@AnttiHaapala That link was interesting, a bit over my head as I don't fully comprehend all the C and under the hood python stuff. I don't remember the conversation/context of why you were pinging me though?
I sort of wanna challenge stack overflow to see how they fair against our cousins in the mathematica stack exchange with this, but how could I turn it into a good question...
@roganjosh I saw a tweet that showed examples of the problem that was solved, but the link was to asahi.com.jp, so all Japanese (which I may read some day, but that is not yet this day). Does anyone have a link to an English-language page that describes just what the quantum computer's mathematics did?
Found this on python website: In general, the iterator forms are more memory friendly and more scalable. They are preferred whenever a real list is not required.. The question: if I am already supplied a list in a function and I have no choice but to use it, does it make sense to make an iterator out of it first?
Calling iter on a list and iterating over the result is less memory friendly than just iterating over the list. An iterator is memory friendly if the items it is yielding aren't already fully loaded in memory somewhere. Examples: a file object; virtually everything returned by an itertools method
Just did a test. wrote one python file that does: for i in range(1000000): 10**2 and another one for i in range(1000000): pow(10, 2) and the former takes 4 times longer (did time ./speed.py).
That's surprising to me. for i in range(1000000): 10**2 shouldn't even be doing any arithmetic, since the parser can turn 10**2 into 100 while it's compiling the bytecode
@PaulMcG I am aware of it, I just don't know how to do out from outside the python code. But now that I think about it, I don't need to. Could have done it inside. Noted
@PaulMcG Yes, I agree. So you can't say "X has fewer instructions than Y, therefore X is faster". But you can say "X runs exactly the same instructions as Y, except Y has a couple more, therefore X is faster"
In this specific instance, the CALL_FUNCTION byte code at address 4 does not cause one approach's performance to drag compared to the other, because both approaches call the same function with identical arguments. But in general, a CALL_FUNCTION instruction can take literally any amount of time. For all we know, the function being called is time.sleep(10**100)
@Kevin The CALL_FUNCTION at address 4 is calling range. Within the iterator, only pow does CALL_FUNCTION. 10**2 just loads the computed-at-compile-time constant.
Or maybe I misunderstood and you're saying "how do you know that the CALL_FUNCTION at address 18 is the bottleneck for the second approach, compared to the other four instructions that are exclusive to the second approach?". That's not something that's easy to prove conclusively, but it's a reasonable guess. "Function calls are slow" is common wisdom
@isquared-KeepitReal forcing input to some equivalent form has no advantage, but choosing a different output type does. for example, filter doesn't care if it is given a list/iterator/generator/sequence/... but always gives an iterator.
A digression I wanted to insert a while back: Even though iter(my_list) doesn't confer any speed advantages, it can still be useful for other reasons. If you ever find yourself thinking "I wish I could do i += 1 inside my loop and make it understand that I want to skip the next iteration", then you could do something very much like that by calling next on the iterator.
def frotz(the_list):
"""get every element of the list, except elements appearing immediately after an odd number"""
g = iter(the_list)
for x in g:
yield x
if x %2 == 1:
next(g)
seq = [4, 8, 15, 16, 23, 42]
print(list(frotz(seq)))
#[4, 8, 15, 23]
Please ignore corner cases such as "what if the list ends with an odd number?" and "what if two odd numbers are next to one another?"
API preference: would you prefer having two top-level methods to get generic and specialised result, or one top-level for the generic and a chained method for the specialised result?
# B
await foo.volume(5000)
async for bar in foo.chunks(5000, 10): ...
# B
await foo.volume(5000)
async for bar in foo.volume(5000).chunks(10): ...
Mostly because I can make some deductions about the type of the return value of foo.volume, namely that it can't be any built-in type, since none of those have a chunks method. But presumably the actual users of your API already know that, so that's not much of a benefit
In terms of style the first is a bit shorter to type, but you get more of an OOP approach with the second (and it seems better for error checking because you could do vol.chunks(10) so I would probably go with that.
@Aran-Fey v itself would not be an AsyncIterable. However, every Awaitable in the rest of the API so far is a stateless request anyway, so await v; await v would be fine as well and correspond to await foo.volume(5000); await foo.volume(5000)
Hmm, ok. It's hard to say, but I think I've got a slight preference for the two top-level methods.
I think it probably depends on how these would be used. Would it ever make sense to assign v = foo.volume(5000) and then do both await v and async for bar in v.chunks(10)? If it doesn't, then foo.volume(5000).chunks(10) is basically just a silly syntax for what should be a foo.chunks(5000, 10) function call
hm, that's actually a good point. I don't think defining a volume and then fetching it via iteration would yield expected behaviour for most people. mainly because it would be two separate volumes.
@PaulMcG that looks pretty nifty, actually (even though it wouldn't work in my specific case). islicing iterables always strikes me as horrendously tedious compared to regular slicing.
@ravi os.path.abspath(file_name) will add the current working directory to the filename, not the directory that file_name is actually in. Try file_name = os.path.join(dir_path, file_name) instead.
Hmm. Maybe I'm misreading your code, then. Please post it again, with proper indentation. Consult sopython.com/wiki/… if you're not sure how to do that.
So yeah, I'm real suspicious of that AudioSegment method. One way to really verify that you're calling it with the right argument is to do print(audio_file_name) right before calling .from_mp3, and then you can check each path printed in the file explorer to verify that it exists
Incidentally none of this is going to work if your package is compressed into a zip or a tar or something. I don't think that's the actual problem, but I ran into that exact issue last week so I want to warn against it
Assuming AudioSegment is pydub.AudioSegment, I'm inclined to believe that it's actually implemented properly
I'm also assuming there's no "Couldn't find ffmpeg or avconv - defaulting to ffmpeg, but may not work" warning being printed
Anyway, we know the listdir call worked, and from that we can conclude that file_name is valid. If python claims that it isn't, then we have no way of figuring out why without having a reproducible example on hand
@ravi did you change anything between getting this error and the one before? it seems strange that you would get the same error with different message.
does anyone here know matplotlib? I was trying to color my points on a scatter plot (output from kmeans) but they are coming out as levels of grey from white to black instead of actual colors
just pass c the array of labels, it automatically sets a color for each, in the examples online its supposed to color them, but mine end up shades of grey
@BanjoFox it would help if your question were to say early on that you want to @ mention the user, not just mention their name. Either way, agree that the dupe is not helpful.
If the PRs do overlap, it still might make sense to submit them at the same time, if you think the changes can be merged easily. If the PRs are modifying different parts of the file, dozens of lines apart, maybe that's fine.
"a project that has lots of low-hanging fruit and a dev team that's welcoming to new contributors" is an ever moving target because low-hanging fruit gets plucked very quickly
Suddenly the only issues left to solve are the hard and/or boring ones
@MisterMiyagi -- Yeah... >.< I did say "mention" in the OP, but I clarified (AT)Mention in the update which was before the Dupe tag.
@MisterMiyagi -- This thread (second one listed in the dupe comment) seems to lead in the right direction, but (my opinion) the API docs are not particularly helpful for newbies https://stackoverflow.com/questions/50262096/for-discord-py-how-would-i-turn-the-authors-id-into-the-discord-users-actual
@Anarach I manage the pyparsing project, and am in the market for a bunch of new unit tests. Coverage is in mid 80%, and I have a list of tests that should move to at least 90.
Good to know :) I created a new Server just for testing so I don't use private channels
I also think the APIdocs should have stuck with "Server" because when I log into Discord I only see "Add Server" not "Add Guild" but maybe I am doing something wrong there as well?
Yesterday I had a headache and I took an aspirin and my headache eventually went away, and I thought "but you can't prove that the asprin improved things. For all you know, you have an adverse reaction to asprin that makes headaches last longer, and your headache would have dissipated twice as quickly if you had done nothing" and I think this is a sign that I should dial back my skepticism a tad
Disbelieving absolutely everything is an effective way of rooting out invisible problems in ambiguously worded SO questions but perhaps it's not the best thing to do when I'm just trying to exist in real life
The equation for cross product at the end of the coordinate notation section looks linear to me, but I suspect solving those will result in there being an infinite number of solutions
Only one because |A| == |C| == 1, so sin(phi) = 1, so phi=90 degrees, so phi and 180-phi are degenerate. And the vector you need is "A rotated around C by +90 degrees", so B=(0,1,0)
but that's an edge case due to the fact that |C|/|A|^2 == +1
N there is the same N described in wikipedia's cross product article: "n is a unit vector perpendicular to the plane containing a and b in the direction given by the right-hand rule"
Going up the XY problem ladder by one rung, I'm playing around with different ways to represent the idea of "vector A rotated about vector C by theta degrees". Dot product and cross product both give ways to relate vectors and angles, although both have degenerate cases, as we've demonstrated here
There are plenty of resources that will give me exactly the formulas required to perform this rotation operation, but I want to play around in the conceptual space in hopes of getting a better intuition
I think MM's question is more about why you need to store so much data. What practical purpose does it serve?
In any case, I suspect that for something performant, you're in the realms of Hadoop/Spark or some other distributed system that has dedicated engineers to run it
say youre checking the state of a website and all its subpages, like you have a spider that spits out 0s and 1s for each corresponding page being broken or not (sorry i cant quite talk about the exact operation but this is similar). A hash table seems to makes most sense for quick access, so for testing making a model in django is good
but then you want to bind the model reference to a hadoop instance or something similar for when you need to scale
im also trying to understand how a django heavy project like disqus and instagram, which handle ~10-100 billion entries, would go about doing the organizing
Something along these lines. But probably heavily tailored at each step. There is a longer ppt for Facebook but it's still not going to clarify too much
@wim I've been working my way through this answer since we had our Flask discussion. I don't know if you've seen it before. Taking a fresh look, it doesn't seem completely nuts but ... convoluted, so I see your points.
@Skyler you should be looking at proper data management techniques, e.g. sharding, DHTs and friends (I can recommend the CEPH thesis), as well as multi-level data storage, e.g. C++ STXXL, bcache, the like. Loading everything into one dynamically typed data structure on a single machine is not how one does these things.
otherwise, a heavy in-memory DB (software + hardware) such as SAP HANA would seem appropriate. Google also has several papers on how their infrastructure works.
A recentish question asks "why doesn't str.count find overlapping occurrences?" and it's been answered with "because that's what the documentation says it does" and that's true enough but I was hoping somebody would dig up a justification for it being designed this way
A little source diving leads me to the conclusion "Because Objects/stringlib/find is implemented using Objects/stringlib/fastsearch, and if fastsearch searched for overlapping strings, it wouldn't be fast". Ok, sure. But if speed were always prioritized over correctness, let's just do return 0 and be done with it
Perhaps the missing piece is "because in the vast majority of cases, the target string can't overlap with itself, so we're making the common case fast at the expense of making the uncommon case give a surprising result"
Im doing a c++ homework that asks me to write a program that gets two inputs x and y of a point, and returns the quadrant which the point is inside. we are not supposed to use any if statement and we can just use these operators
= + - * / % ()
and abs function of math.h header file
we can't use a...
In hindsight this is pretty easy to prove visually. If you watch the gif at en.wikipedia.org/wiki/Cross_product#/media/…, you can see that as the red line sweeps through the unit circle, the pink line moves through all possible directions and magnitudes twice. Except for when red and blue are at a ninety degree angle, in which case pink's direction/magnitude is unique
The Heaviside step function, or the unit step function, usually denoted by H or θ (but sometimes u, 1 or 𝟙), is a discontinuous function, named after Oliver Heaviside (1850–1925), whose value is zero for negative arguments and one for positive arguments. It is an example of the general class of step functions, all of which can be represented as linear combinations of translations of this one.
The function was originally developed in operational calculus for the solution of differential equations, where it represents a signal that switches on at a specified time and stays switched on indefinitely...
Of course. How can I torment OPs by making them realize their assignments have twice as many corner cases as they thought, if I just hand them an implementation? Where's the character building?
Hello My question is not python related but I'm trying to connect to localhost wamp server from my mobile device and it doesn't work. I've also turned off my firewall. Could anybody help me out?
I installed 3.7 and 3.8, and now my scripts are saying "unable to create process" when I double click them - has anyone had this issue? All I could find was that you need to have run as admin on the python executable unchecked...and I do.
You'll want to do ipconfig/ifconfig on the server host, then try to connect to the local IP address from your phone. But, the server part is going to be in PHP I guess and then we open a rabbit hole