The easiest way to work out things like this is to follow the algorithms in the spec. This is what it tells us about
Let desc be the result of calling the [[GetOwnProperty]] internal method of O passing P as the argument.
If desc is undefined, return false.
Return the value of desc.[[Enumerable]].
As you can see, it will call the
[[GetOwnProperty]] internal method of the object in question. That simply returns the value of the specified property from the object itself (not from anything in its prototype chain).
Now let's have a look at the
Return the result of calling the [[HasProperty]] internal method of rval with argument ToString(lval).
And if you look at the
[[HasProperty]] internal method:
Let desc be the result of calling the [[GetProperty]] internal method of O with property name P
And here you can see the difference. The
in operator results in the use of the [
[[GetProperty]] internal method], instead of the
[[GetOwnProperty]] method, and that means it will find properties on objects down the prototype chain.
The other major difference is that you can define non-enumerable properties on an object (with the
Object.defineProperty method). If you define a non-enumerable property, it will be returned by the
in operator, but obviously not by the
propertyIsEnumerable method. Here's a fiddle that demonstrates the difference.