I've got a weird issue with Pandas. I'm using a colleague's code and at one point they have loc_pairs = unique_destinations.merge(unique_collections, how='cross'). This throws an error for me: pandas.errors.MergeError: No common columns to perform merge on. Merge options: left_on=None, right_on=None, left_index=False, right_index=False. That would be fine, but for the fact...
... That the docs say explicitly "When performing a cross merge, no column specifications to merge on are allowed."
I have a lot of respect for this colleague too, so I'm increasingly inclined to think they've broken something in a later release. Question is; do I want to see the kind of things you've just seen?
@roganjosh for what it's worth that doesn't sound like a contradiction. You can't specify columns: pandas infers them. And in this case it couldn't infer.
Ok. I've switched to a virtualenv and installed his requirements.txt and it's now working. I was trying to avoid that at the start just to mess about a bit with some ideas. Pandas definitely changed/broke their cross merge. I'll find the working version... once this gigantic model runs to completion
Or I could just open another terminal :P (it's still too early for me!). Works in pandas==1.2.1. Doesn't work in pandas==1.1.4
So I guess I'm late to the party on finding the bug
Why should I be? Given my little snippets of code links of "should we be doing this?" and "Ugh, spaghetti", would you charge headlong into upgrading to every new release?
I am trying to add a timezone value I have as hours using timedelta but since timedelta doesn't support float values I am having a problem ( the float value being 5.5). How do I adjust for it using an alternative if possible?
Is the only option here to convert that '0.5' into minutes or seconds ?
The library says: class datetime.tzinfo An abstract base class for time zone information objects. These are used by the datetime and time classes to provide a customizable notion of time adjustment (for example, to account for time zone and/or daylight saving time).
So it doesn't mention timedelta
If you're using timedelta to account for timezones then that's flat-out wrong @RaphX and I agree totally with Andras. If you're trying to use timedelta in a way that is timezone aware, then I've realised I don't have a clue how that actually works
My faith in coding challenge websites has sunk lower than ever after seeing two O(N^2) solutions on top of the "Best Practices" leaderboard (for an O(N) task)
Where you see problems, you could perhaps see an opportunity to dominate the leaderboard <you're welcome for my inspirational words, courtesy of the adverts for our mental health services at work>
The selected solutions have O(log z) performance, where z is the number of solutions submitted, and performance is measured by amount of time the underpaid intern spends picking one that looks good enough
I've spent an entire week trying to get into the bowels of jsprit and I'm currently re-writing it to special-case the problem we're solving.... but in python
@Aran-Fey I've jokingly suggested before that we'd have a position for you at the place we work. Given all the remote working, I'm still happy to put you forward for something btw
@roganjosh Hmm. I don't think it's a good idea to pick 100% remote job (in another country, no less) for my first job in IT. Seems like a big leap to make. I'm more of a baby steps kinda guy (:
I hope everybody is keeping a remote position open for me, for the day I abandon the widget logistics industry and retreat to a cabin in the woods (with cable)
... so the trick is to kill the program on almost all system calls, except the very few that are safe as-is, or then some that instantly drop into the C debugger which can then inspect the state of the arguments
@Aran-Fey My first programming job was for a company in Dubai and I was head of Data Science with only a little MATLAB experience behind me and no other programming experience :P
anyway my coding challenges will be something like "do this transformation using dictionary comprehensions", or "write a function that given an iterator returns 1 if there is one and only one true in the argument, without using any loops yourself" and while, for, nested functions etc banned :P
@roganjosh Well, I'm only just starting to get into the job market. Never had enough time for a "real" job in the past, with university and helping out my dad with his work
Just heads-up that I was repeatedly told that one shouldn't give their main phone number to recruiters, because they will sell your data and you'll still be spammed years later.
lol, when I was 20 and was writing flaming emails at a multinational corp about the crap the team in the states had written, then this Irish guy, 60 yo with white beard comes to visit Finland and he's like "omg I thought you were of my age or sth" :D
Living near the NJ/PA border, I hear stories of the period where the drinking age for the two states were 18/21 respectively. Apparently it was quite routine for young adults to cross over the river just to find a bar that would serve them.
> A number of individuals were apprehended by the authorities for attempting to smuggle butter across the border,[15] while Swedes posted online adverts offering to drive butter to Norwegians at prices of up to NOK 460 (€59; £50; $77) per packet.
I've got a nonzero vector, V, and a scalar s. I want to find a vector parallel to V, with magnitude ||V|| + s. Is there a name for this operation? The internet insists that "vector-scalar addition" is intentionally not defined.
It's easy enough to solve for symbolically: V * (1 + s/|V|). Now I just need a name for my function.
I'm calling it "V extended by s" for now. I think it goes wobbly if I change basis vectors and/or do affine transformations on the plane, but that's not a practical issue for this XY problem.
Oh yeah, that reminds me of another terminology question I came up with last night. Is there a name for an affine transformation that turns circles into circles?
Rotation is circle-preserving, and so is translation, reflection, and scaling both X and Y by the same value. Skewing is not circle-preserving. Most randomly chosen transformation matrices are probably not circle-preserving.
(Insofar as it is possible to randomly choose an object that is isomorphic to a four-tuple of arbitrary reals)
Hmm, yeah, I think that's equivalent. Any thoughts on how to test whether a matrix is angle preserving? I'm toying around with testing that |m*J| == |m*K|, where J and K are axis-aligned unit vectors.
My cocktail napkin math simplifies to a fairly straightforward conclusion:
For a matrix representing a 2d affine transformation on homogeneous coordinates,
m =
a b c
d e f
0 0 1
m is circle/angle/similarity preserving iff
(a+c)^2 + (d+f)^2 = (b+c)^2 + (e+f)^2
As expected, the equality holds for all conventional rotation/translation/reflection/XY-scaling matrices
"How can I save each table with different names in the loop" doesn't mean they're looking to fiddle with globals() or anything; it could be a database table
Re-reading @wwii I've got myself confused. Maybe they want variable variables, or they need a nudge in the right direction. As it is, I'm inclined to vote close it
@12944qwerty it actually has different uses than just as a switch statement. It allows you to extract data from more complex data types in a concise way.
and to perform different actions based on the shape of the data.
@AnttiHaapala I'll definitely keep it in mind and look for situations where I can use it. The first example from this pycon talk was an area() function and my initial reaction is why isn't that just a member method of the class?
from dataclasses import dataclass
@dataclass
class InventoryItem:
name: str
unit_price: float
quantity_on_hand: int = 0
x = InventoryItem("hammer", 0, 42)
match x:
case InventoryItem(unit_price=0):
print("Free stuff")
I don't think I understand what you're asking. That's 2D plotting with matplotlib, which has been suggested a few times to you. You're coming across as though you think you have an edge case but with nothing to show how it would be
@Marco we're a helpful bunch (in your case, perhaps more than you expect). It really helps us to be specific on what you're asking or we'll just mentally fill gaps as we can, to try help you. We needn't do that if you're specific
Now I can look it up and see the nice version that Archimides wrote on a grain of rice in 7 AD
A lot of approaches include the step "now apply the quadratic formula, very painfully, to this expression of like eight variables", so I'll pat myself on the back for inadvertently avoiding that
I verified that I just needed a simple 2D plot. The word parameter space can mean something very simple or more complex, but that uncertainty was clarified by other information that I obtained myself.
It is only necessary to plot several functions on the same graph.
In my case* it is only necessary to plot several functions on the same graph.
I have lots of questions, but they won't be helpful for you. In any case, I don't know what you're asking now. matplotlib will do exactly what you need out-of-the-box
Not really worth of a question IMO so... Consider this list of tuples a = [(1, 1), (3, 4), (3, 2), (2, 4)]. I want to get the max on it based on the first value and that can be done with max(a, key= lambda tup: tup[0]). However, in case of a "draw", I want to get the tuple that has the LOWEST value on the second tuple index. If it was the other way around, I could do with max(a, key= lambda tup: (tup[0], tup[1])) but that's not the case..