@JerryCoffin As Jesus said: don't condemn the mud on the skin of your friendly pig(giraffe in the hebrew translation), but rather the hamberder in your mouth.
This is probably my first vegan friendly religious sentence I've ever made.
If humans extinct they have no one else to blame but themselves. They had chance, but they are too dumb, care too much about money and power and lack strategical thinking ability. No one could really think a nuclear bunker could really save humanity - one would just die a lonely, depressed death with no sunshine and limited food resources there.
And no country would ever want less population, because they care too much about GDP, so world population will ALWAYS increase (unless war or disease).
The more population the closer we are at tipping point.
If you clear a vector by calling vector.erase(vector.begin()) until it's empty, is that really quadratic? Because each iteration the size shrinks by one. And that seems to make it quadratic divided by linear, which would make it linear again.
Oh, wait it's just O(n²/2).
Each iteration the size shrinks by one. Average size will be size/2. So it's size * size / 2. I get it now.
No. factorial time is not polynomial time. Polynomial time normally means an equation of the form O(Nk), where N = number of items being processed, and k = some constant. The important part is that the exponent is a constant -- you're multiplying N by itself some number of that's fixed -- not de...
The important part:
So, the base is that processing one item takes .1 ns. In that case, with 20 items:
@towc low-level languages by design typically won't be functional, because low-level coding is all about having explicit machine state
Effects on that global state must thus be as efficient and transparent as possible, not abstracted away. Once you start writing code that pretends that there's no such state, you're not really low-level.
There were old computers designed specifically for Lisp code, called Lisp machines. For them, functional Lisp was indeed low-level, but that's not true for modern architectures.
1958. InMIT AI LabMemo No. 1,McCarthy defined the high-level language Lisp, which was to become LISP the dominant AI programming language for the next 30 years.
@BartekBanachewicz Looks like Lisp was initially designed for cater A.I. purposes.
basically, stick the tool in the chuck, and the item where you normally have the tool, a boom, a bad milling machine
but they aren't really built for that sort of use
like, you could mount a work item in the chuck of a milling machine, and use a lathes cutting tool on the bed. Effectively turning your mill into a vertical lathe
but again, not really built for those sorts of stresses
I mean you're limited in the cut length quite considerably
but still
> Holding a milling cutter with a hardened shank is a real no-no. The jaws of the chuck are are hardened and can not get a good grip on the milling cutter shank because of the very small contact area. The loading of the milling cutter when cutting will suck the cutter out of the chuck and into the work if end milling. This can happen in an instant and if you are lucky just mar the work and not mar you with part of a shattered end mill.
@BartekBanachewicz Yes--you normally want to use a collet to hold a milling cutter. At least on a full-sized lathe, you can normally remove the chuck and install a collet chuck in its place. Biggest problem is that you need a separate collet for each size of milling tool shank, which can get expensive. On the other hand, you need pretty much the same for a vertical mill as well.
@thecoshman A lathe is definitely better for the task. In particular, the bearings in a drill press aren't normally designed to withstand side-loading very well, only end-loading. A milling machine or lathe mostly deals in side loads.