Javascript "hoists" variable declarations, meaning that variable declarations that occur later in code are "hoisted" to the top of their containing scope. This means that:
(function() {
console.log(foo);
if(foo === 'baz') {
var foo = 'qux'
}
});
becomes:
(function() {
var foo;
console.log(foo);
if(foo === 'baz') {
foo = 'qux'
}
});
even though the reassignment/"redeclaration" of foo
is never explicitly run. Adequately Good sums up hoisting far more than adequately.
However, at first glance, our example looks like a case of this question. The trick is that, because functions have their own scope inherited from their containing scopes (in this case, the global one), declaring any variable, even if it exists in the inherited scope, is guaranteed to be undefined
before assignment.
I initially wanted to pose this question because I thought it was the fault of setTimeout
and clearTimeout
that code like this constantly threw Cannot set property 'className' of undefined
:
var timer;
document.getElementById('ele').addEventListener('mousewheel', function() {
var that = this;
clearTimeout(timer);
timer = setTimeout(function() {
that.className = 'foo';
if(false) { //this condition shouldn't have ever been true in my test cases
var that = document.getElementById('otherEle');
setTimeout(function() { /* Things to do with otherEle in 1s */ }, 1000);
}
}, 200);
}, false);
I later found out that the var that
redeclaration was the culprit and, after some research, concluded that hoisting and function scoping were to blame. Still, I don't know if my explanation of scoping was entirely accurate, and would appreciate feedback.