf();
- result = dojox.uuid.generateTimeBasedUuid._get64bitArrayFromFloat(x);
- var reconstructedFloat = result[0];
- reconstructedFloat *= 0x10000;
- reconstructedFloat += result[1];
- reconstructedFloat *= 0x10000;
- reconstructedFloat += result[2];
- reconstructedFloat *= 0x10000;
- reconstructedFloat += result[3];
-
- doh.assertTrue(reconstructedFloat === x);
-}
-
-function test_uuid_addTwo64bitArrays(){
- // summary:
- // This is a test we'd like to be able to run, but we can't run it
- // because it tests a function which is private in generateTimeBasedUuid
- var a = [0x0000, 0x0000, 0x0000, 0x0001];
- var b = [0x0FFF, 0xFFFF, 0xFFFF, 0xFFFF];
- var result = dojox.uuid.generateTimeBasedUuid._addTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 0x1000);
- doh.assertTrue(result[1] === 0x0000);
- doh.assertTrue(result[2] === 0x0000);
- doh.assertTrue(result[3] === 0x0000);
-
- a = [0x4000, 0x8000, 0x8000, 0x8000];
- b = [0x8000, 0x8000, 0x8000, 0x8000];
- result = dojox.uuid.generateTimeBasedUuid._addTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 0xC001);
- doh.assertTrue(result[1] === 0x0001);
- doh.assertTrue(result[2] === 0x0001);
- doh.assertTrue(result[3] === 0x0000);
-
- a = [7, 6, 2, 5];
- b = [1, 0, 3, 4];
- result = dojox.uuid.generateTimeBasedUuid._addTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 8);
- doh.assertTrue(result[1] === 6);
- doh.assertTrue(result[2] === 5);
- doh.assertTrue(result[3] === 9);
-}
-
-function test_uuid_multiplyTwo64bitArrays(){
- // summary:
- // This is a test we'd like to be able to run, but we can't run it
- // because it tests a function which is private in generateTimeBasedUuid
- var a = [ 0, 0x0000, 0x0000, 0x0003];
- var b = [0x1111, 0x1234, 0x0000, 0xFFFF];
- var result = dojox.uuid.generateTimeBasedUuid._multiplyTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 0x3333);
- doh.assertTrue(result[1] === 0x369C);
- doh.assertTrue(result[2] === 0x0002);
- doh.assertTrue(result[3] === 0xFFFD);
-
- a = [0, 0, 0, 5];
- b = [0, 0, 0, 4];
- result = dojox.uuid.generateTimeBasedUuid._multiplyTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 0);
- doh.assertTrue(result[1] === 0);
- doh.assertTrue(result[2] === 0);
- doh.assertTrue(result[3] === 20);
-
- a = [0, 0, 2, 5];
- b = [0, 0, 3, 4];
- result = dojox.uuid.generateTimeBasedUuid._multiplyTwo64bitArrays(a, b);
- doh.assertTrue(result[0] === 0);
- doh.assertTrue(result[1] === 6);
- doh.assertTrue(result[2] === 23);
- doh.assertTrue(result[3] === 20);
-}
-*/
-
-}