Yeah, it's essentially just a light wrapper around lists
so I want to be able to iterate over objects in it (or the lists that they're holding), but there's some other stuff I want it to do so lists aren't sufficient
class A:
def __init__(self, a):
self.a = a
def __iter__(self):
for i in self.a:
yield i
def __next__(self):
if not self.a:
raise StopIteration
return self.a.pop(0)
Calling:
a = A([1,2,3])
for i in a:
print(i)
a = A([1,2,3])
print(next(a))
print(next(a))
print(next(a))
print(next(a))
@U9-Forward Isn't modifying the collection (the pop call) during iteration a bad practice? Aside from generators, most collections don't get consumed permanently like that.
@Mark yield's primary purpose is to pass control from the current method back to the caller, which is particularly useful if you want to interweave the execution of the yielding method with the caller. For example, you might only need to iterate through half the elements, allowing the iteration to stop early at the discretion of the caller. Or it can be used if loading all the elements at once is resource intensive, allowing resource usage to be spread out over individual iterations.
As a practical application, though, it's often the easiest to read and most maintainable way to generate elements one at a time.
I've been noticing a number of questions lately about people having trouble with imports. It seems like most of them aren't really aware of where Python is importing from or how to control that (like through PYTHONPATH). e.g. stackoverflow.com/a/56177563/1394393. Is there a canonical about that? Didn't see one on the Common Questions list. There's sopython.com/canon/96/…, but I'm pretty sure that shadowing isn't the problem.
The problem is it's importing something different than they expect.
I've seen others where there was no name clash, but I don't have them handy.
@binz please review the room FAQ. You are expected to wait 48 hours before asking us to discuss a question of yours (and then, just dumping a link to the question here is hardly the best way to do it)
@Mark do you really want to implement __next__? Wouldn't that make it an iterator? I'd think you're fine with your list and you can loop over it implicitly or via iter(myobj).
With lists you can't do next([1,3,5]) and that makes sense
Or do you want fancy things during iteration?
Because then you might want an iterator class rather than a list subclass. Like enumerate that is an iterator that decorates iterables.
Either way I'd expect obj and iter(obj) to belong to different classes if the former is not an iterator
From the description I really couldn't get much, and when I am asking the OP to provide an explicit output, he keeps pointing me to the question and restating what is already in there
Is the question really descriptive, and I am missing something basic here?
well, its not that its unclear. its just that it takes reading through 10 additional comments just to finally get what the op is trying to say. they should be asked to edit that info into the question really
Though to be fair, i wouldn't usually answer until im sure what the op is asking. If i cant get it sorted in comments, i dont write up an answer
Just marked it unclear, I thought given the name of a module, getting the module is straightforward, hence I mentioned the solution I had, since I have used it before.
But maybe it needs to be read by someone who has slightly more in-depth knowledge of python
feels to me like one of those questions where OP has dwelled on their problem for so long that they can't imagine how their choice of words might be confusing to people who are reading about it right now
or in other words, I was very confused by it, and still don't see how Davesh's answer isn't good enough
If you are given a name of a module in a dictionary, you either do my way or sys.modules both of which assume the module is installed in the python interpreter
where the code runs, is that an incorrect assumption?
The OP did say they think importlib is overkill and they'd use sys.modules[d['__name__']] instead, so maybe that's why they haven't accepted the answer
They're not singletons, they're just cached in sys.modulesif you import them with the import statement. If you import a module with the importlib machinery (or you instantiate a new module object), that's not the case
yes that's what I was trying to explain to him lol, but he's not budging, so I have given up for now, I thought given his 28k+ rep he will understand what I am asking him :)
I have a Regex related question, feel free to direct me elsewhere :). So im coming across this number '1.500,00' as a string which I need to convert to a float. The thousand separator is blocking this. The closest regex rule i can get is '\.\d{3}' which matches '.500' but I just need the dot only if it occurs in front of 3 digits.
@mtbrands try things out, see if you can find a prebuilt solution. if not, build your own. One thing is for sure though, if you are having mixed styles of writing, there's always a chance of wrong parsing
@mtbrands Do you need to handle data from multiple locales? In the U.S., the . is the decimal separator and the , is the thousands separator. The example number you gave would be nonsensical in that locale. But in Canada and Germany and lots of other places, that number would be equal to 1500 because they reverse the symbols.
If so, regex isn't the way to go; you would want a library that can handle any locale. And I'd generally prefer to have the capability than be shot in the foot later by having hard coded processing on a particular locale.
Depends on what you want to do with the annotate() function. Normally, I'd only really use them with an aggregation where I want to give it a nice readable name
Andras I guess you know the unit nat? I just learned about it today. I get it, but I wonder what are the practical implications why one would use a nat instead of a bit?
@DeveshKumarSingh of course it's a reasonable question to ask why and how the order that you see is chosen (i.e. to dig into the implementation), but you should not confuse this with the idiomatic use of the language. It shouldn't affect the code your write.
@AndrasDeak makes sense, a good idea to stick with the idiomatic use, only use whatever is meant to be used for a certain thing, == for comparison, and sorted for list sorting
@Hakaishin The classical (thermodynamical) interpretation is that entropy is the extensive quantity that is canonically conjugate to temperature. This by definition implies that it has joule/kelvin units, same as how pressure is conjugate to volume, making it joule/m^3 ;)
(edit: question was what extensive quantities are :P) something like volume and number of particles, something that scales "like the volume" when you scale your system (as in tiling multiple copies)
Intensive quantities are like temperature and pressure, they typically average across subsystems, and if you take a system twice as large they'll stay they same. Extensive quantities are like mass and volume. And they come in conjugate pairs, temperature <-> entropy, pressure <-> volume, chemical potential (don't ask) <-> particle count
Help on function post in module requests.api:
post(url, data=None, json=None, **kwargs)
Sends a POST request.
:param url: URL for the new :class:`Request` object.
:param data: (optional) Dictionary (will be form-encoded), bytes, or file-like object to send in the body of the :class:`Request`.
:param json: (optional) json data to send in the body of the :class:`Request`.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
when you say they come in pairs, does that mean there is a bijective function between the two? Like this much pressure will occupy this much volume for a given gas?
@Hakaishin no, it means that thermodynamic potentials depend on corresponding intensive*extensive products, for instance the internal energy is E(S,V,N) = T*S - p*V + mu*N. For the internal energy the extensive parameters are the "good variables", and the intensive parameters can be computed as derivatives of the energy, for instance T = dE/dS
@DeveshKumarSingh that's just another model
the first law of thermodynamics (one form at least) says dE = T dS - p dV + mu dN, where again you have these intensive*extensive pairs in the differential
Nice! the way you use those terms, you did seem a physicist, may I ask what field specifically? Also are into academic research, or a corporate job, I guess academic research
and feel free to ignore these questions if you want @AndrasDeak :)
I cant believe that. I wonder when people will stop using fortran. How would you say is the split for physics experiments between fortran and c/c++? 50/50?
@Hakaishin If you talk to non-physicists or people who were taught badly, it's understandable. Fortran can be written as a perfectly fine language (at least for scientific programming) as of the fortran 90 standard, and when used properly it doesn't deserve the crap it's usually given. More importantly, it has native complex arrays of arbitrary dimension. That would be a deal breaker if I were to try what we do in C*.
I guess the languages taught are the ones more used in common industries. And again we do have courses where you are taught a general construct of a language so that you can pick up a new one by relating it to some other language
there was a time when the local technical university forced everyone to learn Scheme before they could do anything else and I'm not sure I disagree with the motivations, though it still seems like a pretty crazy idea
Overflowing a signed integer in C++ could theoretically make confetti and balloons shoot out of your monitor, so we can't say C++ isn't fun in all cases
Tempted to trawl through the CPython source to find a comment like //not sure what this does but it seems to work??? which would qualify as UB in my book
Whereas it's possible to write a valid C program that produces different behaviour on different architectures, or even when compiled by different conpilers. Or different settings of the same compiler.
You might argue that the item duplication trick from Pokemon Red is a result of UB, since it happens because junk data is left in a table where it shouldn't have been. But entering rosebud in the Sims 1 console window to get more money isn't UB because the devs intentionally put that command in.
@DeveshKumarSingh Hell no. C has quite a bit of UB. But C took the radical approach of being explicit about accepting UB, rather than trying to get rid of it or ignore it.
On this topic, I recently enjoyed this video, which describes how you can walk through the entire memory space of Super Mario Land 2 with a simple glitch:
@MisterMiyagi Certainly! UB isn't random unpredictable stuff. It's grey areas in the language definition where compiler writers are free to choose whatever behaviour makes sense for their target OS & hardware.
I'm really stretching the definition of UB in my Pokemon and OOT examples since the assembly code is doing exactly what it was designed to do. The fact that the fallible human engineers designed it to do something dumb is a separate matter
Maybe if there was a glitch that happened because there's a register that may only be written to during VBLANK and the code writes to it outside of VBLANK, that would be more UBish
Not directly related to the issue of the orderedness of sets during list conversion, I notice that the stdtypes reference says "the output of the list.sort() method is undefined for lists of sets."
I suspect the subtext is "Timsort does all sorts of wacky things on lists of objects with only partial ordering, and it would take a dozen pages to describe its behavior exactly, so we'll call it 'undefined' even though the result is entirely deterministic"
Thing does not implement partial ordering so this does not satisfy the conditions of my original thought experiment. Still interesting though.
We can also determine from this result that TimSort does not first check to see that seq[0] < seq[1] and return the list unmodified if it already looks sorted
I can imagine a non-wacky type that implements __lt__ in a way that violates partial ordering for a good reason. For example, if you were writing a rock-paper-scissors game, then rock < paper < scissors < rock.
It's hard to imagine a justification for a two-item cycle, though. I struggle to think of a practical application of a > b and b > a
Here's a wildcard class named Any, that returns True for equality tests, but it doesn't define the other comparison methods. stackoverflow.com/a/29867270/4014959
If I ever write wiki software, I will make it erase all instances of "it should be noted that" in articles, except when viewed by the editor that wrote it
it should be noted that "it should be noted that" is completely superfluous in 99% of cases
It should be noted that Kevin Kevinsson believes it should be noted that "it should be noted that" is completely superfluous in 99% of cases. [Citation needed]
is there is any way to check the file type, As I am writing functions to read json, txt, CSV file? My concern is most of the code is the same except reading a part, can we write only 1 function to read all above mention files and return there data?
@AmanJaiswal You can separate the file type from a file name with os.path.splitext. It's certainly possible to write one function that can parse json and csv and "txt" (the third one being the most difficult since there's no formal specification), although it may end up being a bit long
If you're asking "is it possible to determine the type of a file just by looking at the file's contents?", you can make an educated guess but you can never be 100% sure