There are virtual practice interviews available with some job sites if you can bring yourself to try them. I have no personal experience of them, but it might be a first step
Not quite the same as the real thing as they are over Skype or similar, but might be helpful.
The job interview: it's part deal-negotiation, part sales - they're working with a budget, and probably going to buy, you gotta sell yourself to beat your competition (probably won't be hard) and try to work with their budget.
So I suppose my problem is: I feel like there is a big risk in putting that certain something on my resume to let people know what I can do, if I am going to go into an interview and bomb it because I am way too nervous
I think that most interviewers are willing to accept nervousness (though this acceptance reduces with the age/experience of the applicant, i.e. a 40 year industry vet gets less leeway than a straight-out-of-uni-grad)
OK - got it. I suppose the risk, then, is that they won't believe it's your work. Do you have prior evidence that you will freeze as you suspect, I wonder?
I think Fizzy is right, people will accept nerves - I certainly did when I was interviewing. You could even pre-warn HR if you think your nerves will be debilitating, they may even change processes / environment (not necessarily, of course)
@JRichardSnape I suppose that's it, yes -- I fear that I won't be showing what I am capable of doing. I don't want to walk away having them not believing me or something. And yes, plenty of past evidence, sadly.
I don't think the lack of formal CS is a problem - I also had no CS and went straight into a graduate software dev role. But I haven't been for a straight software dev interview since, so can't give directly applicable contemporary advice
Honestly, I don't think the bar is too high there either. I personally like to track quality of resume style. It's amazing that some of them have inconsistent style and formatting.
It's like, "here's a multi-page example of the quality of work you can expect from me." and it's - substandard.
I remember going back in forth a bit on whether he was truly evil or not during my first read through....granted I think I was like 13 at the time so I'm not sure how great my reasoning skills were
I think if the generator-y way of looking at things were in Python from the start we'd probably have had something like islice in the default namespace, so it's not an unreasonable thing to want.
So I'm using the watchdog library and that's why my program failed. The file was still being uploaded when I handled the file. I'm not sure how to determine a fully 'uploaded' state.
I'm a moron.. But here it breaks down to sillyness - it depends simply on what you define as "statement", in python a single statement/line can do already so many magical things.
In basics in python for looping also loops over it's range, untill it encounters a stop-condition (StopIterationError if I'm correct - it's in python's docs when googling __iter__). - so yesyou're correct.
@MarcusS uh actually internally it still takes n+1 operations (it goes on till an out-of-range exception occurs). It's just that the "+1" is negligible and never noted.
but i just wanted to clear this one, i believe the reason my lecturer was doing this is to slowly transition from when constants make a difference to when they are completely irrelevant
but there are times when the constants can be relevant didn't go too much into that tho
if i have a function which loops through a string say 'hello' and a randomly generated letter from a list of strings was assigned to a variable, then for i in 'hello' if random string == i, return True
would that be best case in big-o
and worst case is if the randomly generated string never equalled any of the characters in the string
To my understanding, in practice, "best case" just means "if you arranged your input in such a way that your algorithm would terminate as soon as possible", "worst case" means the input is arranged so the algorithm would take as long as possible -- and "average" case is how well it runs on a typical input (usually randomized)
Sure, but I mean if we're going to be talking about O definitions, may as well be explicit. I think it's something like "f(x) is O(g(x)) if there exists some positive real c such that f(x) <= c*g(x) for all x>=x_0"
IE for numerical analysis it's used way more explicitly; and through that I learned it much better than any programming teacher ever tried to explain. - Cause there the big oh is used without short-cuts and it's power as mathematical tool really shines.
@F4z Do you have already educations limit theory/the fundamental theory of calculus?
Any calculus course or book that actually goes for understanding beyond arithmetics opens with limits.
Always surprises me how little calculus computer scientist get. (Also at uni when I as engineering student talk in the pub with someone from the CS department that often gives me surprises).
the thing is if I do math in university, to my understanding I'd be really far behind because I had the option to do math at high school but choose not to because I thought I'd not really need it, i.e. advanced math but I've been avoiding math and now I'd love to learn it
@JGreenwell Well it's cause that's easier :p - but formally the derivative is defined as the opposite of the integral (which follows from limit theorem).
uh at (technical) universities here limit theorem is always 2nd week. With the first week being "hey I'm your prof, and I hoped your highschool teachers have thought you about this this and this, if not here are some pointers to update your knowledge" .
@MarcusS I still open it like every month.. contains everything for calculus you'll need.
But any uni has it's own bookstore right?
They always have a calculus book they use for education
just curious, is there a book where it teaches you the absolute basic to advanced algebra? like rearranging combining like terms etc.? i'd like to know one
@F4z Well it means that around me there aren't any "refreshers" or other books/courses, since you have to fully understand algebra before you're even allowed to graduate from highschool.
interesting, I guess I'll have to do my own research, find books and read, I don't think I'd need anything like this unless I was studying algorithms and other math related stuff
but I still want to just so I can do it
anyway see you guys, thanks for the tips and helping hand :D
@JGreenwell Well once you have calculus under your belt the rest comes "easy".
Linear algebra: different but not "hard" (and once you understand it, you understand why we have computers in the first place - those are just too good at solving linear algebra problem)s.
Differential calculus: ok this is annoying, the bane of my existence. But any physical real world problem - and at least over a dozen programming problems can be written really quickly as a differential equation. This just requires practice to get good at..
Numerical algebra: Kind of hard since it requires both good knowledge of computers/algorithm complexities and calculus. - But once you have that you can solve any problem thrown at you. Oh and it's basically good significance management.
yep, I am personally on the "everyone should know calculus" boat but the current policy here, in the US, seems to be to draw the line at simple statistics