@vash_the_stampede My 1st version is definitely more efficient than the silly one-liner. And it's better than sorting & using groupby, because it avoids the sorting step.
defaultdict(int) is slightly faster than Counter, and it's a couple of bytes smaller (one pointer). But as Martijn pointed out a day or so ago that you have to be careful when using defaultdict(int). See chat.stackoverflow.com/transcript/message/44210432#44210432 and the following posts.
There are certain people (no names) who will downvote any answer which uses Counter in an explicit for loop.
It's certainly a lot slower than defaultdict(int) in such a case, but where they are interchangeable complexity is the same. So I wouldn't be so harsh.
@jpp Really? OTOH, I'd probably downvote an answer that modifies a counter as a side-effect in a list comp. Unless it was an example of what not to do. :)
@Kevin Added the code: blackthunder01001.github.io/Numbairy . The code might be difficult to read but .. who cares. Repairing and simplifying it is a very boring and time consuming task.
Do we have an existing dupe for questions about class fields vs member fields? This is a current question that I'm looking at: stackoverflow.com/questions/52764822/…
@vash_the_stampede In stackoverflow.com/a/52763481/4014959 you should get rid of that stupid sum((Counter({k:v}) for k, v in lst), Counter()). And it's better to call sum on a gen exp than a list comp, since sum can add the numbers as they're generated. So instead of sum([i[1] for i in g]) you should do sum(i[1] for i in g)
Here are some sum of list comp vs gen exp tests, but on fairly small collections: stackoverflow.com/a/28584157/4014959 The list comps are about 10% faster
Nice: Python docs will change “generator expression” to “generator comprehension” https://mail.python.org/pipermail/python-dev/2018-July/154554.html (I advocated for this two years ago: https://nedbatchelder.com/blog/201605/generator_comprehensions.html)
My first guess using context clues was that you meant generator expressions, but I've touched the electric fence of Assumption one too many times to leap to a conclusion
@jpp list(x for x in y) is definitely silly. It gives you the extra overhead of the gen exp, and it doesn't get the speedup of listcomp's LIST_APPEND bytecode.
@PM2Ring, Yep & Martijn would agree with that too. As would we all. But that comment generated a question 2 years later.. stackoverflow.com/questions/30096351/…
I do not understand why this answer keeps getting upvotes. This seems to me to be an absurd task. But people keep searching on how to do it and finding my answer. stackoverflow.com/a/38862389/2336654
Deb updated the question. She didn't change the indentation, but she added a function call to the code block, and in the updated text she claims there was no error message.
Huh? I just noticed that I got a downvote yesterday on this 2 year old answer (when I was still fairly new to Python 3): stackoverflow.com/a/39617185/4014959 I just added a better answer, but I don't expect the downvoter will notice. And I guess it might've been a random revenge downvote, rather than someone who thinks my original answer is bad.
@wim Why? We don't know what the data looks like in general, but I think it's fair to assume that it begins with a single big-endian unsigned 16 bit integer.
@wim I did mention the assumption: "The length data looks like a big-endian unsigned 16 bit integer, and the string data looks like it's using the Latin1 encoding. If that's correct, you can extract it like this:"
@wim I guess it could also be encoded using cp1252, so I just added some info about that.
@AndrasDeak It's not exactly plagiarism. The author said "from docs.python.org/3.6/library/itertools.html", but then they have "Author: joltE", although they only wrote a generic listcomp to turn the tuples generated by combinations into lists. I'd prefer to view it as clumsiness of attribution rather than downright plagiarism.
@vash_the_stampede [(line.strip()).split() for line in f] can be written as [line.strip().split() for line in f]. But since you're using the no-args form of .split() you don't even need .strip, since .split() will drop all the whitespace anyway. So that listcomp becomes [line.split() for line in f]
I know the solution you are referring to I recall it
OH that one haha my baby
yeah I overkilled that fixing thank you for looking at it btw like i said i dont have people in my circles that could be like oh thats cool or this or that, etc so it was nice to share ty
When you do something like zip([keys]*len(content[1:]), content[1:]) Python isn't smart enough to optimize the content[1:], so it actually builds that slice twice. That doesn't matter much here, since content is tiny, but it would be dumb if it had a million items in it. It's cheaper to just do len(content)-1
its cool like you guys are super into memory efficiency and know all about it and it plays a huge role in your solution path, im catching on like somethings i know now are better off outside of my list comprehension etc, but yes i see now creating a slice there is no good
In some contexts, there are things that are _similar to content[i:j] that just gives you a reference into the existing object, so you can create such views cheaply. But that doesn't apply to plain Python lists.
@vash_the_stampede I'll have a discussion about speed but generally I don't care too much about memory. It wasn't sarcasm. I'm just used to having to have solutions "instantaneously" for end users
If Joe Bloggs could just wait more than 0.25 seconds for a list of options, that'd be great
@AndrasDeak I shouldn't have mentioned Salad Fingers. Went out for a cig and what popped in my head was "Ewww, Hubert Cumberdale, you taste like soot and poo" :P
content = [row.split() for row in data]
keys, *content = content
string_keys, subjects = keys[:2], keys[2:]
students = [{k: v if k in string_keys else int(v)
for k, v in zip(keys, row)} for row in content]
And I'd process it like this:
for d in students:
valid = [v for k, v in d.items() if k in subjects and v]
try:
mean = sum(valid) / len(valid)
except ZeroDivisionError:
mean = "No subjects"
print(d['Name'], mean)
for k in subjects:
valid = [d[k] for d in students if d[k]]
try:
mean = sum(valid) / len(valid)
except ZeroDivisionError:
mean = "No students"
print(k, mean)
also one more question, obviously there are smart people but exactly how smart are these people that create the programming languages, who decided to create these functions and recognized that they would be needed and are comonly usd
@vash_the_stampede I'm ashamed to admit that I still haven't seen The Imitation Game. But I did read Andrew Hodges' Alan Turing: The Enigma when it was still fairly new. FWIW, Hodges was a PhD student of Sir Roger Penrose.
It's not like Python emerged into the world fully formed. Maybe 90% of the built-in modules weren't "yes, with my timeless wisdom I foresee that my users will require a Counter object" but rather "aah these jerks won't stop bugging me to implement a histogram, I'll put it in the next release if it buys me a second of peace"
@PM2Ring im saying these people are at the peak of intelligence across the board correct, just using python I'm amazed at what must be underneath and watching this devcon on the history of programming
I...just realized that the weird behaviour I've been seeing in our code is probably due to my not actually fixing a bug when I thought I fixed it more than a year ago :'(
@vash_the_stampede people specialise in things. There is some incredible thought and talent behind Python, but it's no different to any other profession
@vash_the_stampede What Kevin said. Generally, people don't design languages in a vacuum. They are familiar with earlier language designs, and the tools that are available to help with the tasks of creating a grammar and a parser for it. And it's not just a matter of being smart, there's an aesthetic component involved in language design. So a good language designer is also a kind of artist.
@PM2Ring last question, okay so everything is built ontop of something else, like python is built ontop of something underneath it correct? is there any next level that is being built on top of current languages ?
Some of the early languages were pretty clunky by today's standards. But at the time they were amazing. The creators weren't able to leverage an existing body of work or knowledge. And they had to write compilers or interpreters that ran on a tiny amount of RAM. So people like Grace Hopper are justifiably considered to be legends.
from string import ascii_uppercase
keyword = 'PYTHON'
key = keyword + ''.join([c for c in ascii_uppercase if c not in keyword])
encode = {u: v for u, v in zip(ascii_uppercase, key)}
You just have to make sure that keyword doesn't contain duplicated letters.
@roganjosh I decided to write an answer for the hell of it, even though the OP hasn't shown any effort or responded to your comment. Oh well, I guess I can always delete it if it gets too many downvotes. :)
@wim A question from Raymond Hettinger would be scary. :D
@PM2Ring I've commented on a few of his answers saying: "umm... interesting approach - wouldn't it be better if you did..." and he's edited them and commented back saying: "oh yeah... you're right" :)
(although in their case it's more a case of that they've forgotten something rather than didn't know something to start with :p)
wow good point I filter women who are compatible with me with very abrupt socially unacceptable statements, it narrows the field down quick and works like a charm hahaha
have a great evening all, will be back later going to go explore whats going on in my brain :)
@PM2Ring umm.... any reason to not use str.translate in your answer to that Q - since it's dealing with characters which it's supposed to do, then you can avoid the .get(c, c) thingy...
If you were building something up that wasn't a character->character mapping then it'd make sense...
@JonClements Using .translate would be too easy. :) And this is probably homework, with silly restrictions on what methods can be used, so I did it using basic stuff.
That collection is ok, but it's certainly not perfect. Some of the questions have multiple suggested targets that may be applicable in different circumstances, or because new targets have been added and there was no good reason to remove the old one, just in case it could be useful.
@wim For sure. I wouldn't call our collection bad. It's definitely better than nothing. I often get useful targets from it, although most targets I find using Google. Although Google can be a PITA when dupe hunting because it seems to give such a high priority to titles, and to keywords in the question, rather than keywords in the answers.
@wim as @PM2Ring says - it's not perfect but it was an attempt (similar to what Aran-Fey is doing now) to at least try - don't knock it so hard please :)
And even different Python gold badgers will want custom lists. I don't need Pandas dupes because I don't know Pandas, and am extremely unlikely to hammer Pandas questions. Conversely, someone who ignores Tkinter won't need Tkinter dupes, but I do.
@wim sure... in signs of abuse but if no-one notices before then you've got a database serving out duff data and then someone has to go in and clear it up... really can't see how it's practical...