Is JSON the Object itself or the String of an Object? - javascript

The question speaks for itself. JSON isn't a type. You have the function JSON.stringify(object). My opinion is that the resulting String from this function is JSON, not the object which is stringified. And if that is true JSON would be a String ?

JSON (JavaScript Object Notation) is a way to format object data as a string. You are correct in saying JSON is not a type. JSON.stringify(object) takes an object and returns a string. The string will contain the data of the object, but in a human-readable form.
So JSON is the string of an object.

JSON(JavaScript Object Notation) is a file-format that uses human-readable text.
In the following snippet, you can see that I created a JavaScript object (object) then I used JSON.stringify(object) to get the JSON version (string). typeof is used to show you the type of the element next to it.
typeof object will give you the type of object
You can also notice that there are some changes. For example, properties names are wrapped with double quotes " ", the values are wrapped with double quotes instead of simple,...
const object = {
propertyA : "This is my value A",
propertyB : [1,2,3],
propertyC : {test: 'Nice'}
};
console.log(typeof object);
console.log(JSON.stringify(object));
console.log(typeof JSON.stringify(object));

JSON is a Objects Notation (serialised), but JSON has specifice characteristics that it can be converted into/from specific syntax of String (for usage into different languages/platforms or for data transfer into different systems).
In javaScript :
to convert syntactically_correct_string to JSON we use JSON.parse(inputStringHere),
and to convert a JSON into String we use JSON.stringify(inputJSONobject).

Related

what is the main difference between JS object and JSON? [duplicate]

Can someone tell me what is the main difference between a JavaScript object defined by using Object Literal Notation and JSON object?
According to a JavaScript book it says this is an object defined by using Object Notation:
var anObject = {
property1 : true,
showMessage : function (msg) { alert(msg) }
};
Why isn't it a JSON object in this case? Just because it is not defined by using quotation marks?
Lets clarify first what JSON actually is. JSON is a textual, language-independent data-exchange format, much like XML, CSV or YAML.
Data can be stored in many ways, but if it should be stored in a text file and be readable by a computer, it needs to follow some structure. JSON is one of the many formats that define such a structure.
Such formats are typically language-independent, meaning they can be processed by Java, Python, JavaScript, PHP, you name it.
In contrast, JavaScript is a programming language. Of course JavaScript also provides a way to define/describe data, but the syntax is very specific to JavaScript.
As a counter example, Python has the concept of tuples, their syntax is (x, y). JavaScript doesn't have something like this.
Lets look at the syntactical differences between JSON and JavaScript object literals.
JSON has the following syntactical constraints:
Object keys must be strings (i.e. a character sequence enclosed in double quotes ").
The values can be either:
a string
a number
an (JSON) object
an array
true
false
null
Duplicate keys ({"foo":"bar","foo":"baz"}) produce undefined, implementation-specific results; the JSON specification specifically does not define their semantics
In JavaScript, object literals can have
String literals, number literals or identifier names as keys (since ES6, keys can now also be computed, which introduces yet another syntax).
The values can be any valid JavaScript expression, including function definitions and undefined.
Duplicate keys produce defined, specified results (in loose mode, the latter definition replaces the former; in strict mode, it's an error).
Knowing that, just by looking at the syntax, your example is not JSON because of two reasons:
Your keys are not strings (literals). They are identifier names.
You cannot assign a function as a value to a "JSON object" (because JSON doesn't define any syntax for functions).
But most importantly, to repeat my explanation from the beginning: You are in a JavaScript context. You define a JavaScript object. If any, a "JSON object" can only be contained in a string:
var obj = {foo: 42}; // creates a JavaScript object (this is *not* JSON)
var json = '{"foo": 452}'; // creates a string containing JSON
That is, if you're writing JavaScript source code, and not dealing with a string, you're not dealing with JSON. Maybe you received the data as JSON (e.g., via ajax or reading from a file), but once you or a library you're using has parsed it, it's not JSON anymore.
Only because object literals and JSON look similar, it does not mean that you can name them interchangeably. See also There's no such thing as a "JSON Object".
JSON has a much more limited syntax including:
Key values must be quoted
Strings must be quoted with " and not '
You have a more limited range of values (e.g. no functions allowed)
There is really no such thing as a "JSON Object".
The JSON spec is a syntax for encoding data as a string. What people call a "JSON Object" ( in javascript ) is really just an ordinary javascript object that has (probably) been de-serialized from a valid JSON string, and can be easily re-serialized as a valid JSON string. This generally means that it contains only data ( and not functions ). It also means that there are no dates, because JSON does not have a date type ( probably the most painful thing about JSON ;)
Furthermore, (side-rant...) when people talk about a "JSON Object", they almost always mean data that has the "curly-braces" at the top-level. This corresponds nicely to a javascript object. However, the JSON spec does not require that there be a single "curly-braces" object at the top-level of a JSON string. It is perfectly valid JSON to have a list at the top-level, or even to have just a single value. So, while every "JSON Object" corresponds to valid JSON, not all valid JSON strings correspond to what we would call a "JSON Object"! ( because the string could represent a list or an atomic value )
According to JSON in JavaScript,
JSON is a subset of the object
literal notation of JavaScript.
In other words, valid JSON is also valid JavaScript object literal notation but not necessarily the other way around.
In addition to reading the documentation, as #Filix King suggested, I also suggest playing around with the JSONLint online JSON validator. That's how I learned that the keys of JSON objects must be strings.
🔫 JSON: The Fat-Free Alternative to XML
JSON has been widely adopted by people who found that it made it a lot easier to produce distributed applications and services. The official Internet media type for JSON is application/json RFC 4627. JSON filenames use the extension .json.
â–º JavaScript Object Notation (JSON) is a lightweight, text-based, language-independent data interchange format. JSON has been used to exchange data between applications written in any Programming language.
The JSON object is a single object that contains two functions, parse and stringify, that are used to parse and construct JSON texts.
JSON.stringify produces a String that conforms to the following JSON grammar.
JSON.parse accepts a String that conforms to the JSON grammar.
The parseJSON method will be included in the Fourth Edition of ECMAScript. In the meantime, a JavaScript implementation is available at json.org.
var objLiteral = {foo: 42}; // JavaScript Object
console.log('Object Literal : ', objLiteral ); // Object {foo: 42}foo: 42__proto__: Object
// This is a JSON String, like what you'd get back from an AJAX request.
var jsonString = '{"foo": 452}';
console.log('JOSN String : ', jsonString ); // {"foo": 452}
// This is how you deserialize that JSON String into an Object.
var serverResposnceObject = JSON.parse( jsonString );
console.log('Converting Ajax response to JavaScript Object : ', serverResposnceObject); // Object {foo: 42}foo: 42 __proto__: Object
// And this is how you serialize an Object into a JSON String.
var serverRequestJSON = JSON.stringify( objLiteral );
console.log('Reqesting server with JSON Data : ', serverRequestJSON); // '{"foo": 452}'
JSON is subset of JavaScript. Javascript was derived from the ECMAScript Programming Language Standard.
â–º ECMAScript
ECMAScript has grown to be one of the world's most widely used general purpose programming languages. It is best known as the language embedded in web browsers but has also been widely adopted for server and embedded applications. ECMAScript is based on several originating technologies, the most well-known being JavaScript (Netscape Communications)) and JScript (Microsoft Corporation).). Though before 1994, ECMA was known as "European Computer Manufacturers Association", after 1994, when the organization became global, the "trademark" "Ecma" was kept for historical reasons.
ECMAScript is the language, whereas JavaScript, JScript, and even ActionScript are called "Dialects".
Dialects have been derived from the same language. They are are quite similar to each other as they have been derived from the same language but they have undergone some changes.
A dialect is a variation in the language itself. It is derived from a single language.
SQL Language - Hibernate MySQL Dialect, Oracle Dialect,.. which have some changes or added functionality.
Information about the browser and computer of your users.
navigator.appName // "Netscape"
ECMAScript is the scripting language that forms the basis of JavaScript. JavaScript language resources.
ECMA-262 Links
Initial Edition, June 1997
PDF.
2nd Edition, August 1998
PDF.
3rd Edition, December 1999 PDF.
5th Edition, December 2009 PDF.
5.1 Edition, June 2011 HTML.
6th Edition, June 2015 HTML.
7áµ—Ê° Edition, June 2016 HTML.
8th edition, June 2017 HTML.
9th Edition, 2018 HTML.
NOTE « 4th edition of ECMAScript not published as the work was incomplete.
JSON defines a small set of formatting rules for the portable representation of structured data.
â–º Key values must be quoted, only Strings are allowed for keys. If you use other than String it will convert to String. But not recommended to use keys other than String's. Check an example like this - { 'key':'val' } over RFC 4627 - jsonformatter
var storage = {
0 : null,
1 : "Hello"
};
console.log( storage[1] ); // Hello
console.log( JSON.stringify( storage ) ); // {"0":null,"1":"Hello","2":"world!"}
var objLiteral = {'key1':'val1'};
var arr = [10, 20], arr2 = [ 'Yash', 'Sam' ];
var obj = { k: 'v' }, obj2 = { k2: 'v2' };
var fun = function keyFun() {} ;
objLiteral[ arr ] = 'ArrayVal'; objLiteral[ arr2 ] = 'OverridenArrayVal';
objLiteral[ obj ] = 'ObjectVal'; objLiteral[ obj2 ] = 'OverridenObjectVal';
objLiteral[ fun ] = 'FunctionVal';
console.log( objLiteral );
// Object {key1: "val1", 10,20: "ArrayVal", Yash,Sam: "OverridenArrayVal", [object Object]: "OverridenObjectVal", function keyFun() {}: "FunctionVal"}
console.log( JSON.stringify( objLiteral ) );
// {"key1":"val1","10,20":"ArrayVal","Yash,Sam":"OverridenArrayVal","[object Object]":"OverridenObjectVal","function keyFun() {}":"FunctionVal"}
console.log( JSON.parse( JSON.stringify( objLiteral ) ) );
// Object {key1: "val1", 10,20: "ArrayVal", Yash,Sam: "OverridenArrayVal", [object Object]: "OverridenObjectVal", function keyFun() {}: "FunctionVal"}
console.log('Accessing Array Val : ', objLiteral[ [10,20] ] );
console.log('Accessing Object Val : ', objLiteral[ '[object Object]' ] );
console.log('Accessing Function Val : ', objLiteral[ 'function keyFun() {}' ] );
â–º JSON Strings must be quoted with " and not '. A string is very much like a C or Java string. Strings should be wrapped in double quotes.
Literals are fixed values, not variables, that you literally provide in your script.
A string is a sequence of zero or more characters wrapped in quotes with backslash escapement, the same notation used in most programming languages.
🔫 - Special Symbols are allowed in String but not recomended to use.
" - Special characters can be escaped. But not recomended to escape (') Single Quotes.
In Strict mode it will throw and Error - SyntaxError: Unexpected token ' in JSON
Check with this code { "Hai\" \n Team 🔫":5, "Bye \'": 7 } over online JSON Edtions. Modes notStrict, Strinct.
var jsonString = "{'foo': 452}"; // {'foo': 452}
var jsonStr = '{"foo": 452}'; // {"foo": 452}
JSON.parse( jsonString ); // Unexpected token ' in JSON at position 1(…)
JSON.parse( jsonStr ); // Object {foo: 452}
objLiteral['key'] = 'val'; // Object {foo: 42, key: "val"}
objLiteral.key2 = 'val';
// objLiteral.key\n3 - SyntaxError: Invalid or unexpected token
objLiteral['key\n3'] = 'val'; // Object {"foo": "42", key: "val", key2: "val", "key↵3": "val"}
JSON.stringify( objLiteral ); // {"foo":"42","key":"val","key2":"val","key\n3":"val"}
Object Property accessors provide access to an object's properties by using the dot notation or the bracket notation.
â–º You have a more limited range of values (e.g. no functions allowed). A value can be a string in double quotes, number, boolean, null, object, or array. These structures can be nested.
var objLiteral = {};
objLiteral.funKey = function sayHello() {
console.log('Object Key with function as value - Its outcome message.');
};
objLiteral['Key'] = 'Val';
console.log('Object Literal Fun : ', objLiteral );
// Object Literal Fun : Object {Key: "Val"}Key: "Val"funKey: sayHello()__proto__: Object
console.log( JSON.stringify( objLiteral ) ); // {"Key":"Val"}
â–º JavaScript is the most popular implementation of the ECMAScript Standard.
The core features of Javascript are based on the ECMAScript standard, but Javascript also has other additional features that are not in the ECMA specifications/standard. Every browser has a JavaScript interpreter.
JavaScript is a dynamically typed language. That means you don't have to specify the data type of a variable when you declare it, and data types are converted automatically as needed during script execution.
Literals :
'37' - 7 // 30
'37' + 7 // "377"
+'37' + 7 // 44
+'37' // 37
'37' // "37"
parseInt('37'); // 37
parseInt('3.7'); // 3
parseFloat(3.7); // 3.7
// An alternative method of retrieving a number from a string is with the + (unary plus) operator:
+'3.7' // 3.7
Object literals RFC 7159
An object structure is represented as a pair of curly brackets surrounding zero or more name/value pairs (or members). A name is a
string. A single colon comes after each name, separating the name from the value. A single comma separates a value from a following
name. The names within an object SHOULD be unique.
ECMAScript supports prototype-based inheritance. Every constructor has an associated prototype, and every object created by that constructor has an implicit reference to the prototype (called the object’s
prototype) associated with its constructor. Furthermore, a prototype may have a non-null implicit reference to its prototype, and so on; this is called the prototype chain.
In a class-based object-oriented language, in general, state is carried by instances, methods are carried by classes, and inheritance is only of structure and behavior. In ECMAScript, the state and methods are carried by objects, and structure, behavior, and state are all inherited.
A prototype is an object used to implement structure, state, and behavior inheritance in ECMAScript. When a constructor creates an object, that object implicitly references the constructor’s associated prototype for the purpose of resolving property references. The constructor’s associated prototype can
be referenced by the program expression constructor.prototype, and properties added to an object’s prototype are shared, through inheritance, by all objects sharing the prototype.
As far as I understand the main difference is the flexibility.
JSON is a kind of wrapper on "JavaScript Object Notation" which forces users to obey more strict rules for defining the objects. And it does this by limiting the possible object declaration ways provided by JavaScript Object Notation feature.
As a result we have a simpler and more standardized objects which suits better on data-exchange between platforms.
So basically, the newObject in my example above is an object defined by using JavaScript Objeect Notation; but it is not a 'valid' JSON object because it does not follow the rules that JSON standards require.
This link is also quite helpful:
http://msdn.microsoft.com/en-us/library/bb299886.aspx
For the ones who still think that RFC are more important than blogs and opinion based misconceptions, let's try to answer clarifying some points.
I'm not going to repeat all the correct differences already mentioned in previous answers, here I'm just trying adding value summarizing some crucial part rfc7159
Extracts from https://www.rfc-editor.org/rfc/rfc7159
JavaScript Object Notation (JSON) is a text format for the
serialization of structured data. It is derived from the object
literals of JavaScript, as defined in the ECMAScript Programming
Language Standard, Third Edition [ECMA-262].
JSON can represent four primitive types (strings, numbers, booleans,
and null) and two structured types (objects and arrays).
An object is an unordered collection of zero or more name/value
pairs, where a name is a string and a value is a string, number,
boolean, null, object, or array.
begin-object = ws %x7B ws ; { left curly bracket
end-object = ws %x7D ws ; } right curly bracket
A JSON value MUST be an object, array, number, or string, or one of
the following three literal names: false null true
An object structure is represented as a pair of curly brackets
The names within an object SHOULD be unique.
object = begin-object [ member *( value-separator member ) ]
end-object
An object whose names are all unique is interoperable in the sense
that all software implementations receiving that object will agree on
the name-value mappings. When the names within an object are not
unique, the behavior of software that receives such an object is
unpredictable.
Examples (from page 12 of RFC)
This is a JSON object:
{
"Image": {
"Width": 800,
"Height": 600,
"Title": "View from 15th Floor",
"Thumbnail": {
"Url": "http://www.example.com/image/481989943",
"Height": 125,
"Width": 100
},
"Animated" : false,
"IDs": [116, 943, 234, 38793]
}
}
Its Image member is an object whose Thumbnail member is an object and
whose IDs member is an array of numbers.
There is really no such thing as a "JSON Object".
Really?
First you should know what JSON is:
It is language agnostic data-interchange format.
The syntax of JSON was inspired by the JavaScript Object Literal notation, but there are differences between them.
For example, in JSON all keys must be quoted, while in object literals this is not necessary:
// JSON:
{ "foo": "bar" }
// Object literal:
var o = { foo: "bar" };
The quotes are mandatory on JSON because in JavaScript (more exactly in ECMAScript 3rd. Edition), the usage of reserved words as property names is disallowed, for example:
var o = { if: "foo" }; // SyntaxError in ES3
While, using a string literal as a property name (quoting the property name) gives no problems:
var o = { "if": "foo" };
So for "compatibility" (and easy eval'ing maybe?) the quotes are mandatory.
The data types in JSON are also restricted to the following values:
string
number
object
array
A literal as:
true
false
null
The grammar of Strings changes. They have to be delimited by double quotes, while in JavaScript, you can use single or double quotes interchangeably.
// Invalid JSON:
{ "foo": 'bar' }
The accepted JSON grammar of Numbers also changes, in JavaScript you can use Hexadecimal Literals, for example 0xFF, or (the infamous) Octal Literals e.g. 010. In JSON you can use only Decimal Literals.
// Invalid JSON:
{ "foo": 0xFF }
Here is one surprising difference: you can not use undefined in json and all object fields with undefined values will disappear after JSON.stringify
let object = { "a": undefined } ;
let badJSON= '{ "a": undefined }';
console.log('valid JS object :', object );
console.log('JSON from object:', JSON.stringify(object) );
console.log('invalid json :', JSON.parse(badJSON) );
🙈🙉🙊
Javascript Object Literal vs JSON:
Object literal syntax is a very convenient way to create javascript objects
The JSON language, which stands for 'Javascript object notation', has its syntax derived from javascript object literal syntax. It is used as a programming language independent textual data transfer format.
Example:
JS object notation, used in JS to create objects in the code conveniently:
const JS_Object = {
1: 2, // the key here is the number 1, the value is the number 2
a: 'b', // the key is the string a, the value is the string b
func: function () { console.log('hi') }
// the key is func, the value is the function
}
Example of JSON:
{"widget": {
"debug": "on",
"window": {
"title": "Sample Konfabulator Widget",
"name": "main_window",
"width": 500,
"height": 500
},
"image": {
"src": "Images/Sun.png",
"name": "sun1",
"hOffset": 250,
"vOffset": 250,
"alignment": "center"
},
"text": {
"data": "Click Here",
"size": 36,
"style": "bold",
"name": "text1",
"hOffset": 250,
"vOffset": 100,
"alignment": "center",
"onMouseUp": "sun1.opacity = (sun1.opacity / 100) * 90;"
}
}}
Main differences:
All object keys in JSON must be strings. In Javascript object keys can be strings or numbers
All strings in JSON must be quoted in "double quotes". Whereas in Javascript both single quotes and double quotes are allowed. Even with no quotes in the Javascript object notation the object keys are implicitly casted to strings.
In JSON a function cannot be defined as a value of an object (since this is Javascript specific). In Javascript this is completely legal.
Javascript build in JSON object:
JSON objects can be easily converted to Javascript and vice versa using the built in JSON object which Javascript offers in its runtime. For example:
const Object = {
property1: true,
property2: false,
}; // creating object with JS object literal syntax
const JSON_object = JSON.stringify(Object); // stringify JS object to a JSON string
console.log(JSON_object); // note that the (string) keys are in double quotes
const JS_object = JSON.parse(JSON_object); // parse JSON string to JS object
console.log(JS_object.property1, JS_object.property2);
// accessing keys of the newly created object

Is there any use value to using the toString method on a string?

I can't figure out how the toString method could possibly be of any use when used on a string. A string is already a string and by its very nature it returns the value of the string.
This...
console.log("Hello"); // => "Hello"
console.log(typeof "Hello"); // => string
Seems exactly the same as this...
console.log("Hello".toString()); // => "Hello"
console.log(typeof "Hello".toString()); // => string
If toString converts something to a string and returns it's value as a string and a string is a string and returns the value of a string I can only conclude that this method is totally meaningless. Am I missing something?
Note: "What is the difference between string literals and String objects in JavaScript?" and "Is there any use value to using the toString method on a string?" are clearly not the same question so I don't think this should be considered a duplicate.
There might be a misunderstanding.
Strings are primitive values, that is, they are not object. And thus they don't have methods.
However, some primitive values can be wrapped in analogous objects. it's the case of booleans, numbers and strings.
When you attempt to use one of these primitive values as an object, e.g. calling a method, the following happens under the hood:
An object wrapper (in this case, a string object) is created
The property is read/written in that object
No reference to that object is stored anywhere, and thus it's usually garbage collected
Therefore, yes, using toString method on a string primitive is usually useless, because it only converts it to an object string under the hood, and the method converts the string object back to a string primitive.
However, that's not the case when you have a string object, because you may want to convert it to a string primitive:
var obj = new String('hello');
typeof obj; // 'object'
var str = obj.toString();
typeof str; // 'string'
A case in which toString used on a string primitive is when you have replaced it with a custom function (not recommended):
String.prototype.toString = function() { return '[' + this + ']' };
'hello'.toString(); // "[hello]"
String object and String literal are two different things. Read more about it here:
What is the difference between string literals and String objects in JavaScript?

What's the difference in using toString() compared to JSON.stringify()?

In both the cases I get in output the content of the object:
alert(JSON.stringify(obj));
or
alert(obj.toString());
so... what's the difference? what are the advantages or disadvantages of each one?
Are there practical examples to show the difference?
Unless you have a custom object with custom .toString method returning JSON.stringify of that object, there is no obj that would give obj.toString() == JSON.stringify(obj).
When obj is an array like [1,2,3] then .toString() gives:
"1,2,3"
And JSON.stringify:
"[1,2,3]"
These are close but not quite the same, the JSON serialized one has no ambiguity with commas and directly runs as Javascript or can be parsed as JSON.
See:
["1,",2,3].toString();
//"1,,2,3" ... so you can't just split by comma and get original array
//it is in fact impossible to restore the original array from this result
JSON.stringify(["1,",2,3])
//'["1,",2,3]'
//original array can be restored exactly
for an object say
obj = { a: 'a', '1': 1 }
obj.toString() gives
"[object Object]"
JSON.stringify(obj) gives
"{"1":1,"a":"a"}"
For .toString(), a default value is returned when the argument type is an object. JSON.stringify on the other hand returns JSON text, which can be converted back into a JSON object by using JSON.parse
As you might have noticed, while you tried (hopefully), calling .toString() which any object inherits (*) from Object.prototype.toString(), returns [object Object].
Thats how its defined internally, returning the internal [Class] name from an object. Of course, other objects can override this method (remember, its just originally defined on the prototype chain) and return pretty much anything.
JSON.stringify() on the other hand, is a method of the JSON object, which kind of serializes an object structure into a string version. Hence, Javascript Object Notation, it will describe an object with all nested structures in pure ascii string.
(*) exception: objects created with Object.create(null);
You can use the replacer and space parameter in JSON.stringify, passing the replacer argument as a function you can modify the object and space parameter helps you to give extra space before every key value pair.
const replacer = (key, value) => {
// Filtering out properties
if (typeof value === 'number') {
return 1;
}
return value;
},
foo = {
country: 'India',
state: 'Gujarat',
district: 45,
cm: 'car',
am: 7
},
result = JSON.stringify(foo, replacer);
console.log(result) // {"country":"India","state":"Gujarat","district":1,"cm":"car","am":1}
Space argument -
const obj = { a : 1, b:2};
const obj_str = JSON.stringify(obj, null, ' ');// '\t' gives one tab
console.log(obj_str)
For more details you can visit this link.

Perform a `typeof JSON` comparison

I have a method that receives something and it needs to determine the type of the received value. I can use the typeof thing to perform regular comparisons like if it is a number or a string. But how can I do this for JSON objects? Comparing them with JSON brings up the error:
Uncaught TypeError: Expecting a function in instanceof check, but got #< Object>
So I guess that comparing a JSON object type with JSON is not the way?
The original code is like:
check = (what) ->
if what instanceof JSON
alert "Yooo"
check({compare: "me"})
The type will be object, not JSON. To see what you're working with, you can check if it has the properties you're looking for. Check the length, or if it has specific keys.
Here's a pretty good informational page on working with JSON. JSON in JavaScript
JSON stands for JavaScript Object notation and is simply a name for how object literals are written in JavaScript it is not a type.
var a = {"foo":"My foo","bar" : 4};
var b = {"foo":"My foo","bar" : 0};
var c = {"foo":"My c foo","barella" : -1};
var d = '{"baz":"My baz","bar" : 4}';
a,b,c and d are all objects the first three of type object the fourth of type string. You could from a type theoretic point of view say that the first two have the same type. If you did eval("var e =" + d) then the string would be in d would be evaluated and since d is an object serialized to JSON the result would be a valid object that would be assigned to e.
in other words JSON is no type it's part of the JavaScript grammar, the result of evaluating JSON is an object and the type of that object will vary depending on the object literal. using typeof on such an object will yield "object" (regards less of the type theoretic type of the object).
If you wish to test and object against a specific type you would therefor have to test it for all the expected properties and methods
class JSON
constructor: (#data) ->
get: (key) ->
#data[key]
set: (key, value) ->
#data[key] = value
a = new JSON "foo":"My foo", "bar" : 4
a.get('foo')
a.data.foo
a.data['foo']
console.log(a instanceof JSON)
:D You really shouldn't be doing this though, at least not to create a JSON type. But it's possible that you can create your own wrapper for pretty much anything. Combining this with the Object.defineProperty to setup getters and setters based on #data, you could do some powerful stuff. It doesn't have method_missing methods, but you can achieve similar results with Object.defineProperty
First type of return string, second, there is no such thing as Type JSON in type of possible return values. see the this page for detail
in your case you will receive "object".

Javascript - .toJSON

I am a newbie to JSON & hence I am not sure what $.toJSON(params) means.
Please explain what this does.
It could be this jQuery plugin
var myObj = {};
myObj.propA = "a";
myObj.propB = "b";
myObj.propC = "c";
var jsonString = $.toJSON(myObj); // same as jQuery.toJSON(myObj)
// output: '{ "propA" : "a", "propB" : "b", "propC" : "c" }'
See: http://www.json.org/js.html
A JSON stringifier goes in the opposite direction, converting JavaScript data structures into JSON text. JSON does not support cyclic data structures, so be careful to not give cyclical structures to the JSON stringifier.
var myJSONText = JSON.stringify(myObject, replacer);
If the stringify method sees an object that contains a toJSON method, it calls that method, and stringifies the value returned. This allows an object to determine its own JSON representation.
The stringifier method can take an optional array of strings. These strings are used to select the properties that will be included in the JSON text.
The stringifier method can take an optional replacer function. It will be called after the toJSON method (if there is one) on each of the values in the structure. It will be passed each key and value as parameters, and this will be bound to object holding the key. The value returned will be stringified.
So if you have a $.toJSON() method, it could be a badly implemented function to "stringify", or it could be a method that returns the "JSON Representation" of $
It passes the variable params as an argument to the method named toJSON attached to the object stored in the (unhelpfully named) variable $.
Based on the name, it probably converts the contents of the params variable to a String formatted according to the JSON specification.

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