In Kyle Simpson's book You Don't Know JS: this & Object Prototypes, he writes this on the subject of how to duplicate an object:

One subset solution is that objects which are JSON-safe (that is, can be serialized to a JSON string and then re-parsed to an object with the same structure and values) can easily be duplicated with:

var newObj = JSON.parse( JSON.stringify( someObj ) );

Of course, that requires you to ensure your object is JSON safe. For some situations, that's trivial. For others, it's insufficient.

What is a "JSON-safe" object? I ran a few tests with JavaScript and so far most things (arrays, numbers, strings, objects) can be duplicated using the above line, except for methods (foo.bar), when trying to duplicate a method, undefined is inserted in the method's place in the duplicated object.

  • I assume it means that any value inside the object must be serializable to JSON and back. That's not the case for NaN, +0 vs -0, undefined, functions, Dates or class/constructor instances. Commented Sep 26, 2017 at 1:21
  • @FelixKling Could you post that as an answer (with a bit more elaboration, hopefully) ?
    – doubleOrt
    Commented Sep 26, 2017 at 1:22
  • @FelixKling Aren't Dates and class/constructor instances just functions (in Javascript, at least) ?
    – doubleOrt
    Commented Sep 26, 2017 at 1:26
  • I mean the values you get when you call new Date() and new MyClass(). Those values are not functions. Symbols cannot be serialized to JSON either btw. Commented Sep 26, 2017 at 1:27
  • @FelixKling You are talking about the direct prototype property, not the internal [[prototype]], right ? So, in that regard, RegExp and other built-in JavaScript objects are not eligible either, am i correct ?
    – doubleOrt
    Commented Sep 26, 2017 at 1:31

1 Answer 1


To get foo<=> JSON.parse(JSON.stringify(foo)) as true, we must be able to represent foo in the JSON format.

JSON only supports:

Number: a signed decimal number that may contain a fractional part and may use exponential E notation, but cannot include non-numbers like NaN. The format makes no distinction between integer and floating-point. JavaScript uses a double-precision floating-point format for all its numeric values, but other languages implementing JSON may encode numbers differently.

String: a sequence of zero or more Unicodecharacters. Strings are delimited with double-quotation marks and support a backslash escaping syntax.

Boolean: either of the values true or false

Array: an ordered list of zero or more values, each of which may be of any type. Arrays use square bracket notation with elements being comma-separated.

Object: an unordered collection of name/value pairs where the names (also called keys) are strings. Since objects are intended to represent associative arrays,[12] it is recommended, though not required,[13] that each key is unique within an object. Objects are delimited with curly brackets and use commas to separate each pair, while within each pair the colon ':' character separates the key or name from its value.

null: An empty value, using the word null

In javascript, the concept of JSON safe object basically refers to a javascript object that can be represented in the JSON format without any loss.

  • But, var obj = { x: true }; console.log(obj === JSON.parse(JSON.stringify(obj))); prints out false, although nothing is lost.
    – doubleOrt
    Commented Sep 26, 2017 at 2:23
  • two object-holding variables are only equal if they reference the same variable. So i believe JSON.parse(JSON.stringify(obj)) is never going to be === anything except for a reference to itself.
    – doubleOrt
    Commented Sep 26, 2017 at 2:25
  • Edited from === to equivalence for consistency
    – Vivick
    Commented Sep 26, 2017 at 2:27
  • @Taurus What's that has to do with reference equality ? it is never going to be the same. Just like Felix said - there are some values that can't be 1:1 match like undefined +0 etc.
    – Royi Namir
    Commented Sep 26, 2017 at 2:32
  • 2
    @RoyiNamir OP had this line before their edit (they were saying that nothing must be lost during the duplication process in order for this to evaluate to true): foo === JSON.parse(JSON.stringify(foo)), I was just trying to say no matter what, foo will never be === to the result of JSON.parse(JSON.stringify(foo)).
    – doubleOrt
    Commented Sep 26, 2017 at 2:39

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