When you do 0[0] , the JS interpreter will turn the first 0 into a Number object and then try to access the [0] property of that object which is undefined .

There is no syntax error because the property access syntax 0[0] is allowed by the language grammar in this context. This structure (using terms in the Javascript grammar) is NumericLiteral[NumericLiteral] .

The relevant part of the language grammar from section A.3 of the ES5 ECMAScript spec is this:

Literal :: NullLiteral BooleanLiteral NumericLiteral StringLiteral RegularExpressionLiteral PrimaryExpression : this Identifier Literal ArrayLiteral ObjectLiteral ( Expression ) MemberExpression : PrimaryExpression FunctionExpression MemberExpression [ Expression ] MemberExpression . IdentifierName new MemberExpression Arguments

So, one can follow the grammer through this progression:

MemberExpression [ Expression ] PrimaryExpression [ Expression ] Literal [ Expression ] NumericLiteral [ Expression ]

And, similarly Expression can also eventually be NumericLiteral so after following the grammar, we see that this is allowed:

NumericLiteral [ NumericLiteral ]

Which means that 0[0] is an allowed part of the grammar and thus no SyntaxError.

Then, at run-time you are allowed to read a property that does not exist (it will just be read as undefined ) as long as the source you are reading from either is an object or has an implicit conversion to an object. And, a numeric literal does indeed have an implicit conversion to an object (a Number object).

This is one of those often unknown features of Javascript. The types Number , Boolean and String in Javascript are usually stored internally as primitives (not full-blown objects). These are a compact, immutable storage representation (probably done this way for implementation efficiency). But, Javascript wants you to be able to treat these primitives like objects with properties and methods. So, if you try to access a property or method that is not directly supported on the primitive, then Javascript will temporarily coerce the primitive into an appropriate type of object with the value set to the value of the primitive.

When you use an object-like syntax on a primitive such as 0[0] , the interpreter recognizes this as a property access on a primitive. Its response to this is to take the first 0 numeric primitive and coerce it into a full-blown Number object which it can then access the [0] property on. In this specific case, the [0] property on a Number object is undefined which is why that's the value you get from 0[0] .

Here is an article on the auto-conversion of a primitive to an object for purposes of dealing with properties:

The Secret Life of Javascript Primitives

Here are the relevant portions of the ECMAScript 5.1 specification:

9.10 CheckObjectCoercible

Throws TypeError if value is undefined or null , otherwise returns true .

11.2.1 Property Accessors

Let baseReference be the result of evaluating MemberExpression. Let baseValue be GetValue(baseReference). Let propertyNameReference be the result of evaluating Expression. Let propertyNameValue be GetValue(propertyNameReference). Call CheckObjectCoercible(baseValue). Let propertyNameString be ToString(propertyNameValue). If the syntactic production that is being evaluated is contained in strict mode code, let strict be true, else let strict be false. Return a value of type Reference whose base value is baseValue and whose referenced name is propertyNameString, and whose strict mode flag is strict.

An operative part for this question is step #5 above.

8.7.1 GetValue (V)

This describes how when the value being accessed is a property reference, it calls ToObject(base) to get the object version of any primitive.

9.9 ToObject

This describes how Boolean , Number and String primitives are converted to an object form with the [[PrimitiveValue]] internal property set accordingly.

As an interesting test, if the code was like this:

var x = null; var a = x[0];