A closure can be thought of as two things being combined together: a particular scope, and a particular point in time (when the function was created).
Sure, magicIngredient is a variable accessible to make(), but what
Anything that was accessible to the scope of
make at the time it was created. This includes all variables in the
make function as well as any higher scopes. The scope of make is said to be closed-over the scope that existed at the point in time it was created, always giving it access to
What if sandwichMaker were itself within a function?
make would have access to that scope (as it existed at the time
make was created) as well.
And then there are the globals. What is the function looking at when it looks
for relevant values within the current scope?
The interpreter will search the currently executing scope for any referenced variables. If it can't find them, it will look in the next higher scope. It will continue looking higher and higher until it finds the variable or runs out of scopes (the global scope is the highest, aka the
A related concept is shadowing - two variables can have the same name in parent/child scopes, the child is said to "shadow" the parent because it will take precedence. Note this is a bad practice.
The easiest way to understand how closures and scoping works is to understand a simple factory pattern, such as this one. When the inner function is created and returned, it is bound to that scope at that point in time and will continue to alert the proper values even after the values no longer exist.
Hope this helped - lots of questions stuffed into one question :)