/*!
SerializeJSON jQuery plugin.
https://github.com/marioizquierdo/jquery.serializeJSON
version 3.2.0 (Dec, 2020)
Copyright (c) 2012-2021 Mario Izquierdo
Dual licensed under the MIT (http://www.opensource.org/licenses/mit-license.php)
and GPL (http://www.opensource.org/licenses/gpl-license.php) licenses.
*/
(function (factory) {
/* global define, require, module */
if (typeof define === "function" && define.amd) { // AMD. Register as an anonymous module.
define(["jquery"], factory);
} else if (typeof exports === "object") { // Node/CommonJS
var jQuery = require("jquery");
module.exports = factory(jQuery);
} else { // Browser globals (zepto supported)
factory(window.jQuery || window.Zepto || window.$); // Zepto supported on browsers as well
}
}(function ($) {
"use strict";
var rCRLF = /\r?\n/g;
var rsubmitterTypes = /^(?:submit|button|image|reset|file)$/i;
var rsubmittable = /^(?:input|select|textarea|keygen)/i;
var rcheckableType = /^(?:checkbox|radio)$/i;
$.fn.serializeJSON = function (options) {
var f = $.serializeJSON;
var $form = this; // NOTE: the set of matched elements is most likely a form, but it could also be a group of inputs
var opts = f.setupOpts(options); // validate options and apply defaults
var typeFunctions = $.extend({}, opts.defaultTypes, opts.customTypes);
// Make a list with {name, value, el} for each input element
var serializedArray = f.serializeArray($form, opts);
// Convert the serializedArray into a serializedObject with nested keys
var serializedObject = {};
$.each(serializedArray, function (_i, obj) {
var nameSansType = obj.name;
var type = $(obj.el).attr("data-value-type");
if (!type && !opts.disableColonTypes) { // try getting the type from the input name
var p = f.splitType(obj.name); // "foo:string" => ["foo", "string"]
nameSansType = p[0];
type = p[1];
}
if (type === "skip") {
return; // ignore fields with type skip
}
if (!type) {
type = opts.defaultType; // "string" by default
}
var typedValue = f.applyTypeFunc(obj.name, obj.value, type, obj.el, typeFunctions); // Parse type as string, number, etc.
if (!typedValue && f.shouldSkipFalsy(obj.name, nameSansType, type, obj.el, opts)) {
return; // ignore falsy inputs if specified in the options
}
var keys = f.splitInputNameIntoKeysArray(nameSansType);
f.deepSet(serializedObject, keys, typedValue, opts);
});
return serializedObject;
};
// Use $.serializeJSON as namespace for the auxiliar functions
// and to define defaults
$.serializeJSON = {
defaultOptions: {}, // reassign to override option defaults for all serializeJSON calls
defaultBaseOptions: { // do not modify, use defaultOptions instead
checkboxUncheckedValue: undefined, // to include that value for unchecked checkboxes (instead of ignoring them)
useIntKeysAsArrayIndex: false, // name="foo[2]" value="v" => {foo: [null, null, "v"]}, instead of {foo: ["2": "v"]}
skipFalsyValuesForTypes: [], // skip serialization of falsy values for listed value types
skipFalsyValuesForFields: [], // skip serialization of falsy values for listed field names
disableColonTypes: false, // do not interpret ":type" suffix as a type
customTypes: {}, // extends defaultTypes
defaultTypes: {
"string": function(str) { return String(str); },
"number": function(str) { return Number(str); },
"boolean": function(str) { var falses = ["false", "null", "undefined", "", "0"]; return falses.indexOf(str) === -1; },
"null": function(str) { var falses = ["false", "null", "undefined", "", "0"]; return falses.indexOf(str) === -1 ? str : null; },
"array": function(str) { return JSON.parse(str); },
"object": function(str) { return JSON.parse(str); },
"skip": null // skip is a special type used to ignore fields
},
defaultType: "string",
},
// Validate and set defaults
setupOpts: function(options) {
if (options == null) options = {};
var f = $.serializeJSON;
// Validate
var validOpts = [
"checkboxUncheckedValue",
"useIntKeysAsArrayIndex",
"skipFalsyValuesForTypes",
"skipFalsyValuesForFields",
"disableColonTypes",
"customTypes",
"defaultTypes",
"defaultType"
];
for (var opt in options) {
if (validOpts.indexOf(opt) === -1) {
throw new Error("serializeJSON ERROR: invalid option '" + opt + "'. Please use one of " + validOpts.join(", "));
}
}
// Helper to get options or defaults
return $.extend({}, f.defaultBaseOptions, f.defaultOptions, options);
},
// Just like jQuery's serializeArray method, returns an array of objects with name and value.
// but also includes the dom element (el) and is handles unchecked checkboxes if the option or data attribute are provided.
serializeArray: function($form, opts) {
if (opts == null) { opts = {}; }
var f = $.serializeJSON;
return $form.map(function() {
var elements = $.prop(this, "elements"); // handle propHook "elements" to filter or add form elements
return elements ? $.makeArray(elements) : this;
}).filter(function() {
var $el = $(this);
var type = this.type;
// Filter with the standard W3C rules for successful controls: http://www.w3.org/TR/html401/interact/forms.html#h-17.13.2
return this.name && // must contain a name attribute
!$el.is(":disabled") && // must not be disable (use .is(":disabled") so that fieldset[disabled] works)
rsubmittable.test(this.nodeName) && !rsubmitterTypes.test(type) && // only serialize submittable fields (and not buttons)
(this.checked || !rcheckableType.test(type) || f.getCheckboxUncheckedValue($el, opts) != null); // skip unchecked checkboxes (unless using opts)
}).map(function(_i, el) {
var $el = $(this);
var val = $el.val();
var type = this.type; // "input", "select", "textarea", "checkbox", etc.
if (val == null) {
return null;
}
if (rcheckableType.test(type) && !this.checked) {
val = f.getCheckboxUncheckedValue($el, opts);
}
if (isArray(val)) {
return $.map(val, function(val) {
return { name: el.name, value: val.replace(rCRLF, "\r\n"), el: el };
} );
}
return { name: el.name, value: val.replace(rCRLF, "\r\n"), el: el };
}).get();
},
getCheckboxUncheckedValue: function($el, opts) {
var val = $el.attr("data-unchecked-value");
if (val == null) {
val = opts.checkboxUncheckedValue;
}
return val;
},
// Parse value with type function
applyTypeFunc: function(name, valStr, type, el, typeFunctions) {
var typeFunc = typeFunctions[type];
if (!typeFunc) { // quick feedback to user if there is a typo or missconfiguration
throw new Error("serializeJSON ERROR: Invalid type " + type + " found in input name '" + name + "', please use one of " + objectKeys(typeFunctions).join(", "));
}
return typeFunc(valStr, el);
},
// Splits a field name into the name and the type. Examples:
// "foo" => ["foo", ""]
// "foo:boolean" => ["foo", "boolean"]
// "foo[bar]:null" => ["foo[bar]", "null"]
splitType : function(name) {
var parts = name.split(":");
if (parts.length > 1) {
var t = parts.pop();
return [parts.join(":"), t];
} else {
return [name, ""];
}
},
// Check if this input should be skipped when it has a falsy value,
// depending on the options to skip values by name or type, and the data-skip-falsy attribute.
shouldSkipFalsy: function(name, nameSansType, type, el, opts) {
var skipFromDataAttr = $(el).attr("data-skip-falsy");
if (skipFromDataAttr != null) {
return skipFromDataAttr !== "false"; // any value is true, except the string "false"
}
var optForFields = opts.skipFalsyValuesForFields;
if (optForFields && (optForFields.indexOf(nameSansType) !== -1 || optForFields.indexOf(name) !== -1)) {
return true;
}
var optForTypes = opts.skipFalsyValuesForTypes;
if (optForTypes && optForTypes.indexOf(type) !== -1) {
return true;
}
return false;
},
// Split the input name in programatically readable keys.
// Examples:
// "foo" => ["foo"]
// "[foo]" => ["foo"]
// "foo[inn][bar]" => ["foo", "inn", "bar"]
// "foo[inn[bar]]" => ["foo", "inn", "bar"]
// "foo[inn][arr][0]" => ["foo", "inn", "arr", "0"]
// "arr[][val]" => ["arr", "", "val"]
splitInputNameIntoKeysArray: function(nameWithNoType) {
var keys = nameWithNoType.split("["); // split string into array
keys = $.map(keys, function (key) { return key.replace(/\]/g, ""); }); // remove closing brackets
if (keys[0] === "") { keys.shift(); } // ensure no opening bracket ("[foo][inn]" should be same as "foo[inn]")
return keys;
},
// Set a value in an object or array, using multiple keys to set in a nested object or array.
// This is the main function of the script, that allows serializeJSON to use nested keys.
// Examples:
//
// deepSet(obj, ["foo"], v) // obj["foo"] = v
// deepSet(obj, ["foo", "inn"], v) // obj["foo"]["inn"] = v // Create the inner obj["foo"] object, if needed
// deepSet(obj, ["foo", "inn", "123"], v) // obj["foo"]["arr"]["123"] = v //
//
// deepSet(obj, ["0"], v) // obj["0"] = v
// deepSet(arr, ["0"], v, {useIntKeysAsArrayIndex: true}) // arr[0] = v
// deepSet(arr, [""], v) // arr.push(v)
// deepSet(obj, ["arr", ""], v) // obj["arr"].push(v)
//
// arr = [];
// deepSet(arr, ["", v] // arr => [v]
// deepSet(arr, ["", "foo"], v) // arr => [v, {foo: v}]
// deepSet(arr, ["", "bar"], v) // arr => [v, {foo: v, bar: v}]
// deepSet(arr, ["", "bar"], v) // arr => [v, {foo: v, bar: v}, {bar: v}]
//
deepSet: function (o, keys, value, opts) {
if (opts == null) { opts = {}; }
var f = $.serializeJSON;
if (isUndefined(o)) { throw new Error("ArgumentError: param 'o' expected to be an object or array, found undefined"); }
if (!keys || keys.length === 0) { throw new Error("ArgumentError: param 'keys' expected to be an array with least one element"); }
var key = keys[0];
// Only one key, then it's not a deepSet, just assign the value in the object or add it to the array.
if (keys.length === 1) {
if (key === "") { // push values into an array (o must be an array)
o.push(value);
} else {
o[key] = value; // keys can be object keys (strings) or array indexes (numbers)
}
return;
}
var nextKey = keys[1]; // nested key
var tailKeys = keys.slice(1); // list of all other nested keys (nextKey is first)
if (key === "") { // push nested objects into an array (o must be an array)
var lastIdx = o.length - 1;
var lastVal = o[lastIdx];
// if the last value is an object or array, and the new key is not set yet
if (isObject(lastVal) && isUndefined(f.deepGet(lastVal, tailKeys))) {
key = lastIdx; // then set the new value as a new attribute of the same object
} else {
key = lastIdx + 1; // otherwise, add a new element in the array
}
}
if (nextKey === "") { // "" is used to push values into the nested array "array[]"
if (isUndefined(o[key]) || !isArray(o[key])) {
o[key] = []; // define (or override) as array to push values
}
} else {
if (opts.useIntKeysAsArrayIndex && isValidArrayIndex(nextKey)) { // if 1, 2, 3 ... then use an array, where nextKey is the index
if (isUndefined(o[key]) || !isArray(o[key])) {
o[key] = []; // define (or override) as array, to insert values using int keys as array indexes
}
} else { // nextKey is going to be the nested object's attribute
if (isUndefined(o[key]) || !isObject(o[key])) {
o[key] = {}; // define (or override) as object, to set nested properties
}
}
}
// Recursively set the inner object
f.deepSet(o[key], tailKeys, value, opts);
},
deepGet: function (o, keys) {
var f = $.serializeJSON;
if (isUndefined(o) || isUndefined(keys) || keys.length === 0 || (!isObject(o) && !isArray(o))) {
return o;
}
var key = keys[0];
if (key === "") { // "" means next array index (used by deepSet)
return undefined;
}
if (keys.length === 1) {
return o[key];
}
var tailKeys = keys.slice(1);
return f.deepGet(o[key], tailKeys);
}
};
// polyfill Object.keys to get option keys in IE<9
var objectKeys = function(obj) {
if (Object.keys) {
return Object.keys(obj);
} else {
var key, keys = [];
for (key in obj) { keys.push(key); }
return keys;
}
};
var isObject = function(obj) { return obj === Object(obj); }; // true for Objects and Arrays
var isUndefined = function(obj) { return obj === void 0; }; // safe check for undefined values
var isValidArrayIndex = function(val) { return /^[0-9]+$/.test(String(val)); }; // 1,2,3,4 ... are valid array indexes
var isArray = Array.isArray || function(obj) { return Object.prototype.toString.call(obj) === "[object Array]"; };
}));
Understanding 1win Token The Future of Online Gaming and Gambling - Anh Vũ MinerSkip to content
Understanding 1win Token: The Future of Online Gaming and Gambling
The rise of cryptocurrency has changed many sectors, with the online gaming and gambling industry being no exception. One of the most exciting recent developments is the introduction of the 1win token. This innovative digital currency is poised to change how players interact with gaming platforms, offering a range of benefits that traditional payment methods cannot match. To delve deeper into the workings of the 1win token and its implications for the future of online gambling, 1win token go through this comprehensive guide.
What is 1win Token?
The 1win token is a decentralized cryptocurrency created to provide users with a seamless experience in online gaming and betting. Built on a blockchain platform, it facilitates fast and secure transactions, ensuring that players can deposit and withdraw funds quickly without the usual delays associated with conventional banking methods. The 1win token aims to enhance user engagement and loyalty by offering rewards and bonuses that traditional fiat currencies cannot provide.
The Technology Behind 1win Token
The 1win token operates on blockchain technology, ensuring transparency and security for its users. Each transaction made with the 1win token is recorded on a public ledger, reducing the risk of fraud and enhancing user trust. The use of smart contracts allows for automated processes that ensure fairness in gaming and betting operations. This technological foundation not only protects the interests of gamers but also positions the 1win token as a reliable currency within the broader cryptocurrency market.
Advantages of Using 1win Token
There are several key advantages to using the 1win token in the online gaming environment:
Speedy Transactions: Traditional payment methods often involve delays. With the 1win token, transactions are processed almost instantly, allowing players to access their funds without waiting.
Lower Fees: Cryptocurrency transactions often incur lower fees compared to credit card or bank transactions, meaning players can retain more of their winnings.
Anonymity and Privacy: Using the 1win token can provide more privacy than traditional banking methods, allowing players to enjoy gaming without exposing their financial information.
Incentives and Rewards: Players using the 1win token may be eligible for exclusive bonuses and promotions that are not available to those using traditional payment methods.
The Role of 1win Token in Gaming Communities
As online gaming continues to evolve, the role of community has become increasingly essential. The 1win token aims to foster a sense of loyalty and engagement among its users. By providing platforms that reward community interaction, such as tournaments or leaderboards, the 1win token can create environments where players feel valued and connected.
Moreover, the use of the 1win token can facilitate peer-to-peer interactions and transactions within gaming communities, enhancing the overall user experience. This integration not only promotes a vibrant gaming culture but also amplifies the effectiveness of marketing strategies, as players are more likely to engage with a platform that values their input.
Challenges and Considerations for 1win Token
While the 1win token presents significant advantages, there are challenges to consider. The volatility of cryptocurrencies is one primary concern. Prices can fluctuate widely in short periods, which may affect player confidence in using the 1win token for betting and gaming activities. Moreover, regulatory concerns surrounding cryptocurrencies vary by jurisdiction, and operators must ensure they comply with local laws to avoid penalties.
Additionally, as the market matures, increased competition from other cryptocurrencies could impact the 1win token’s adoption. It will be essential for the developers and operators behind the 1win token to continually innovate and provide compelling reasons for users to adopt their platform over competitors.
The Future of 1win Token
The future prospects for the 1win token seem promising, especially as more gamers and bettors begin to understand the benefits of cryptocurrency in their transactions. As the gaming landscape evolves, there could be new opportunities for partnerships, integrations with other gaming services, and increased adoption of the 1win token in various sectors beyond gaming.
Ensuring that the 1win token remains relevant will likely involve leveraging technological advancements. Enhanced gaming experiences using virtual reality (VR) and augmented reality (AR) could become more accessible with the 1win token at the forefront, allowing virtual environments where players can interact in real time using their digital currencies.
Conclusion
The emergence of the 1win token signifies a transformative shift in the online gaming and gambling industries. By harnessing the power of blockchain technology, the 1win token has the potential to enhance user experiences through faster transactions, lower fees, and increased privacy. As challenges persist, the success of the 1win token will depend on its ability to innovate and maintain user trust. The future is bright for this cryptocurrency, and it will be exciting to see how it shapes the online gaming landscape in the years to come.
