Actually "I just happened to be standing in this spot and the meat packing district sprung up around me" isn't a terrible justification for having a druid live in a city, if you happen to be a race that outlives civilizations
"I don't really pay it much mind, I expect this to all be trees again soon enough"
I assume level six adventurers don't really consider zombies a threat but that's when you're all kitted out and rested, not when you nip out to the outhouse at 3 AM in your pajamas and something grabs your ankle
Going off to different sides of the story while still maintaining the common objective, nice... now that's real story telling. I'm assuming you may only follow one DM unless you can clone yourself
is it correct for me to say that len([1 for _ in gen]) is better than sum(1 for _ in gen) when we want to count the length of a non infinite generator ? I ran some timeit test and it seems like len wins out based on time, but I'm not sure how to test for memory
well, if that gen is huge, you're going to run into issues with memory allocation. Then again, 1 is interned and singleton, so I'd imagine the memory footprint to be tiny. Still, the list will need to allocate space, so you /will/ run into memory issues there
My expectation is that list comps win for shorter generators but as the size increases they slowly get swamped by increasingly expensive memory allocation
Meanwhile sum(1 for _ in gen) chugs along at a reasonable O(N) for as long as necessary, experiencing no slowdown, save perhaps for a blip when it switches from int to long int
@vaultah oh wait.... i was using timeit wrong.... >< Nvm.... I remember reading on here that sum(gen) was better than len([gen]) but my test showed otherwise, turns out my test was wrong.
Hi, Im a pretty new programmer and have always wrote classes all in one file. Im trying to learn how to split one of my existing projects into a package but am having trouble understanding the logic of how its formatted. The program i have is an app that has a menu gui screen and then leads to a new screen that has a game. What do i put in init.py and when do i open the app class
If you just have a bunch of files in a folder, python doesn't see that as a module, so it can't be imported. But if you add an __init__.py in that folder, that tells python "hey, this folder is a module" and then it can be imported
step 1: split code into multiple files step 2: add imports, and realize you have a cyclic import somewhere step 3: ???? step 4: give up on trying to solve your problem properly, and employ ugly hacks like lazy imports instead
I rarely have cyclic import problems, thanks in part to Python's dynamic typing. widget.py does not need to import sprocket.py even if Widget.frobnicate(sprocket) typically takes a Sprocket instance.
If I only ever call frobnicate from main.py, then only main.py needs to import sprocket.
test = test1 = list(randint(1,3) for x in range(10000))
Is it possible to make these variables not point to the same list, without copying from the first variable to the second? like: test = list(randint(1,3) for x in range(10000)) test1 = test[:]
but if anybody else will read your code (which includes "you 6 months from now") you should use more meaningful variable names (assuming these are not just dummy variable names for the MCVE)
except...
how about using a listcomp instead of list(genexp)?
I tend to use .copy() these days more than [:], but apart from that, it seems fine. You could one-line it if you wanted to in a few ways but they'd all be much less clear.
Regular brain: `seq[:]` Enlightened brain: `copy.copy(seq)` Galaxy brain: writing pure functional code with no side effects so it doesn't matter if two lists are referentially equal or not because you aren't going to mutate either one
No, I was just complaining that was one of the ways I didn't want to post because it was unclear. :-) Also: a,b = map(list, [randint(1,3) for x in range(10000)]*2).
@Kevin: no need for the copy module, copy's a method of list now.
Since snapchats feature is based off of the amount of snaps occurring at x location (sort of like a heat map, the brighter the color, the more events happening in that location), so as a user, you can see what's going on in that location.
Couldn't someone write a program to where a snap is taken every 30 seconds in said x location so the map could 'heat up' and other users could view that location to see what's going on? If this is possible, couldn't advertisers exploit this feature and sell their products or services to whatever users click on the map?
@inspectorG4dget ops = [operator.add, operator.sub] could be a tuple, since you don't need to modify it. OTOH, I think that your code is overly complex. A simple int to hold the direction is probably cleaner & easier to understand.
> Assignment of an object to a target list, optionally enclosed in parentheses or square brackets, is recursively defined as follows. If the target list is a comma-separated list of targets, or a single target in square brackets: The object must be an iterable with the same number of items as there are targets in the target list, and the items are assigned, from left to right, to the corresponding targets.
If the target list contains one target prefixed with an asterisk, called a “starred” target: The object must be an iterable with at least as many items as there are targets in the target…
I'm not sure that actually sheds much light on the subject
I like chunking stuff with zip, but this trick only works if your sequence has a whole number of chunks: a partial final chunk gets lost. You can get around that by using itertools.zip_longest to provide a fill value.
Totally unrelated, Python's floor division rounds towards negative infinity rather than zero, so, eg -42//5 is -9. That means you can use it for ceiling division: -(-42//5) is 9.
Andras I just tried running your code which resulted in some weird output: [...] What does it mean? I can't insert items into that list for some reason.
@SebastianNielsen It lets you store a graph in a list, even if the graph contains loops. Although I'm not sure if that counts as being useful. ;) It's probably easier to write a Node class and give it some appropriate attributes and methods. But anyway...
>>> a[:]=['a',a,b];b[:]=['b',b,a]
>>> a
['a', [...], ['b', [...], [...]]]
>>> b
['b', [...], ['a', [...], [...]]]
Stuff like that isn't easy to read, and it's not easy to see what eg, a[2][2][1] is. A decent Node class with named attributes and useful methods for displaying the node data, its neighbours, and for traversing the graph in various ways is far more usable than trying to do it with lists. OTOH, lists are fairly cheap in their RAM use, so in some situations you might want to use such recursive lists rather than a more sane datatype.
@SebastianNielsen: elapsed time to a counterexample -- about ten seconds.
In [3]: if x < 1:
...: print("less than 1")
...: elif x>=1:
...: print("greater than 1")
...: else:
...: assert False # should never be reached
...:
---------------------------------------------------------------------------
AssertionError Traceback (most recent call last)
<ipython-input-3-709fcbd7ff6c> in <module>()
4 print("greater than 1")
5 else:
----> 6 assert False # should never be reached
7
AssertionError:
yea the type checking example certainly wasn't very good, but there are situations where an assert is an acceptable alternative to throwing a TypeError
they are for defensive programming: - detecting errors in your own assumptions, and failing early - protecting code from terrible accidents should it be refactored by yourself or other developers later on
e.g. future me goes and adds something else in the things collection, and my code below it had never taken into account that possibility
better to blow up with AssertionError than to cause data corruption or some other nasal demons