Further expanding on previous answers...
From a general compilers perspective and disregarding VM-specific optimizations:
First, we go through the lexical analysis phase where we tokenize the code.
By way of example, the following tokens may be produced:
: ARRAY_INIT (NUMBER)
[1, foo]: ARRAY_INIT (NUMBER, IDENTIFIER)
new Array: NEW, IDENTIFIER
new Array(): NEW, IDENTIFIER, CALL
new Array(5): NEW, IDENTIFIER, CALL (NUMBER)
new Array(5,4): NEW, IDENTIFIER, CALL (NUMBER, NUMBER)
new Array(5, foo): NEW, IDENTIFIER, CALL (NUMBER, IDENTIFIER)
Hopefully this should provide you a sufficient visualization so you can understand how much more (or less) processing is required.
Based on the above tokens, we know as a fact ARRAY_INIT will always produce an array. We therefore simply create an array and populate it. As far as ambiguity, the lexical analysis stage has already distinguished ARRAY_INIT from an object property accessor (e.g.
obj[foo]) or brackets inside strings/regex literals (e.g. "foobar" or //)
This is miniscule, but we also have more tokens with
Once we've located the variable declaration, we invoke the constructor.
new Array is an implicit function call, and the rule of thumb is that function calls are slower during execution (hence why static C/C++ compilers allow "function inlining" - which JS JIT engines such as SpiderMonkey have to do on-the-fly)
Array constructor is overloaded. The Array constructor is implemented as native code so it provides some performance enhancements, but it still needs to check for arguments length and act accordingly. Moreover, in the event only one argument is supplied, we need to further check the type of the argument. new Array("foo") produces ["foo"] where as new Array(1) produces [undefined]
So to simplify it all: with array literals, the VM knows we want an array; with
new Array, the VM needs to use extra CPU cycles to figure out what
new Array actually does.
is equivelent to
new Array()in terms of source code, not objects returned form expressions