Why is it so hard to get people to post the full stack trace of their error? Is there anything I can say to make it clear that I don't just want them to post "I get a SyntaxError"?
@poke hey, a friend of mine is doing a talk about Node's worker_threads and he wants to link to your answer in the slides (this one). I told him I'd grey out anything but the title for clarification and he was worried it might upset you and I told him I think just credit in the slide is fine.
It's his first time presenting - and I told him I'd just ask you about it so it's clear-cut. When you feel like letting me know - let me know :)
We're #5 by most asked questions, moving from #6 last time, overtaking jquery. Total views is now at 2.35 Billion (increase of 0.5 Billion in 8 months)! Again, we are very likely (didn't bother with exact calculations since we beat the next competitor by a huge margin) the tag with highest % growth in views (27%).
We're also #4 by total score.
rbrb, gotta have some food after munching on these numbers.
@BenjaminGruenbaum Hey, you can totally link to the answer, I don’t mind :) Not sure what you mean with graying it out, unless the talk’s content is “that answer IS WRONG” I don’t mind being mentioned directly in a talk xD – If you want to gray out stuff to help focus on things for the talk, that’s fine with me too :)
@Jerry not checked sopython.com recently then on recommended tutorial/learning resources? :p
@Jerry over 3 years now - should probably have driven me insane by now, but think that was the starting point to begin with - so who knows where I'm at now :p
@vash_the_stampede it's not gone, but it's consumed. And partly for memory-efficiency, partly for not doing unnecessary calculations when you stop early. Plus there are nice patterns like next(val for val in seq if val%2) for getting the first even number from a sequence
Okay im just getting into using them, Im used to using generator expressions and objects and familiar with how list(g) operates in groupby where its gone after use unless you store it
but its not a end all to replace all list creation we still have to deem if the list is needed for later use but if its not generator object / functions are superior then maintaing an entire list correct?
should we always be looking to take advantage of them, if the list is only being used once, I'm asking so I can implement that in my practices if that is the case
And it returns a list of columns that satisfy the condition
@vash_the_stampede I think generators are often slower. And things like str.join pass their argument twice so putting a listcomp inside is better. That being said I mostly use generators by default
But I rarely write fully fledged generators. I mostly meant genexen
@AndrasDeak so there is a speed loss using generators but save memory, you yourself default to generators
@AndrasDeak but last time if a generator can do the job should it be the preference or its up to the person writing the code, like is there a general consensus on that
@AndrasDeak one more performance question which is not as important, for example in a dice situation with multiple dice, is calling choice[1, 2,...] multiple times faster than using randint(1,2....) multiple times? does randint populate a list then select from it? that would seem to be wasteful to repeat over and over
disclaimer: my opinion on that generator thing is not really based on anything but my own I'd use a generator if I need a result one at a time, and a list if I need that list (i.e. all elements of the list right now at the same time)
If performance is to be looked at, I would say something like, if I need all the numbers from 1 to 1 million, one at a time, a generator would likely be better, otherwise it's going to take a while before I get to see the first result of whatever I'm doing with each number, vs I get to see the first result pretty fast and the next result will probably be delay…
If anyone wants to gain some insight into the pain I felt making my script work in GreaseMonkey: My question about one of the strange things I've encountered has already collected 5 upvotes ...
@Aran-Fey when we use Counter, with a list that contains ints and n amount of sublists [1, 2, [1, 2]] we could flatten this but is there a way to implement counter without flattening ?
I guess technically you can avoid flattening the list if you implement a recursive function that updates your Counter, but... flattening is much easier
@AndrasDeak my sister worked on the documentary on Netflix called the Witness, haha pretty much she was being murdered in NYC, in front of everyone no one helped and there is an experiment that tests this, if you just scream for help you are less likely to get help v if you ask an individual directly they feel more intangled in your distress i suppose :)
That pretty much supports my point. If you just ask your question everyone can go on with their lives if they don't feel like interfering with a homicidal maniac (so to speak). Or they can step up if they are willing enough. My point is to be able to give people the option to choose to help you. The main difference between you and Kitty Genovese is that you are not a victim here, you come here for your own benefit. You objectively come second to the people you ask help from.
lst = [4,6,[1,2],10,[-1,-3]]
new_lst = []
for i in lst:
if type(i) == list:
for j in i:
new_lst.append(j)
else:
new_lst.append(i)
#new_lst = [j for j in i if type(i) == list else i for i in lst] does not work
new_lst = [j if type(i) == list else i for j in i for i in lst] #creates multiples
@vash_the_stampede BTW, you can get rid of that inner loop: if isinstancet(i, list): new_lst.extend(j) It's possible to do this task with a nested listcomp, but it's inefficient & ugly.
[j for row in [u if isinstance(u, list) else [u] for u in lst] for j in row]
It's ugly because the inner listcomp turns non-lists into lists just so the outer listcomp can uniformly flatten everything via the double loop.
But I guess that's just an example of unhomogeneous lists being a PITA to work with. ;)
And if you have to flatten a nested list it's often the case that there's more than one level of nesting. The usual way of handling that is a recursive flattening function.
yeah I was exploring that idea actually of turning the non list into list to flatten it all, I mean one day there has to be a time where you are going to call on me and im going to have the answer :) its coming
A genexp is just a handy way to create a generator, rather than writing a generator function with yield. Or a full class with __iter__ and __next__ methods.
Ultimately, all of those things create the same kind of object, but a genexp is limited compared to a generator function. And that has some limitations compared to a full class.
@vash_the_stampede I find it helpful to think of it as transposition. If you zip a 2D list it generates a tuple of the 1st elements of each row, then the 2nd elements of each row, etc. In other words, it iterates over the columns of the 2D list.
@vash_the_stampede read what zip does, and consider that zip(*[(a,b), (c,d), (e,f)]) is the same as zip((a,b), (c,d), (e,f))`. Write out what zip does on paper. By definition.
I guess you've seen this trick for slicing a sequence into equal sized chunks: zip(*[iter(seq)]*size). If the last chunk is too small it gets lost, but you can use itertools.zip_longest instead of zip to pad it to size.
Wow, I just realized that mpi4py fully sets up MPI on any desktop. I thought it's necessary to install some kind of scheduler in order to run it; turns out pip install mpi4py is all that's needed. So partial sorry to @Thewise ;)
I almost want to parallelize my spin dynamics code now...
