but all non-code/non-quote markdown will break in multiline messages
user15638707
So I'm trying to figure out this simple? Thing and I don't want to make a post about it.
Code: pastebin.com/raw/n6crS9sC
Basically it only outputs the first 4 lines, if I change the number 4 to something else like 5 it only outputs two lines, so basically how do I make it output all lines.
It doesn't seem like it should do "first 4 lines". Seems like it should do "every fourth line starting from the second"
It's not clear to me what the code should be doing so I can't tell you how to fix it.
I'd separate the two steps: first figure out what dict structure you need to get the desired yaml in the end, and then figure out how to build that dict structure.
user15638707
It does what I need it to
user15638707
the structure works fine, I just need it to parse every line
i just have small q .. where i can find guide for django allauth ( i want add style to forms ) the problem is allauth have many codes i don't know how to add style and boostrap
@R.Islam that is a long time to wait, you can try to bounty it if you reputation allows, also editing a smaller version of that csv might help people run your code
Hi guys, I have an issue with the argument parser. https://stackoverflow.com/questions/67153592/filenotfounderror-winerror-2-the-system-cannot-find-the-file-specified-but-pa
@Aran-Fey since most people never have to replace __new__, The Man wanted to avoid having Little Bob peek into The Abyss. Getting hooked on metaprogramming is not for the faint of heart.
@JosipJuros Again, please keep discussions on your recent questions restricted to the main site. Duplicating/splitting discussion here will just make it more difficult to help you and others.
I guess it comes down to return only making sense alongside yield from, so they did not bother. :/
I'm somewhat peeved that PEP-525: Async Generators explicitly contradicts the reasoning of PEP-380: yield from: "to compose asynchronous generators a simple async for loop can be used"
quick question, though this might annoy someone who actually knows their stats. if i run a ttest link I should look at the p_value, and when the value is very low, i should conclude my samples are different, yes?
An interesting optimization problem I've run into in a game I'm playing: you have an NxM checkerboard, and want to fill each tile with a copper mine or a beacon. copper mines are worth ten points, and each beacon boosts the value of any adjacent mine (both orthogonal and diagonal) by 40%. Multiple beacons stack additively, so a mine surrounded by 8 beacons is boosted 8*40%=320%. Some tiles are already occupied by obstacles, and nothing can be placed on them.
Here's an example board, with my lazily-optimized solution. Blue squares are beacons, red beakers are mines. The game is "NGU Industries" BTW FYI
I think you can get pretty far just by filling the board with mines, then iteratively searching for the tile with the most neighboring mines, and putting a beacon on that tile. But I suspect that doesn't give you the one true maximal solution.
For practical purposes it's more than enough to get within 10% of true optimality, but that's no fun
Hmm, I also thought that, but now that you mention it...
Placing a beacon on a square that's adjacent to at least three mines, and which is not itself already boosted, is a strict improvement, because you lose 100 points and gain 120. But if the square under consideration is already being boosted at least once, you're losing 140 points to gain 120.
And even using the strict improvement variant may lead you to a local maxima
At least this insight improves my greedy best-tile-to-replace-finder by a smidgen
I'm trying to decide if this problem could possibly be NP hard. Games like this are often proven NP hard by showing how you can construct objects analogous to wires and logic gates, and then you're done, because circuits are NP hard via the 3SAT problem.
since my brain can't handle thinking through this, i'd say first order of business could be bruteforcing your way to the best solution(s) and then use that to verify all more reasonable approaches
@ParitoshSingh Certainly, I'm quite keen to brute force the solution if it takes <24 hours. But... The most direct algorithm would be to try all combinations of mines and beacons, and there are 2^122 of those.
Let's see... My script says there are 121 empty tiles with 3+ empty neighbors. Uhh, that's definitely not right, because the southwest island should bring it down to 119 by itself. Is my iter_neighbors buggy? Please hold...
There are six empty tiles that are 100% guaranteed to be an inefficient spot for a beacon: the 3 tile southwest island, the center tile of the eastern bridge, the top right corner of the southeast continent, and the easternmost peninsula.
Bringing us down from 2^132 to a mere 2^126 combinations
guys i have a csv delimited by ; for some reason when reading the data into a pandas df with df = pd.read_csv("asociaciones-valencianas-2021.csv", header=None, names=[ 'COD_NUM_AUTONOMICO', 'DESC_AMBITO', 'DESC_DENOMINACION', 'DOMICILIO', 'MUNICIPIO', 'DISTRITO_POSTAL', 'DESC_AUTONOMIA', 'SITUACION', 'FECHA_INSCRIPCION', 'FECHA_ULTIMA_SITUACION',]) the info is thrown all into first column... how could i prevent this?
essentially I have dpaste.com/C5TWEM95D with which i have the same column 'COD_NUM_AUTONOMICO' which i would like to merge on to create another df and from that a new csv
In the real game, there are multiple kinds of tiles that produce and consume resources. The beakers are "Red Science Juice", which are made from cardboard and glue. Cardboard is made from cardboard ore, which is extracted from the cardboard mines. Likewise for glue.
Don't give me no guff about tickmarks made on bones to count livestock, you know those cavemen could easily make a half tickmark if they had a very small cow.
@Kevin i've got a couple thoughts. each independent island can be solved separately for example. and then, each node that only has two valid adjacent nodes should always be set to a mine
That leads me to wonder if it would also be possible to divide and conquer the segments of the mainland... You could slice out the northeast section, for example, drawing a border through the three bridges that connect it to the other sections. For the ~7 tiles adjacent to the border, find all 2^7 combinations of layouts, and solve the rest of the map for each of them.
If you get very unlucky with your choice of segment slices, I suspect it's about as efficient as regular combination brute forcing. But I wonder if it makes it easier to memoize intermediary results... We might be able to take advantage of the fact that score for a tile is solely dependent on itself an its immediate neighbors.
the more i think of this, im convinced this has to be np-hard
my theory is, i could have multiple states of solved "ideal" layouts, and causing 1 shift could let me ripple through the entire board for no actual gains
I don't immediately see how I could make this into a graph problem of less-than-astronomical size, but then again I've only considered it for the time it took me to write this sentence
It is astronomical, but the adjacency is very local. You can generate neighbour states by replacing each tile with its complement. What I have in mind is an educated BFS that protrudes into high-score directions
I like the idea of directed brute force. Heuristics are pretty awesome. Take the number of adjacent mines, beacons, and empty tiles, do some random math with it, and boom, your algorithm magically processes the tiles in near-perfect order
A beacon will boost somewhere between 0 and 8 mines, therefore the average number of boosts per beacon in an optimal solution is exactly 4
(Which actually makes it unsuitable for this other optimization problem I haven't mentioned yet, involving MegaBeacons that give a 10x boost, but only to mines that have at least 5 MegaBeacons surrounding it. I am not making this up.)
Uh,,, <_< No, a MegaBeacon actually doesn't boost anything, and it produces the same amount as a normal mine. The only benefit is it has racing stripes that make it look cooler
The only thing you can optimize for is coolness, which is fairly elementary
for anybody here familiar with structlog, I was trying to just wrap a standard python logger (what my coworkers are use to working with) into structlog using wrap_logger and then turn it into an async logger (using AsyncBoundLogger). So far trying to make AsyncBoundLogger use the wrapper_class arg didnt work and when I tried seeing if the wrap_logger output can be used to initialize AsyncBoundLogger I got an error about the constructor also requiring a context
which admittedly I still dont quite understand based off what I've read in the docs (maybe just read the wrong sections but I'd say they're not that good on it from what I've read)
I have an idea for a mine/beacon brute forcer that makes optimal use of existing cached information. It essentially uses a flood fill over the board, choosing a final value for each tile once it is no longer on the edge of the fill. In principle, it could run in O(2^F) time, where F is the maximum perimeter of the flood fill's wavefront. So there is high incentive to fill the field while minimizing the wavefront size.
The worst that will happen is, you'll post a link to your rather big code, we'll think "hmm, that's rather big, I don't think I can tackle this one", and we go about our day
ill try to thin it out a little but, but as i take a second to try and thin it out mainly I'm just trying to figure out how to use structlogs async logging abilities so I'm open to other angles of attack
import datetime, sys
import logging as baselogging
from pathlib import Path
from structlog import wrap_logger
from structlog.processors import JSONRenderer
from structlog.stdlib import filter_by_level,add_log_level,AsyncBoundLogger
baselogging.basicConfig(filename = 'tmp', format="%(message)s",level=baselogging.DEBUG)
logging = wrap_logger(
baselogging.getLogger(__name__),
processors=[
filter_by_level,
add_log_level,
JSONRenderer(indent=1, sort_keys=True)
],
that should probably work, removed some custom functions and simplified configs a bit
I tried doing something like AsyncBoundLogger(wrap_logger(...)) but it complains about needing a 'Context' additionally in the constructor. And there is a flag you can set in wrap_logger called wrapper_class which in the api docs says:
wrapper_class – Class to use for wrapping loggers instead of structlog.BoundLogger. See Standard Library Logging, Twisted, and Custom Wrappers.
led to an error when I ran the logs: `<ipython-input-16-6b026bc22810>:1: RuntimeWarning: coroutine 'AsyncBoundLogger.info' was never awaited logging.info("This is a test log") RuntimeWarning: Enable tracemalloc to get the object allocation traceback`
is there anyway to get around needing to modify every line with logging.info() though. Was hoping on making this very easy to just plug in at the config log step
so that people just basically import a file, wrap their previous logger, and then no other changes would need to be made
I'd say that some projects here go to the point of overlogging so I'm also additionally worried that the structlog rendering overhead can be a bit of an issue in some of the loops people run (hence why I started looking into shoving it off into its own thread/asynchronous execution)
I'm sure it would be possible to spin up your own async event handler, and wrap your AsyncLogger with an async resynchronizing logger, which will manage the handler for you. And then your users won't have to await anything themselves. But if you do that I don't think there's much point in having an async layer to begin with.
Perhaps I'm misunderstanding what an AsyncBoundLogger actually does. I will read the docs. Until stated otherwise, assume that I'm dimwitted yet well-meaning, and weight my advice accordingly
It might be worthwhile if the logging is I/O bound, but I suspect this usually isn't the case
Maybe if you're json.dumping some extra big data structures that you already have available...
I'm imagining an engineer at google explaining some process to the intern: "this is the logging server, all it does is while True: logging.log([get_page_rank(page) for page in the_entire_internet])"
The very heart and soul of the search engine. Make sure to put a fresh "do not unplug!" sticky note above the outlet every Thursday, because otherwise the cleaning lady will use it for her vacuum
Bleh, I'm stumped. I've got a blazing fast algorithm that achieves a score of 17800 (compared to Kevin's 18080), but I can't seem to make it perform any better than that
Ah, while looking for ideas for my problem, I came upon a tangentially related concept I was previously searching for: Universal Traversal Sequences
TLDR: for any regular graph, you can always construct a sequence of instructions (along the lines of "take the Nth edge belonging to this node"), and following it will ensure you set foot on every node in the graph at least once. The instructions work no matter what node you start from.
I was pretty confident that there was an XKCD comic about this, or perhaps SMBC or Doghouse Diaries or one of those sciencey guys, but I don't see any fun illustrations in google's images tab
slidetodoc.com/… at least has a stick man in a funny hat, which has lowered the brow enough for me to get the gist of it. It seems like there's no constructive proof for actually finding the sequence. At least not one you can fit on a slide in 14 point Comic Sans
The response does seem rather strong, though. Google may have been having an off-day and just used the most extreme versions of every translation it could think of :)
"I'm going to write to the PSF" --> "They're coming to break your door down and take you in to the Galactic Court". Cromulent.