"By at at time, you mean in a particular recursive call? And since the same memory can be used later, we only look at the max size allocated at a time (i.e at the root of the recursion tree)?"
@soulcheck Well, now that I re read your last comment, you might be right. If it does not happen in parallel, but such that it first goes to logn levels in the left most branch, then deallocates for that node and then allocates for the next recursive call, then at a time there are only O(log n) at a time. Is that what you meant in that comment? Sorry about the confusion.
@soulcheck By at at time, you mean in a particular recursive call? And since the same memory can be used later, we only look at the max size allocated at a time (i.e at the root of the recursion tree)? I couldn't understand the other part of the answer. There are O(logn) level but each level makes 2^(levelnumber) recursive calls right? root would need 1 stackframe, but since it makes a recursive call on EACH half, both the halves would require to store in the stack frame making the requirement 2^1 at level 1 and so on at last level, it would be 2^logn?
Could you explain how the size req by stack frames is O(log n)? At every level, no. of recursive calls is 2^j, so shouldn't the number of stack frames be 1 + 2 + 4 + .. + 2^((log n)+1)? I know I am missing something, can't figure it out. Similar is my doubt for extra array space. At level 0, we merge into array of size of n, at level 1 we merge two arrays of size n/2, so total allocation = 2*n/2 = n. So if we analyze this way, it should b n + n (log n times) = (n(log n)) What is the flaw in this analysis of mine?
No. I mean if you can open up the network tab or the live headers plugin, you can find out which backend script (source) is being requested by the AJAX call. You can then load that source inside the crawler.
If you're using Chrome, just load Network tab from Developer Tools, or if you're using FF, load the Live HTTP Headers Plugin. Now, when you hover over the concerned text, you'll notice an AJAX call in the Netword Tab (or the FF plugin), you can then examine the headers and simulate the call using Curl, and therefore, obtain the response.
@R.MartinhoFernandes isn't this the concept used when passing arguments by reference in traditional C? Eg: swap(&x, &y) and the prototype as void swap(int *a, int *b) ?
suppose a function as this: int &a(int &x) { return x; } why can't I do this: int *p = a(x); ie, why can't I store the return value in a pointer? pointers are meant to store addresses and that is what the function is returning?