sopython doesn't seem to have a good canonical for "you forgot to .close() your file", my search fu is failing me badly, any suggestions for what to link to?
I'm not sure of anything, really. What I know is this: The program works on my PC, but hangs(?) on someone else's. I also know my PC is significantly faster than theirs, and even mine takes a while to run the program, so... there's a good chance they simply have to wait half an hour for it to complete
I don't suppose you could send the huge data to the subprocess via something other than stdin? For example, perhaps there's a --get_data_from=filename command line argument.
I'm specifically writing it directly to stdin to avoid the slow roundtrip via the HDD :P
I'm reasonably sure that the program doesn't really hang, so I'll just focus on speeding it up. It's doing a bunch of image operations without numpy... and OCR on top of that
yeah, i was gonna say, i'd strongly recommend using numpy or opencv or some other imaging library, and resisting the urge to use pure python. it would be a miserable time
Welp, I just realized that all the numpy knowledge I've acquired during my last image manipulation project has already evaporated into thin air. Can't even split an image into red + green + blue channels without googling how
I'd rather have a teacher that relearns the material from zero every semester, than one that can recite the textbook backwards and assumes everyone else can too
I think all of my classmates went on to choose careers outside of the IT field, but I can't say if that's the teacher's fault or just the fickleness of high school students
@Kevin the question is, do I trust the comment and try to get it to not import or do I trust the code and try to get it to import :D Or 3rd I file an issue and call it a day :)
lol, I just got an email of an app I use sometimes: "We just disabled passwords for convenience. Now you get a login link per email each time you try to login." That seems like the opposite of convenient for me but oh well, I didn't use the service that often anyways
If you want to cover your butt by following the public interface to the letter, trust the comment. If you want code that works, trust your observations of the code's actual behavior. If you want a good excuse for why you're playing Tetris at work, tell your boss you can't do anything else until they fix the issue
The problem is, our issue tracker has only painful work it goes from horrendous to less horrendous. For every 10 issues there is 1 which is actually solvable, and we have around 30 issues. So it's a few tasks until the horror
I can shave off a couple milliseconds here and there by grepping for "//this could be more efficient, but the schedule is too tight right now" but that won't do anything to the biggest of my big O complexities
For the sake of the argument, I'll say that any occurrence of the_list[some_index] counts as an operation. Regardless of whether it's on the left hand side of an assignment statement, or anywhere else
If you're sorting something like integers, and your operation is "compare two integers from the list", you can get a O(0) by using a dictionary of integer:count, and spitting out the list by iterating the range and outputting the number of instances of each int. Counting array read/writes, that's O(2N)
If you're feeling a bit snarky, you can swap 'iterate the range' with 'sort the keys' :-)
"Iterate the range" is a valid approach, that's what I had in mind when I mentioned finite sized integers. Won't work on Python's unlimited-size integers, but nobody said it had to
in the worst case scenario, "sort the keys" is as expensive as sorting the original list, plus a bit of overhead that doesn't influence the final big O result
You could sort* a list of rationals, since rationals have the same cardinality as integers. (*as long as your ordering criteria is derived from a rational-to-integer bijection)
I don't think there's any bijection that preserves the ordinary relative order of rationals, so the result won't be pretty. But it will be consistent!
In general, I don't think so either. For a given set of rationals, you could just find the LCM of the denominators and multiply it out into integers, but at that point you're better off with just using Quicksort or Timsort or something.
Is poetry any good? jetbrains just send me an email mentioning it. Also is there some mechanism which prevents somebody gobbling up the whole pypi namespace?
I know for sure that pypi's EULA says they reserve the right to remove your project and/or blacklist you. So any gobbling that might occur can be reversed, eventually.
hey guys anybody know how I can convert a string like this `Full-time` to this 'Full_time' in Django?
I want to use the Django built-in templates and filters
That's what I'm trying to figure out now. I've never done it before, but I think registering a name on pypi is automatic. So you could, in principle, gobble up some fraction of the pypi namespace before someone/something notices you're being naughty
It might take a while if pypi has a "one register action per account per day" limit that I don't know about, though
I know nothing about Django, but it's pretty easy to convert hyphens into underscores with regular string operations, such as x = x.replace("-", "_")
Perhaps you already know this, but you're working inside some kind of environment where you can't use arbitrary Python expressions. For example, I'm guessing the Django template language doesn't give you full Python power.
I'm approaching things from the other end this time, starting with an obviously not recursive function f, and then defining a series of functions that converges towards my goal. The shape is approximately right, in the neighborhood of "a symmetrical bump with maximum Y value 1ish at X value 0". I think the final result won't be as fat as these.
I've been pushing the b slider around for 20 minutes, trying to see if there's a value that's more "interesting" than the others. If I go above 1.17 or so, then the lower generations appear to develop a little indent at the peak. So maybe there is some unique value of b where no indent forms, even in the one billionth generation.
I was hoping it would be at phi or sqrt(2) or something, but 1.17 doesn't look like any well-known constant that I'm familiar with