Your code is fine, but Andy's answer is misleading because it confuses the scope chain with execution context and, by extension, call stack.
Execution context is different and separate from the scope chain in that it is constructed at the time a function is invoked (whether directly –
func(); – or as the result of a browser invocation, such as a timeout expiring). The execution context is composed of the activation object (the function's parameters and local variables), a reference to the scope chain, and the value of
The call stack can be thought of as an array of execution contexts. At the bottom of the stack is the global execution context. Each time a function is called, its parameters and
this value are stored in a new 'object' on the stack.
If we were to change your
onRender function to simply call itself (
this.onRender()), the stack would quickly overflow. This is because control would never leave each successive
onRender function, allowing its execution context to be popped off the call stack. Instead, we go deeper and deeper with each
onRender waiting for the next
onRender to return, in an infinite cycle broken only when the stack overflows.
However, with a call to
setTimeout, control returns immediately and thus is able to leave the
onRender function, causing its execution context to be popped off the stack and discarded (to be freed from memory by the GC).
When the timeout expires, the browser initiates a call to
onRender from the global execution context; the call stack is only two deep. There is a new execution context – which by default would inherit the global scope as its
this value; that's why you have to
bind to your
Renderer object – but it still includes the original scope chain that was created when you first defined
As you can see, you're not creating infinite closures by recursion because closures (scope chains) are created at function definition, not at function invocation. Furthermore, you're not creating infinite execution contexts because they are discarded after
We can make sure you're not leaking memory by testing it. I let it run 500,000 times and didn't observe any leaking memory. Note that the maximum call stack size is around 1,000 (varies by browser), so it's definitely not recursing.